Best PET Sheet Supplier for Food and Beverage Packaging Worldwide: Lyka Global Plast 

When it comes to food and beverage packaging, quality, durability, and safety are paramount. Packaging not only preserves the freshness and taste of the products but also ensures they reach the consumer in perfect condition. In this domain, Lyka Global Plast has emerged as a trusted name, providing premium PET sheets that cater to the diverse needs of the global food and beverage industry. Renowned for its commitment to quality and innovation, Lyka Global Plast stands as the best PET sheet supplier for food and beverage packaging worldwide. 

Why Choose PET Sheets for Food and Beverage Packaging? 

PET (Polyethylene Terephthalate) sheets have become the preferred choice for packaging in the food and beverage industry due to their superior properties. They are lightweight, transparent, and provide excellent barrier protection against moisture, oxygen, and other external contaminants. PET sheets are also highly durable, making them ideal for protecting food and beverages from damage during transportation and storage. Additionally, they are recyclable, making them an environmentally responsible choice for businesses committed to sustainability. 

Lyka Global Plast: A Leader in PET Sheet Supply 

Lyka Global Plast has established itself as a leader in the PET sheet supply industry, offering high-quality PET sheets specifically designed for food and beverage packaging. Here’s why Lyka Global Plast stands out as the best PET sheet supplier: 

1. Uncompromised Quality Standards 

At Lyka Global Plast, quality is the cornerstone of every product. The company uses only the finest raw materials and employs advanced manufacturing processes to ensure that each PET sheet meets the highest standards of quality and safety. Rigorous quality control measures are implemented at every stage of production, from raw material sourcing to final inspection, to guarantee products that are free from defects and contaminants. 

2. Innovative Packaging Solutions 

Lyka Global Plast is at the forefront of innovation, constantly developing new solutions to meet the evolving needs of the food and beverage industry. Their PET sheets are designed to offer superior clarity, ensuring that packaged products look appealing on store shelves. Additionally, their PET sheets are highly customizable, allowing clients to choose from various thicknesses, colors, and finishes to suit their specific packaging requirements. 

3. Global Reach and Reliable Supply Chain 

With a well-established global distribution network, Lyka Global Plast ensures timely delivery of PET sheets to clients worldwide. The company has built strong partnerships with key players in the food and beverage industry, providing them with consistent, high-quality PET sheets for various packaging applications. Their reliable supply chain management ensures that customers receive their orders on time, regardless of their location. 

4. Commitment to Sustainability 

Lyka Global Plast is deeply committed to sustainability and environmentally responsible practices. Their PET sheets are fully recyclable, contributing to reduced plastic waste and promoting a circular economy. By choosing Lyka Global Plast, businesses in the food and beverage industry can align themselves with sustainable packaging practices without compromising on quality or performance. 

5. Exceptional Customer Support 

Customer satisfaction is a top priority at Lyka Global Plast. The company offers exceptional customer support, assisting clients in selecting the right PET sheets for their packaging needs. Their team of experts provides valuable insights and guidance, ensuring that each client receives a tailored packaging solution that enhances product appeal and shelf life. 

Conclusion 

For businesses in the food and beverage industry seeking the best packaging solutions, Lyka Global Plast is the ultimate partner. As a leading PET sheet supplier, Lyka Global Plast combines top-tier quality, innovation, sustainability, and excellent customer support to deliver unmatched packaging solutions worldwide. Choose Lyka Global Plast for your food and beverage packaging needs and experience the difference that quality and expertise make. 

Green Living - Non-Toxic Pest Management

Subterranean insects, cockroaches, and mosquitoes will undoubtedly attack the home or its environmental elements at some point. There are business synthetic medicines accessible to battle off these critters, yet their fixings are not generally excellent for the climate, people, or family pets. Here are ways to perform non-poisonous patriot pest management wa inside the home.

Subterranean insects are attracted to sweet treats like sugar and honey, and they additionally love a decent beverage of water. Keep the sweet things in holders and keep fixtures from dribbling. Splash subterranean insects with sudsy water and leave squashed, dried mint leaves or some cucumber cuts by their entryways in the home. Assuming that subterranean insects are available externally on the patio or deck, place garlic cloves between the breaks in the wood sheets.

Cockroaches are perhaps the most undesired home trespasser and they love high places. Sprinkle diatomaceous earth in regions where they gather to kill the pests in 48 hours or less. The particles in the earth cut the exoskeleton of the cockroach shell. On the other hand, place sachets of catnip, cucumber cuts, garlic, or sound leave as impediments any place the bugs gather. Assuming no part of this works, there are non-poisonous cockroach traps accessible on the web or in stores.

Mosquitoes present an unexpected issue since they chomp people and creatures. Outside the home, eliminate standing water sources, plant marigolds, and add rosemary or sage to the coals while cooking on the barbecue. Make a bug repellent from one section of garlic juice and five sections of water, then, at that point, empty it into a splash bottle, shake well, and apply it to uncovered body parts.

Non-harmful pest management will keep the home and yard liberated from bugs like insects, cockroaches, and mosquitoes without compromising the family's green residing propensities. Gnawing bugs can be hindered by utilizing anti-agents produced using family substances. Normal fixings are alright for people and creatures yet are exceptionally successful at hindering unwanted pests.

Thermoplastic Polyester Elastomer Market – Forecast (2021-2026)

Thermoplastic Polyester Elastomer Market size is forecast to reach US$1.22 billion by 2026, after growing at a CAGR of 3.8% during 2021-2026. Thermoplastic Polyester Elastomers, (TPE-E) combines the properties of high-performance elastomers and flexible polymers. These high-strength materials, also known as thermoplastic rubbers, are known for their ability to withstand multiple flex cycles and their resistance to a variety of solvents and lubricants. TPE-Es have a strong impact strength even at low temperatures and can withstand temperatures up to 300°F. PET resin is one of the most frequently used thermoplastics, especially in the packaging industry. In outdoor conditions, thermoplastic elastomers (TPE) and ethylene propylene diene monomer (EPDM) rubber both provide sealing and insulation. They can be molded into specific shapes or produced from sponge or solid material sheets and extrusions. Polyester (polyethylene terephthalate (PET)) is the most common fiber used in automobile textile production. The growing use of TPE-Es in suspension bushings for automotive performance applications because of its greater resistance to deformation when compared to regular rubber bushings is expected to drive the market in the forecast period.

COVID-19 Impact

Currently, due to the COVID-19 pandemic, the Plastic and the rubber industry were affected in multiple ways. There was a supply disruption of raw materials. A delay in farming activities and latex collection further exacerbated the problem. Critical inputs like plastic, carbon black, and rubber compounds were in short supply due to global economic turmoil and import restrictions. For a sector dominated by MSMEs that do not often have solid business continuity planning, the delay in farming activities also resulted in liquidity and working capital concerns. They rely on consistent cash flows to cover their working capital needs and pay their employees. The industry's prospects were further harmed by worldwide market volatility. During the pandemic, however, the market is steadily rebounding due to the growth of TPE (Thermo Plastic Elastomer) in the medical, as well as food and beverage packaging industries.

Thermoplastic Polyester Elastomer Market Report Coverage

The report: “Thermoplastic Polyester Elastomer– Forecast (2021-2026)”, by IndustryARC, covers an in-depth analysis of the following segments of the Thermoplastic Polyester Elastomer market.

By Application: Rubber seals, Belting, Tubing, Bushing and Gears, Conveyer, Geophysical, Industrial, Material Handling, Wire and Cable, Others. By End-Use Industry: Aerospace, Automotive (Passenger Vehicles (PV), Light Commercial Vehicles (LCV), Heavy Commercial Vehicles (HCV)),Electrical and Electronics (Medical Devices, Smart Phones, Computer Electronics, Home Appliances, and Others), Marine,Sports and Leisure, Energy (Wind Energy, Solar Energy, and Others), and Others By Geography: North America (USA, Canada, and Mexico), Europe (UK, Germany, France, Italy, Netherlands, Spain, Russia, Belgium, and Rest of Europe), Asia-Pacific (China, Japan, India, South Korea, Australia and New Zealand, Indonesia, Taiwan, Malaysia, and Rest of APAC), South America (Brazil, Argentina, Colombia, Chile, and Rest of South America), Rest of the World (Middle East, and Africa)

Key Takeaways

The Thermoplastic Polyester Elastomer (TPE-E) market in Asia-Pacific is dominated by the region's rising use in a variety of applications in the automotive, medical, construction, and other industrial markets.

The varieties of TPE-Es and their modification options provide the foundation for a wide range of material qualities, allowing for cost-effective processing in a wide range of industries.

TPE-E is easy to mold or extrude onto rigid thermoplastic materials, making it ideal for product soft-touch grips. TPE-Es can also be used to make bottle cap liners and seal rings. It's also good for vehicle parts, wire and cable insulation, HVAC systems, and home appliances.

The biggest opportunity for this market in practically every key industry is increasing need for TPE-Es in densely populated nations like China and India, where demand is growing every day.

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Thermoplastic Polyester Elastomer Market Segment Analysis – By Application

Belting segment held the largest share in Thermoplastic Polyester Elastomers Market in 2020 and is growing at a CAGR 4.5% during 2021-2026. Drive Belts, Conveyor Belts, Weighing Belts, Process Belts, Vacuum Belts, Vacuum Timing Belts, Thermo Belts, Food Processing Belts, ATM-Bill Ejector Belts, and Credit Card Transfer Belts are all made with Hytrel, a thermoplastic polyester elastomer with great durability and flexibility. A metal and x-ray detecting conveyor belt is being developed using DuPont Hytrel TPC-ET thermoplastic elastomer. DuPont Performance Materials teamed up with Esbelt, a conveyor belt manufacturer, to develop a unique, effective polymer that allows for food contamination detection. The new conveyor belt improves food makers' capacity to demonstrate due diligence by controlling the quality of the product on the belt using metal and x-ray detection. Based on the special properties of TPO and TPEE coatings, Habasit P line belts were designed specifically for the tobacco industry. Belt surfaces are critical in tobacco processing because they must serve a variety of functions while enduring harsh environmental conditions such as humidity, sand or dirt, and mechanical impacts. As a result, the increased use of TPEEs across a variety of core sectors is expected to boost the market in the next years.

Thermoplastic Polyester Elastomer Market Segment Analysis – By End-Use Industry

Automotive segment held the largest share in the Thermoplastic Polyester Elastomer market in 2020 and is growing at a CAGR of 6.2% during 2021-2026. Polyester (polyethylene terephthalate (PET)) is the most common fibre used in automobile textile production. According to the SVOA Materials Science & Technology Journal, global TPEEs manufacturing capacity surpassed 150,000 tons per year in 2019, while market demand surpassed 120,000 tons. TPE-E (thermoplastic polyester elastomer) is a thermoplastic polyester elastomer (TPE-E) that is utilized in fabric designs for car seating. Arnitel's TPEEs resin has been utilized on numerous Ford vehicles, including the Mondeo, S-Max, Galaxy, and Focus, and Arnitel's TPEEs have recently been selected as the vacuum brake tube material for Fiesta cars. Thus the growing use of TPEEs in Automotive is evidently going to flourish the market in the forecast period.

Thermoplastic Polyester Elastomer Market Segment Analysis – By Geography

Asia-Pacific region held the largest share in the Thermoplastic Polyester Elastomer Market in 2020 up to 43%, owing to the accelerating automotive industries in the region. According to the International Organization of Motor Vehicle Manufacturers, China produced 25.2 million automobiles in 2020, while India produced 3.9 million, with 25.7 million and 3.8 million automobiles sold in China and India, respectively. China remains the world's largest vehicle market, with the Chinese government projecting that car production will hit 30 million units by 2020 and 35 million by 2025. In 2018, nearly 27 million automobiles were sold in China, according to the China Association of Automobile Manufacturers. The Made in China 2025 program, which aims to transition the country's industry from low-cost mass production to higher-value-added advanced manufacturing, includes automobiles, including new Energy Vehicles (NEVs). The government's target for NEVs is to create 1 million electric and plug-in hybrid cars in China by 2020, with local production accounting for at least 70% of the market. Chinaese government is making a huge investment in the automotive industry which can lead to Thermoplastic Polyester Elastomer Market growth in the forecast period.

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Thermoplastic Polyester Elastomer Market Drivers

Increasing Automotive Production

Thermoplastic Polyester Elastomers are increasingly being used to replace their equivalents in the production of the inside and exterior of automobiles due to their specific strength and modulus. Thermoplastic Polyester Elastomers are becoming more popular in the vehicle industry due to their superior strength-to-weight ratio and are used in a range of applications in the industry, including automotive hoses, seats, gears, and brake systems, among others. China is the world's largest automobile market, with the Chinese government projecting that car production will reach 30 million units in 2020 and 35 million by 2025. As a result, increased automation will necessitate more automotive components, which will drive the Thermoplastic Polyester Elastomers market during the forecast period.

Use of Thermoplastics in Commodity Sector

Commodity The term thermoplastic refers to the least priced thermoplastics, such as polypropylene and certain grades of polyethylenes, that account for the majority of total plastic production. Elastomeric polymers have a high degree of elasticity, which makes them less prone to breaking or cracking. In fact, depending on the substance, elastomers can reversibly extend up to 700 percent. Wires and cables, photographic and magnetic tape, apparel, reusable bags, medical trays, and seeding trays are all examples of commodity products that can benefit from the high tensile strength and tear resistance of elastomers. period. As a result of the diverse uses of commodities in everyday life, the plastics market is predicted to grow, which would favorably impact the Thermoplastic Polyester Elastomers market over the forecast period.

Thermoplastic Polyester Elastomer Market Challenges

Higher Price of raw materials:

Extrusion and injection molding are the two most common TPE manufacturing processes. Injection molding allows for incredibly quick and cost-effective fabrication. The TPE-raw E's material costs are substantially greater. The reason for this is its high production cost; while producing TPE-E, the apparatus and equipments used are more expensive, and they also demand a lot of maintenance. As a result of this feature, the product has a greater price than its alternative materials, which tends to limit the market's growth.

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Thermoplastic Polyester Elastomer Market Landscape

Technology launches, acquisitions, and R&D activities are key strategies adopted by players in the Thermoplastic Polyester Elastomer Market. Thermoplastic Polyester Elastomer Market top companies include:

1) A. Schulman, Inc. 2) BASF SE 3) Celanese Corporation 4) Chang Chun Group 5) Covestro AG 6) DuPont 7) Entec Polymers 8) LG Chem 9) Mitsui Chemicals Inc 10) PolyOne Corporation and others.

Relevant Reports

Thermoplastic Elastomers Market

Report Code: CMR 0098

Thermoplastic Elastomer (TPE) Gaskets Market

Report Code: CMR 1056

For more Chemicals and Materials Market reports, please click here

Recycled PET used in timber-look, noise-absorbing panels

By Anthony Caggiano

WoodBeQuiet panels installed on the ceiling to reduce noise in an office in San Diego, USA. All images: Acoufelt

Recycled plastic has been used to develop a series of noise-absorbing panels designed to look like timber.

The WoodBeQuiet range of planks by Acoufelt are made from polyester fibres with more than 60% recycled content. 

PET-based recycled plastic beverage bottles that normally would go to the landfill are cleaned and then cut into flakes before being melted and extruded into fibres of natural white colour. These regenerated fibres are then carded and thermo bounded to form rigid, acoustic panels.

But the extra magic lay in how they could be sound-absorbing. 

Panels used on a wall installation.

Acoufelt Marketing Manager - Global, Lucy Pittman, told Materials World the planks are made by a print technology process where the colour is targeted to the areas of the panel, while ensuring air-gaps in the porous material remain open to absorbing noise. The net result is a printing technique that is high resolution, and has no significant impact on the acoustic performance of the base material.

‘Many other high-resolution printing techniques involve laying down a hard-setting paint or ink over the top of the base surface. This can result in a filling of the air gaps in the porous surface of an acoustic material, inhibiting noise absorption,’ she said. 

‘Other printing techniques allow the colour to “run” in the material, like a drop of ink on a blotting sheet. This can result in poor resolution as the fine edge of the images blur.’

The panels can be used for walls and ceilings, and applied to hard surfaces including screens, partitions and ceiling baffles. 

PET film sheet

PET sheet (polyethylene terephthalate) is a common thermoplastic that provides high dimensional stability, excellent mechanical strength and good resistance to creep. It offers resistance to chemicals, provides very low moisture absorption and is a good electrical insulator. PET film sheet also performs well in wear applications and has a tough, hard surface that can be easily machined and polished.

Polyethylene terephthalate or PET belongs to the family of polyesters. It is widely used in everyday items and easily recyclable. It has a semi-crystalline form when stable. Most common application include rigid and flexible packaging as it is very light weight.

PET is among those plastics which are an important part of your everyday life. You find the polymer used in packaging, fabrics, films to molded parts for automotive, electronics and many more. For all the applications demanding lightweight and impact-resistant material, PET is of your choice. Also do not forget, PET is one of the most recycled thermoplastics as well.

Applications

PET sheet like transparent PET sheet and matt rigid plastic PET sheet are commonly manufactured into bearings, pump parts, components for frames, tank lids, insulators, friction strips and control discs. Primarily used in mechanical engineering, marine engineering, electrical and food and pharmaceutical applications. PET sheet is also manufactured into any kinds of packaging, commonly into food packaging, such as clamshell, egg tray, salad packaging, etc.

What is PETG?

Polyethylene terephthalate glycol, commonly known as PETG or PET-G, is a thermoplastic polyester that provides significant chemical resistance, durability, and excellent formability for manufacturing. PETG can be easily vacuumed and pressure-formed as well as heat-bent thanks to its low forming temperatures. This makes it exceptionally popular for consumer and commercial applications that involve 3D printing, or other heat-forming manufacturing techniques. Additionally, PETG is well-suited for fabrication techniques like die cutting, routing, and bending.

The Benefits of PETG Plastic

PETG is strong and cost-effective when compared to either acrylic or polycarbonate. Its unique characteristics make it preferable for impact-resistant glazing and high strength display units. Suitable for digital printing, PETG lends itself to product materials, displays, and signage. In general, PETG is a food-safe plastic that's commonly used for food containers and bottles for liquid beverages. Like acrylic and many other thermoplastics, PETG is fully recyclable.

PETG is both thermoformable and vacuum-formable, and can tolerate a tremendous amount of pressure without cracking. Although PETG is naturally clear, it takes color easily during processing. It can be injection molded into a variety of shapes, or extruded into sheets.

PETG's damage resistance is far higher than that of acrylic, to the point that it rivals the impact resistance of polycarbonate. However, PETG fabricates easily, making it an easy material for both practitioners and professional fabricators. Therefore it can be made into many products like PETG film roll, transparent rigid PETG sheet, matt rigid plastic PETG sheet, etc.

What's the Difference between PET and PETG?

Although these compounds look similar, they are fundamentally different materials on a molecular level. PET is the result of two monomers combining. PETG may involve these same monomers, but also includes glycol, giving it different chemical properties than PET. PETG is less brittle and more pliable than its PET counterpart, making it ideal for bottles. It also has better shock resistance and is better suited to higher temperatures.

Apart from these two materials, PVC is also a widely used plastic and it can be made into PVC Film Sheets, Pharmaceutical PVC Film, PVC Sheet, Transparent PVC Sheet and so on.

Polyethylene Terephthalate Market Size, Share, Outlook, and Opportunity Analysis, 2021 - 2028

Market Dynamics

Food and beverages is the largest application industry in the global polyethylene terephthalate market. Polyethylene terephthalate are widely utilized in food and beverages packaging, used in domestic and commercial applications. Growing demand for convenience food in North America and Europe is expected to fuel growth of the market of food packaging, which in turn is expected to boost the market for PET in the following years. Moreover, increasing awareness of food borne diseases and health consciousness in Europe and North America is expected to propel the market growth. The increasing preference of auto manufacturers towards the use of polyethylene terephthalate due to the considerable cost reductions, light weight, low operational costs, excellent performance and other benefits offered by these products fuels growth of the polyethylene terephthalate market.

Detailed Segmentation:

Global Polyethylene Terephthalate Market, By Product Type:

Carbonated Soft Drink

Bottled Water

Other Drinks

Sheets & Films

Food

Non-Food

Global Polyethylene Terephthalate Market, By Application:

Food & Beverages

Automotive

Electronics

Others

Market Taxonomy

This report segments the global polyethylene terephthalate market on the basis of product types and application. On the basis of product types, the market is segmented as carbonated soft drink, bottled water, other drinks, sheets & films, food and non-food. On the basis of application industry, the global polyethylene terephthalate market is segmented into food & beverages, automotive, electronics and others Moreover, food & beverages is the largest application segment, accounting for over 80.36% share of the global polyethylene terephthalate market in 2016, and is projected to be the fastest growing application segment and expected to grow at a CAGR of 8.0% in terms of volume during the forecasted period.

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Market Opportunities

The growing demand for lightweight packaging solutions for electronics and food is expected to open up new opportunities for PET. Furthermore, over the forecast period, the level of rivalry is predicted to increase. As a result, players are focusing on developing unique technologies in order to increase their market position. To achieve a competitive advantage in the market, companies are working on PET manufacturing processes that are both cost-effective and high-quality.

Key Players in Polyethylene Terephthalate Market:

Key companies covered as a part of this study include Alpek S.A.B de C.V., RTP company, BASF SE, The Dow Chemicals Company, Jiangsu Sanfangxiang Group, Indorama Ventures, M&G Chemicals, Nan Ya Plastics Corporation, Far Eastern New Century and Quadrant AG.

About Us:

Coherent Market Insights is a global market intelligence and consulting organization that provides syndicated research reports, customized research reports, and consulting services. We are known for our actionable insights and authentic reports in various domains including aerospace and defense, agriculture, food and beverages, automotive, chemicals and materials, and virtually all domains and an exhaustive list of sub-domains under the sun. We create value for clients through our highly reliable and accurate reports. We are also committed in playing a leading role in offering insights in various sectors post-COVID-19 and continue to deliver measurable, sustainable results for our clients.

Contact:

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Its variety of features determine the good materials for making plastic bottles

Due to these two characteristics, PET plastics have good film properties. PET plastics have a wide range of applications in many fields, let's understand. What is PET plastics? PET comes from English Polyethyleneterephthalate, Chinese translation for polyethylene terephthalic acid. The most PET plastic is a packaging industry. On the machinery equipment, the image of PET plastics is also common. Since PET plastics have such a wide range of purposes, how should I identify PET plastics? smell it.

Its variety of features determine the good materials for making plastic bottles, the weight of the PET plastic bottle is light, nor toxic, and the structural strength is large. This is the name of the plastic category, including polybenzene, polybenzene, polybenzene. After using the PET plastic bottle, don't throw anything, it should be recycled. Film sheet. PET plastic is a good packaging material for precision instruments and electrical components, and the use of PET plastic film packaging can extends good protection, extending life. One of the most practical methods of identifying PET plastics is to bake. The raw materials for all kinds of beverage bottles that we use are PET plastics. It is contracted from both benzolic acid and ethylene glycol, which is a heat shrinkage polyester and a saturated polyester. 

Since the polyvinyl chloride plastic is mixed in many polyester plastics, we adjust the oven temperature to 250 degrees Celsius and place the target plastic to bake over a period of time. There are many advantages of PET plastics. can be made with PET plastics, and outdoor signages and models are PETG container frequencies with PET plastics. After recovery, it becomes the raw materials of various industrial supplies. This item is high for non-toxic and harmless plastics, and PET is just satisfying this need. Various food pharmaceutical packaging has widely used PET plastics. 

The initial PET plastic bottle is only used in cola, Schibi and other carbonated beverage bottles, and now in the packaging bottle of beer, cosmetics, edible oil, drugs, etc. Further, the polyester is a plastic insulating material. If there is a polyvinyl chloride material, there will be many yellow spots on the plastic surface. First of all, smell the taste of PET plastic, after igniting PET plastic with a lighter, smelling the fragrance, there is no pungent taste, there is other materials in PET plastics, there will be pungent taste. For example, gears, motor frames, pump hoses, watches, etc., Pet plastics. Not only that, good optical performance and weather resistance are also two symbolic features of PET.There are many plastic products in our lives, which may be PET plastics. bake. Packaging bottle. . Equipment. PET plastics are plastics with highly stacked molecular structures, with good crystalline directionality

Do you know the category and application of PETG sheet?

PETG is a good plastic product with a wide range of applications. This kind of sheet can be selected according to the specific needs of consumers, and then manufactured. At the same time, there are many options for its processing and molding methods, and the production cycle is not long. Next, let's take a look at the types and applications of PETG sheets.

1. Board and sheet

Using conventional molding methods, 1~25.4mm thick transparent materials can be prepared, with outstanding toughness and high impact strength. Its impact strength is 3~10 times that of modified polyacrylates, excellent molding properties, and cold bending. No whitening, no cracks, easy to print and decorate, widely used in indoor and outdoor signs, storage racks, vending machine panels, furniture, construction and mechanical baffles, etc.

2. Profiles

Formable pipes or various profiles, its products are hard, transparent, good gloss, not white under pressure, easy to shape and post-processing, meet environmental protection requirements, and meet the US FDA food contact standards, and are widely used in building decoration and materials.

3. For membrane

Specially used in high-performance shrink film, with a final shrinkage rate of 70%, can be made into a complex shape container packaging, with high plasticity, high transparency, high gloss, low haze, easy to print, not easy to fall off, storage It has the advantage of low natural shrinkage rate, which is used in beverage bottles, food and chemical products; shrink packaging of Lingpin and shrink labels of electronic products. Which biaxially stretched. PETG film is suitable for high-end packaging, printing, electronic appliances, cable wrapping, insulating materials and high-quality substrates in various industrial fields. Uniaxially stretched PET and heat shrinkable films are suitable for all kinds of canned, polyester bottles, various containers and other external labels. Compared with PVC shrink film, PETG shrink film also has the advantages of environmental protection.

PETG sheet can be widely used in the market of sheet and sheet, high-performance shrink film, bottle and profiled materials. At the same time, it has excellent secondary processing performance and can be modified by conventional machining. PETG is an amorphous copolyester. Its products are highly transparent and have excellent impact resistance. It is especially suitable for forming thick-walled transparent products. It has excellent processing and molding properties and can be designed in any shape according to the designer's intention. Traditional extrusion, injection molding, blow molding and blister molding methods can be widely used in the market of sheet materials, high-performance shrink films, bottles and profiled materials. At the same time, its secondary processing performance is excellent, and it can be used for conventional machines. Processing modification.

The PETG sheet material produced by Shanghai Shengsen Decorative Material Co.,Ltd. is made of 85% PET plus 15% PVC, and the colors include solid color, flash color, marble design, embossed design, flower design, etc. The surface is treated with high gloss, matt and scratch resistance. We use imported international advanced complete sets of production lines, new technologies, high-quality raw materials, and focus on decorative panels, marked with the "Zhuoshi" brand. Want to know more, welcome to consult.

BOPET Films Market to Grow at a CAGR of 4.8% by 2030

According to ChemAnalyst report, “BOPET Films Market Analysis: Plant Capacity, Production, Operating Efficiency, Demand & Supply, End Use, Distribution Channel, Region, Competition, Trade, Customer & Price Intelligence Market Analysis, 2015-2030”, The BOPET Films market has witnessed considerable growth as it reached 4.21 million tonnes in 2020 and is expected to achieve a healthy CAGR of 4.8% during the forecast period until 2030. The rapidly growing demand for BOPET Films due to its versatile properties by various end-use industries is expected to boost the BOPET Films market globally in the span of the next ten years. Increasing demand for BOPET Films by the flourishing packaging industry is the major factor driving the BOPET Films market across the globe. However, the high production cost of BOPET films can somehow hinder market growth in the future.

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BOPET stands for Biaxially Oriented Polyethylene Terephthalate, which is a Polyester film made from orientated Polyethylene Terephthalate (PET). These versatile engineered films are clear, flexible, and transparent in nature and inherent versatile properties such as high tensile strength, reflectivity, chemical, and dimensional stability, gas and aroma barrier properties, and electrical/thermal insulation.

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The BOPET films are widely used for various industrial and commercial applications including flexible packaging, insulating materials, covering over paper, consumer electronics, printing media, green energy, automotive parts, medical devices, and others. The biaxial orientation of the PET film makes it desirable for food packaging, electrical/thermal insulation, and printing sheets. BOPET films are extensively used in plastic bottles for soft drinks due to their excellent water and moisture barrier properties. Owing to their high mechanical strength, these films are often used in tape applications such as the carrier for magnetic tape or backing for pressure-sensitive adhesive tapes. Flexible packaging structures account for the largest end-use of BOPET films where its unique properties have enabled it to become the backbone that high-performance multi-layer plastic structures are built around. Due to growing urbanization and industrialization, the demand for plastic packaging, electronic products, and digital printing is rapidly increasing along with retail sales of food and grocery, which is likely to augment the BOPET market in the next few years.

The BOPET Films Market is segmented on the basis of type, end-use, sales channel, and region. Based on different types, the BOPET films are categorized into Thin films and Thick films. The thin films segment is anticipated to dominate the BOPET films market globally in the upcoming years owing to the rising demand for BOPET films in the food and beverage, and pharmaceuticals industry. On the basis of end-use industries, the BOPET market is segregated into packaging, pharmaceuticals, electrical and electronics, imaging, industrial, automotive, and others. Among these, the packaging industry holds the largest share in the BOPET films market and is expected to maintain its dominance until 2030 due to the increasing demand for flexible packaging especially from the personal care, food and beverages, and pharmaceutical sector across the globe.

The unprecedented fall of COVID-19 in 2020 caused a drastic decline in the BOPET Films market around the world. Many end-user industries including personal care, automotive, electrical and electronics, imaging, and others witnessed a huge negative impact due to the interruptions in the global supply chain. Several manufacturing units halted their operations temporarily during the first half of 2020 in order to contain the spread of the deadly coronavirus, which had affected the BOPET films market across the globe.  However, the demand for BOPET Films from the flexible packaging industry remained significant during the covid times.

Among different regions, the Asia Pacific region dominated the BOPET Films market globally in 2020 and is expected to maintain its dominance over the next ten years owing to the rising demand for flexible packaging, flat panel displays, printed circuit boards, etc. especially in emerging economies like China, India, Japan, and others. Rapid industrialization and urbanization in India and China have led to continuous changes in people’s lifestyles which has further propelled the demand for BOPET films in the Asia Pacific region. In North America, the demand for BOPET films is continuously growing in the food and beverages, and construction industry, which will then accelerate the BOPET films market in the forecast period.

BOPET Films Market Analysis: Plant Capacity, Production, Operating Efficiency, Demand & Supply, Application, End Use, Distribution Channel, Region, Competition, Trade, Customer & Price Intelligence Market Analysis, 2015-2030”, some of the major players operating in BOPET Films market include include Toray, SKC Films, DuPont, Mitsubishi, Jiangsu Shuangxing, Polyplex, Kolon, Jindal, JBF, SRF, Terphane, Uflex, PT Trias Sentosa, Polinas, Coveme, Jiangsu Xingye, Kanghui Petrochemical, Billion Indusrial Hildings, DDN, Fuweifilm, Qiangmeng Industry, Ningbo Jinyuan, Shaoxing Weiming, and others.

“Growing demand for BOPET Films from the blooming packaging industry is likely to boost the BOPET Films market across the globe in the next ten years. Increasing awareness regarding fitness trends, healthy foods, and natural ingredients is driving the food and beverages industry which is expected to propel the demand for BOPET films in the upcoming years. Emerging technological advancements like drone technology will further create new opportunities for growth for leading players in the BOPET films industry.” said Mr. Karan Chechi, Research Director with TechSci Research, a research-based management consulting firm promoting ChemAnalyst worldwide.

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https://www.chemanalyst.com/industry-report/polymer-market-306

BOPP and BOPET film Market Analysis: Plant capacity, Production, Operating Efficiency, Process, Technology, Demand & Supply, Application, Grade, Type, Sales Channel, Region, Competition, Trade, Customer, and Price Intelligence Market Analysis (2015-2030)

https://www.chemanalyst.com/industry-report/bopp-and-bopet-films-market-535

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ChemAnalyst also provides market analysis for more than 1000+ chemical commodities such as Production, Demand, Supply, Plant Operating Rate, Imports, Exports, Suppliers, Customers and much more. The company has created online interactive dashboard in which customers can access all this data instantly with a click of a button. The users will not only be able to analyse historical data for past years but will also get to analyse short term and long-term forecasts for coming years. With the access to local field teams, the company can provide high quality reliable market analysis data for more than 20 countries.

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BIO-BASED POLYETHYLENE TEREPHTHALATE MARKET ANALYSIS

Bio-based polyethylene terephthalate (PET) is produced from terephthalic acid (PTA) and monoethylene glycol (MEG). Bio-based PET is gaining popularity due to increasing environmental concerns. The wastes from these bio-based materials emit approximately 50% less carbon dioxide as compared to conventional plastics. Furthermore, bio-based polyethylene terephthalate is a widely used as a material in the packaging textile and automotive industry.

Market Dynamics

Fluctuating oil prices and awareness regarding the growing GHG emission are the major factors propelling the growth of the bio-based PET market. Further, bio-based PET is highly resistant to heat which in turn, is acting a major factor for high demand from the packaging industry. However, most of the bio-based PET produce currently, contains 30% monoethylene glycol which is made from sugar molasses with the rest made from petroleum- based purified terephthalic acid (PTA). The replacement of PTA with a bio-based content is expected to propel the growth of the bio based PET market significantly, as this will eliminate the dependency on oil-based products. Several leading players operating in the global bio-based PET market are focusing on the production of 100% bio based PET. For instance, in 2017, Nestle S.A. and Groupe Danone S.A. had started working with the Origin Materials based in West Sacramento, California for commercial- scale production of containers made of 100 percent bio-based PET.

Global Bio-based Polyethylene Terephthalate Market Share, by Region, 2016 (%)

Asia Pacific dominated the Bio Based PET market in 2016 and is expected to retain market dominance throughout the forecast period. Further, Asia Pacific is also expected to witness the fastest growth during the forecast period. This is attributed to the increasing concerns about GHG emissions. According to the Asian Development Bank (ADB), without any climate policy interventions, South Asia would become increasingly carbon intensive by 2030.  Furthermore, bio-based PET is a lightweight material and thereby, its transportation cost is low. These are some of the key factors largely supporting the growth of the Bio-Based PET market in Asia Pacific.

Key Features of the Study:

This report provides an in-depth analysis of the bio-based polyethylene terephthalate market and provides market size (US$ Million) and Cumulative Annual Growth Rate (CAGR) (%) for the forecast period (2017–2025)

It elucidates potential revenue opportunities across different segments and explains attractive investment proposition matrix for this market. It provides valuable insights about market drivers, restraints, opportunities, new product launches or approval, pipeline products, regional outlook, and competitive strategy adopted by the leading players

It profiles leading players in the global bio-based polyethylene terephthalate market based on the following parameters – company overview, financial performance, product portfolio, geographical presence, key developments, and future plans

Insights from this report would allow marketers and the management authorities of the companies to make informed decisions with respect to their future product launch, market expansion, and marketing tactics

The global bio-based polyethylene terephthalate market  report caters to various stakeholders in this industry, including investors, product developers, distributors, healthcare companies, research institutes, new entrants, and financial analysts

Stakeholders would greatly benefit in decision-making through the various strategy matrices used in analyzing the bio-based polyethylene terephthalate market.

Detailed Segmentation:

Global Bio-Based Polyethylene Terephthalate Market, By Application:

Global Bio-Based Polyethylene Terephthalate Market, By End-Use Industry:

Bottles

Bags

3D Printing

Foils and Fibers

Carpets

Others

Packaging

Automotive

Textile

Others

Food and Beverages Products

Pharmaceutical Products

Cosmetics Products

Sheets

Foams

Fabrics

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Company Profiles

Toray Industries Inc.

The Coca-Cola Company

Teijin Limited

Toyota Tsusho Corporation

Anellotech Inc.        

Gevo Inc.

Plastipak Holdings Inc.

Virent Inc.

Ford Motor Company

Company Overview

Product Portfolio

Financial Performance

Key Strategies

Recent Developments

Future Plans

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REFERENCE

Plastic Bottle Waste

This semester, I brought in ~200 bottle caps to be used as a plastic source for creative projects and for machines such as 3D printers. Having everyone in my family collect their bottle caps for such interesting projects and physically seeing how many plastic bottles they actually went through encouraged me to research more into plastic bottle usage and this is what I found:

Plastic bottles actually went from being a miracle container to a huge polluter within one generation. The first PET bottle was patented in 1973 by Nathanial Wyeth but the water bottle craze didn't fully get launched until water brands such as Evian and Perrier took the idea and ran with it. Pepsico and Coke soon followed in 1994 and 1999, respectively. By the early 2000s, the use of plastic bottles in the US came virtually ubiquitous, with consumers stuck on the idea that water had to be within reach everywhere. Between 1994 and 2017, water sales in the United States had grown by 284 percent, according to Beverage Marketing Corp. data published by the Wall Street Journal and today, plastic bottles and jars represent about 75 percent of all plastic containers, by weight, in the United States, according to the Plastics Industry Association.

However, the real essence of plastic bottle pollution is not the overuse of bottles but what happens to them at the end of their life. Regulators and brand owners aren't making the commitment to make their bottles contain at least 50% recycled material which is a huge problem. Efforts to curtail plastic bottle pollution fall into two categories: efforts to reduce the use of plastic bottles and efforts to find new ways to deal with bottles once they’re thrown away. However, many solutions being developed aren't enough to make a real difference and most of them—including biodegradables—still require that the most elemental and least functional part of the bottle’s lifespan be performed: Someone needs to pick them all up.

In 2016, fewer than half the bottles bought worldwide were collected and recycled. One solution to this is to make consumers pay more for plastic items. Mark Murray, executive director of Californians Against Waste, says recovery of plastic waste won’t improve much until it is given greater value, achieved through additional cost of the product. Bart Elmore, a professor at Ohio State University says beverage companies would be wise to take a lesson from their own history: put a price on a bottle and you’ll get it back.

Source: https://www.nationalgeographic.com/environment/2019/08/plastic-bottles/

Here are some quick facts about plastic waste:

1. Humans buy about 1,000,000 plastic bottles per minute in total. Only about 23% of plastic bottles are recycled within the U.S.

2. Americans purchase about 50 billion water bottles per year, averaging about 13 bottles per month for every person in the U.S.! That means by using a reusable water bottle, you could save an average of 156 plastic bottles annually.

3. In 2016, world plastics production totaled around 335 million metric tons. Roughly half of annual plastic production is destined for a single-use product.

4. Even when single-use plastics are sent to landfills (there are 3,091 active landfills in the U.S. alone), they aren’t harmless. Landfill liners can leak harmful pollutants into the watershed and plastics on the tops of landfills can be carried away by the wind. The best way to curb single-use plastic pollution is to reduce your personal plastic consumption!

5. Plastic bottles are commonly made from polyethylene terephthalate (PET), which take 400 years to naturally decompose (yet is highly recyclable)

6. It is estimated that by 2050 the ocean will contain more plastic by weight than fish

7. 24,000,000 liters of oil are needed to produce these billions of plastic bottles

8. Bottled water is the second most popular beverage in the United States

9. 90% of the cost of bottled water is the bottle itself

10. Bottling water and shipping transport is the least energy-efficient method of water supply in the history of mankind

Sources: https://www.earthday.org/2018/03/29/fact-sheet-single-use-plastics/

https://www.forbes.com/sites/trevornace/2017/07/26/million-plastic-bottles-minute-91-not-recycled/#494571d8292c

https://myequa.com/blogs/blog/89626311-facts-about-plastic-bottles

Here is a video I made based off this information:

https://www.powtoon.com/online-presentation/ggwGyYeyltB/?mode=movie#/

How does plastic bottle usage relate to climate change? 

Plastic bottle production generates heat-trapping gases at every stage of their life cycle. 

Plastic production is not just a pollution problem; it is a climate problem. Plastics are created from fossil fuels, mainly oil, and emit greenhouse gases from cradle to grave. Today, ~4-8% of annual oil consumption is associated with plastic manufacturing. However, if our dependence on plastic persists, plastics will account for 20% of oil consumption by 2050. 

Oil, gas, and coal are the building blocks of plastic production. Natural gas and oil are extracted from deep in the earth by harmful drilling and injection of sand, chemicals, or water to break up rock to release the fossil fuels. The oil and gas are then transported to facilities via pipelines, trucks or train, so just the extraction and transportation of these resources are incredibly carbon-intensive. Additionally, the land use changes caused by these activities contributes to emissions. Each fracking zone must be surrounded by acres of cleared land, meaning 1.686 billion metric tons of carbon dioxide has been released into the atmosphere as a result of clearing. 

Next, refining and manufacturing of plastic emits tons of greenhouse gas emissions. In 2015, emissions from the manufacturing of ethylene, the basic of polyethylene plastics, were 184.3- 213 million metric tons equivalent, as much as 45 million passenger vehicles emit during one year (!). Globally, this number is predicted to increase by 34% by 2050. 

Finally, the disposal of plastics created greenhouse gases. Plastics can be disposed of three ways: landfill, incineration, or recycling. Emissions from plastics incineration in 2015 were 5.9 million tons of carbon dioxide equivalent. Incineration also releases thousands of dangerous pollutants that can harm community health as well as creates ash that threatens ecosystem health. Landfilling has a lower climate impact than burning, although it comes with its own set of environmental injustices. Recycling is rarely profitable as recycled plastics are high cost with little commercial value. Besides that, it is largely inefficient as only 23% of recyclable plastic is actually recycled in the U.S. 

Zero waste and the conservation of resources through the plastic resources is the best solution to curb emissions from production. However, this will require a significant cultural shift and complete makeover for each step of the lifecycle. But in order to both reduced plastic pollution and slow down climate change, these changes are essential for the health and safety of our world. 

Source: https://www.yaleclimateconnections.org/2019/08/how-plastics-contribute-to-climate-change/

Creating a global hub for PET out of Oman

Octal has proved itself as a giant in the Omani market, redefining manufacturing and creating a name not only for itself, but positioning the Sultanate as a hub for the global PET industry

The role of investment, especially foreign direct investment (FDI), in driving economic growth cannot be understated in the global marketplace. The Omani government has affirmed the major economic role played by the FDI sector, stressing its continuing importance for the Sultanate’s economy moving forward. With Oman known for having a more favourable environment towards FDI, and having liberalised its regulatory framework accordingly, one success story demonstrating the ability of the country to facilitate FDI companies is Octal, the world leader in clear rigid integrated packaging solutions.

Under the premise ‘from Oman to the world’ and with an investment of $600mn more than a decade ago, Octal has proved itself as a giant in the Omani market, redefining manufacturing and creating a name not only for itself, but positioning the Sultanate as a hub for the global PET industry. In 2018, the company’s revenues reached $770mn, selling 98 per cent of its high-quality, environmentally friendly PET resin and sheet product overseas. With a total annual capacity of almost one million metric tonnes, Octal is the largest global manufacturer of PET Sheet and Resin on a single site, and the only company in the world with a fully integrated food packaging system from raw material to finished product.

Octal currently has a number of important new packaging solutions under development in its state-of-the-art research facility in Salalah. Amongst its industry firsts were the introduction of modified PET to replace high impact packaging and also a ‘form-fill-seal’ easy to recycle application using DPET™. Octal is also aiming to integrate its US and Saudi Arabia facilities to produce packaging material in addition to their previous functions. With this, these facilities will be able to produce everything required throughout the manufacturing phase from raw materials to the final product at a significantly lower cost. This will provide Octal with greater market reach and will take its capacity to new heights.

Octal is not only a success story for attracting FDI to Oman, but is also providing investment for research and development (R&D) which will support the Sultanate to accelerate its transformation from a hydrocarbons-based economy to a diversified one. The successful model and growth of Octal over the years serves as a reference point showing that value chains can be created, nurtured feeding into the growth of the manufacturing industry in Oman and from Oman to the world. With a robust R&D culture, Octal is actively developing and trailing next generation PET and DPET in the packaging industry, while also diversifying its product portfolio beyond clear sheet and standard resin. The company continues to push boundaries in R&D to deliver the highly established quality attributes in the market, while meeting the future environmental demands for circularity and re-consumption of post-consumer waste.

“Oman should focus on attracting high-quality FDI to choose investors to benefit the economy and deeply integrate into the local as well as the global value chain,” said CEO, Nicholas Barakat. “From inception, Octal has maintained an unwavering focus on investment in capacity, proprietary technology and innovation. This has enabled us not only to accomplish sales growth year-after-year but also to become the recognized world leader in PET sheet and the industry reference point for superior product performance and environmental standards.”

Barakat added, “Oman’s non-oil sectors are expected to continue growing moving forward, gaining momentum in their ability to compete on a global scale. We are seeing a number of key initiatives being implemented like greater access to finance, the continued support and eventual completion of major infrastructural projects, as well as the rise of new logistical hubs and free zones that should have a significant and positive impact on businesses’ growth and attracting FDI.”

In order to support its growth capital needs and improve operational cash flow as its revenues continue to grow, Octal has recently secured $625mn of banking facilities. In a strong vote of confidence in its future, the facility was oversubscribed by almost 250 per cent and will continue to set Octal for stronger and rapid growth. The company’s strategy as the leading manufacturer of PET materials is to further expand its patented PET Sheet business specifically in recycling technology, process technology, specialised industry segments such as poultry, dairy and food service packaging, with further geographical expansion into Latin America and Asia. Following the secured facility, the company was recently recognised at the annual Alam Al-Iktisaad Wal A’mal Business Awards in Muscat with the ‘financing deal of the year award’.

The global PET packaging market was valued at $56.64bn in 2018 and is expected to grow to $68.71bnby 2023. The growth is primarily because of the rising demand for bottled water and other beverages. The growth is also attributed to the rising need for easy-to-use packaging in the retail sector. This growth coupled with rising popularity of lightweight packaging globally, means Octal is creating global hub for superior PET production right out of the Sultanate into international markets spanning from North America to Latin America and Europe. In 2018, the company recorded revenues of $834mn, thanks in part to robust efficiency drives, increasing year-on-year productivity and targeting $1bn in revenues in 2020.

With a conducive business environment, a strategic location coupled with state-of-the art infrastructure, an open current and capital accounts, and a fixed exchange rate makes Oman an attractive destination for FDI. Furthermore, the new foreign investment law under active consideration is expected to further infuse confidence in foreign investors for bringing their investment into the Sultanate. With a global network that has allowed it to access over 140 markets with ease, Octal is well on its way towards cementing its role as a trusted partner of choice, industrial provider, and responsible manufacturer. We can’t wait to see that Octal ‘phenomenon’ repeat itself.

The post Creating a global hub for PET out of Oman appeared first on Businessliveme.com.

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AI Helping Recyling Industry Improve Accuracy, Speed Sorting Rate

TOMRA got its start in 1972 as a provider of reverse vending, aka bottle collection, machines.

By AI Trends Staff

AI is helping the recyling industry improve the accuracy of identifying specific types of plastics and other materials, including items contaminated with food and other substances, as well as speed up the sorting rate.

Smart robots, sensors and vision systems fortified with machine learning software are creeping into production at recycling facilities in Colorado, Japan and Europe.

Here are two companies talking up the potential to make the act of processing everything from plastic to demolished construction materials far more efficient and scalable, according to an account in GreenBiz: five-year-old startup AMP Robotics, a machine learning and computer vision specialist headquartered in Louisville, Colorado; and a Norwegian company, TOMRA, which got its start managing reverse vending machines that uses sensors to endow its food sorting and recycling systems with more intelligence.

A New Vision for Sorting

As its name suggests, AMP Robotics’ innovations lie in how it’s rethinking recycling robots. Founder and CEO Matanya Horowitz began receiving grants back in 2014 to research and develop vision systems that could improve the accuracy of separating items with machines rather than by humans. The company’s equipment is “trained” by being shown millions of images — everything from logos to box shapes to dyed plastics.

“If you can teach a person to distinguish something, you can teach our vision system to distinguish it,” said Horowitz to GreenBiz.

The idea, he said, is to help facilities become far more specific about separating streams of waste, which could allow operations to capture revenue from entirely new sorts of services.

For example, the technology — using a combination of light and machine learning software — could be used to sort out colored whipped cream tubs or yogurt containers from clear plastics. It can even identify items that carry a specific brand logo. One early adopter, Alpine Recyling in Colorado, recently was able to add coffee cups to the mix of stuff that its facility can handle. These levels of specificity could be valuable for consumer products companies seeking either to put their own product packaging back into circulation or to buy specific types of plastics.

“We can track what is truly being recycled,” Horowitz added, and that could help provide insight into where better collection systems — and messaging — might be needed.

AMP’s latest technology is a dual-robot system called Cortex, which the 35-person company will sell for municipal solid waste, electronic waste and construction and demolition applications. The equipment can sort, pick and place items at a speed of 160 pieces per minute. More important, it will allow facilities to tackle a process that typically has been very difficult to scale — separating post-consumer fiber from cardboard to sheets of paper.

Horowitz is cagey about how much money his company has raised, although its backers include Closed Loop Partners, and he called out the Alphabet company Sidewalk Labs during our conversation. Likewise, he won’t talk about the cost of his firm’s technology, pointing out that customers are seeing a payback of less than two years and that it sorts at the rate of two people.

That latter statistic might give pause to those concerned about the job-elimination potential of robotics technology, but Horowitz says recycling facilities often have high rates of turnover. “Many facilities are run underutilized,” he said.

AMP Robotics is also touting applications in the construction sector. Earlier this year, it disclosed a partnership with Japanese waste management company Ryohshin to sell AI-driven robots for recovering materials out of demolition debris — including wood, metal, electronics and concrete.

TOMRA Seeks Help from AI to “Create Value Out of Waste”

TOMRA, which recently joined the Alliance to End Plastic Waste, is credited as the inventor of near-infrared sensors for sorting applications. It holds close to 80 patents, and has extensive experience with sensors that can provide information about moisture or chlorine levels as items are being washed and sorted. The company’s technology is installed in roughly 100,000 locations worldwide; aside from recycling and collection, the company sells to food operations that need to sort things such as fresh produce.

“We urgently need to transform the recycling industry by creating value out of waste,” said Stefan Ranstrand, TOMRA president and CEO, in a statement. “In some markets, recycling rates are as high as 98 percent, and some consumer goods companies are now making new products out of 100 percent recycled materials. But this is only a very small part of the picture, and much more must be done to preserve our world for generations to come.”

Two of TOMRA’s most recent innovations include a material recognition sensor that can sort single-layer polyethylene terephthalate (PET) trays (think cafeteria trays) and a new laser feature. The latter development helps TOMRA’s systems detect black objects that are typically hard to ID, as well as those with certain shapes, such as silicon cartridges. Over time, the AI associated with these systems will be able to detect the presence of films within rigid plastics, according to the company’s website.

“If you really need to sort out materials to the highest quality possible, you need to be able to do this,” said Volker Rehrmann, executive vice president of TOMRA and head of the 4,000-person company’s newly formed circular economy team.

AI has been part of TOMRA’s technology for some time — some level of algorithmic detection was introduced as part of its original bottle collection machines. The company collects 40 billion used beverage containers annually through those reverse vending machines. So it has plenty of legacy experience, which will be vitally important for finding value in the wide range of plastics that now exist in the world.  

“Without going into the details, it now needs to be much more accurate than it used to be,” Rehrmann said.

That’s because even though recycling is big business — an estimated $110 billion in America alone last year — he estimates that only 2 percent of those materials are valued as a resource, not waste, within a closed loop economy. That’s a problem that the Alliance to End Plastic Waste is determined to address. “They have realized that change is necessary,” Rehrmann said.

History of AI in Reycling Sorting

AI’s use in sorting started with systems in the 1970s to 1980s, according to an account in recyclingtoday. These systems were based on optical sensors and electronics that compared gray values or colors. Based on the ratio between these colors, the electronic circuit would make a rules-based decision whether to keep or eject the material. For instance, the first reverse vending machine (RVM) recognized the shape of a bottle based on the shadow it generated, which was detected by prepositioned optical sensors.

In the early 1990s, pixel-based classification of gray-scale and color camera images was used in combination with custom-made electronics, which limited the capabilities of the AI in terms of thresholds and decisions. With the emergence of personal computers (PCs), it became possible to use this technology for the classification of images.

Customized camera technology was used to acquire specific spectral properties and better clustering possibilities, leading to improved AI accuracy. This made it possible to assign each pixel with a specific class of material based on its spectral content. Color was no longer the only identifying criteria.

This technology was then combined with object recognition in the late 1990s, which made it possible to cluster different pixels of similar properties and combine them into an object.

By the 2000s, hyperspectral imaging systems became available, and the power of PCs further increased. Artificial neural networks (ANN) started to become available for classification problems in data processing. Based on previously trained samples for the specific application and machine, this class of AI could now combine different features and properties to make one classification. As a result, more complex materials could be detected and another level of sorting accuracy was achieved.

Later in the 2000s, so-called support vector machines (SVMs) became available. Although it sounds like a physical machine, these are mathematical models that allow a machine to define clusters in multidimensional space. Storing the results in tables on the physical sorter improved the performance again.

Common to all previously mentioned forms of AI used for sorting is the fact that the so-called training or learning aspects of AI must be supervised. In the very simple example of the RVM from the 1970s, the engineer had to physically place the optical sensor in the correct location, and a set of labeled samples needed to be available for teaching the system before putting the sorter into operation.

How AI Is Employed in Recyling Today

Today, the initial teaching of the system requires a computer vision engineer to define the relevant features for the sorting task. This generates feature vectors from the image data, which are then used in conjunction with the labels for automatically training the ANN or SVM. Because the training is done automatically without interaction by the engineer, this approach is called unsupervised learning.

The next step in the evolution of AI in sorting is deploying deep learning methodologies that became available in the 2010s and are now used in a range of applications. These types of networks were invented decades ago. Because of a massive increase in processing power in modern graphics processing units and millions of generally available and labeled images, it is now possible to apply them to practical problems.

So-called deep convolutional neural networks are still an ANN; but, compared with the early derivations, they have a much larger number of layers and neurons. Consequently, the networks are more powerful. However, they also require a lot more training data than traditional approaches.

The major advantage of convolutional neural networks is that the feature extraction step also is performed automatically during the training of the network. As a result, a computer vision engineer is no longer required to manually define the features relevant for the task. Typically, the first layers of the network generate features, which are integrated into more complex features in the following layers and then classified in the last layers.

These networks can be combined almost like building blocks, with each one being pretrained for a certain task. By doing this, the design can be adapted to the application at hand. Deep learning technologies have a major impact in image recognition in particular.

Where AI Is Taking the Recyling Industry

The current phase of AI development—especially the deep learning aspects—will enable the recycling industry to tackle currently unresolved challenges.

Today, a handpicking station at the end of a line is still needed to improve the quality of the final product to the desired level. An example could be seen with silicon cartridges, which are not desirable in a polyethylene stream. To pick them up with a robot, or to eject them through a last optical sorter, they would need to be detected first.

For this capability, AI and deep learning will play an important role in improving efficiency. Combining these new forms of AI with the potential of big data (e.g., with the data we already can collect from the machines today) will open even more opportunities to increase production, reduce cost and improve quality.

There’s this idea that today’s AI is like finding a free lunch and an ugly duckling. Both ideas are actual mathematical theorems that relate to the topic of artificial intelligence.

The first theorem basically states that no single AI solution is superior to all the others for a specific application. Each solution can have certain benefits that come at the cost of some disadvantages elsewhere—hence, there is no such thing as a “free lunch.”

The ugly duckling theorem is similar, stating that no optimal feature set exists for all applications. Even if we could find generic AI that solves many different challenges, it would not fit at least one application or problem and would not provide a suitable solution—making it the “ugly duckling.”

With this in mind, we should stay modest in our expectations regarding what is possible with convolutional neural networks and deep learning. Plenty of examples are available where deep learning is solving difficult, loosely structured recognition problems, but with other sorting tasks other AI approaches will have better performance. Finding the right combination of different types of AI was key in the past and will remain a key to ensuring the best sorting performance for recyclables in the future.

Artificial intelligence has been deployed in the recycling industry for quite some time. Yet, the possibilities that deep learning can offer when the fields of machine vision and machine learning are brought under one umbrella are new and exciting for the industry.

(Ed. Note: The authors  of the recylingtoday piece are vice presidents with research responsibilities for Germany-based TOMRA Sorting GmbH, www.tomra.com/en/sorting/recycling, part of Norway-based TOMRA Systems ASA.)

Read the source posts in GreenBiz and in recyclingtoday.

Source link

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F-style Bottles Market: Dynamics, Segments and Supply Demand with Forecast

F-style bottles primarily include jerry cans which are used for storage, transport or packaging of liquid products. Majority of the F-style bottles are made up of HDPE (High Density Polyethylene) which is a highly preferred chemical resistant material. This has led to a high adoption rate of F-style bottles by the chemical industry. The small mouth and large liquid holding capacity facilitates easy transfer of the product from the F-style bottles. Also, a handle provided in the design of the F-style bottles adds ease in handling the heavy weight of the liquid. These features of the F-style bottles have gained consumer preference over other packaging solutions.

The Shell Company of Thailand Limited has predicted that the lubricant business of the company will expand by 5-10% over the next five years, and consequently the demand for F-style bottles is likely to rise. The global chemical industry is anticipated to register annual average growth rate of around 4% for the next five years. Above 4 trillion USD valued chemical industry have created a large opportunity for the global F-style bottles market.

Global F-style Bottles Market Dynamics

The F-style bottles market is performing at a significant pace in the chemical industry, while the food and beverage industry is rapidly adopting the F-style bottles for the packaging of processed food products. Leakage proof, odor less and moisture resistant properties of the F-style bottles have won the preference over other consumer packaging solutions.

Increasing intolerance towards the conventional plastic materials is expected to have no considerable impact on the plastic F-style bottles market for at least next five years, on the backdrop of reusability of the F-style bottles and recyclability of HDPE and PP. The fluorinated HDPE F-style bottles are gaining strong traction among consumers owing to its enhanced barrier properties. In 2014, with the launch of DoubleGreen COEX stackable F-style bottles by Grief Inc., the multilayer F-style bottles were introduced in the global F-style bottles market. The manufacturing of DoubleGreen COEX F-style bottles emit approximately 220 tons annually less CO2 and also save around 112 tons of paper.

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Global F-style Bottles Market Segmentation

The global F-style bottles market can be segmented on the basis of material

Plastic

Metal

HDPE

Polypropylene (PP)

Polyethylene Terephthalate (PET)

Poly Vinyl Chloride (PVC)

The global F-style bottles market can be segmented on the basis of capacity

Below 10 Liters

10 to 25 Liters

26 to 50 Liters

Above 50 Liters

The global F-style bottles market can be segmented on the basis of end-user industry

Food

Beverages

Agrochemicals

Industrial Chemicals

Petroleum & Lubricants

Retail

Others

The global F-style bottles market can be segmented on the basis of manufacturing process

Blow molding

Injection Molding

Compression Molding

Metal sheet working

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Global F-style Bottles Market Regional Outlook

China was the leading chemical industry in the world with around one third of the global industry revenue share in 2017. Europe has lost significant chemical industry revenue share over the last decade to China industry. This transition have taken place on behalf of the rapidly developing manufacturing industry in Asian countries, specifically India and China. Also, this transition had a positive impact on the Asia Pacific F-style bottles market. The food and beverage industry of Western Europe and North America are dominantly adopting the F-style bottles, specifically for the packaging of dairy products and juices. The manufacturing industry of Eastern Europe, specifically Poland is expanding at a significant pace, representing a considerable opportunity for the F-style bottles market.

Global F-style Bottles Market Key Players

Some of the key players in the global F-style bottles market are

Time Technoplast Ltd.

Greif, Inc.

Scepter Canada Inc.

SCHÜTZ GmbH & Co. KGaA.

Plastic Container Packaging Corporation

Mauser Group B.V.

Parekhplast India Limited

Barrier Plastics Inc.

Yates Steels Pvt. Ltd.

Singa Plastics limited

WERIT Kunststoffwerke W. Schneider GmbH & Co.KG

Polyethylene Terephthalate Market - Insights, Size, Share, Opportunity Analysis, and Industry Forecast till 2025

Polyethylene terephthalate is the most common plastic resin of polyester made from the combination of two monomers. Polyethylene terephthalate, also referred to as PET or PETE, is a remarkable cost and energy efficient packaging material, which possesses properties of versatility, strength, and recyclability, thus being used in various end-use industries such as packaging and textile. The polyethylene terephthalate market is projected to boost an excellent sustainability during the forecast period (2017-2025). However, growing environmental pollution from the chemical and petrochemical industries is expected to be one of the key concerns for the PET market. Despite various environmental concerns of PET use, it is much favorable in comparison to steel, aluminum, glass and other materials used for packaging, due to its high weight bearing capacity and light weight, which in turn reduces the transportation cost by utilizing less space and weight.

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Technological advancement for developing lightweight, high strength and energy-efficient PET bottles is expected to boost the market growth. For instance, in 2014, SIDEL introduced a new ‘NEW RIGHTWEIGHT’, 0.5 liter bottle for still water, weighing 7.95 grams, yet offering a superior consumer experience and a top-load performance of 33 kilograms, without the need for nitrogen dosing, using standard 26/22 closures.

Polyethylene terephthalate can be recycled and reused for manufacturing door panels, rain coats, industrial sheets and carpets. The closed loop recycling of used polyethylene terephthalate bottles into new grade PET is expected to subsequently decrease the environmental pollution by a decreasing the demand for raw material, consequently increasing the profit margin of the PET bottle manufacturer.

PET is biologically inert material, which does not react with any food or beverages and offers high resistance to micro-organism. For instance, in December 1992, the U.S. Food and Drug Administration (FDA) announced the use of recycled PET bottles, as safe from any kind of microbial contamination and reaction with the packed food or beverages.

In 2016, the global polyethylene terephthalate market size was pegged at US$ 26.57 billion (revenue) and 27,749.22 kilo tons (volume), The market is expected to expand at a CAGR of 9.7% in terms of revenue and 7.6% in terms of volume during the forecast period.

Market Dynamics

Among product type, carbonated soft drink segment is expected to hold dominant position in the polyethylene terephthalate market over the forecast period, at a CAGR of over 10.1% in terms of revenue, and 8.1% in terms of volume. According to Coherent Market Insights’ analysis, it is estimated that the carbonated soft drink segment will reach over 7.70 billion by 2017. Since PET bottles or packaging materials are used as an alternative to silica glass and acrylic materials due to its superior resistance to micro-organisms, the demand for PET will increase, thereby driving growth of the global PET market.

Stringent government regulation is expected to be one of the key challenges for global PET market during 2017-2025. For instance,

On March 18, 2016, Government of India, Ministry of Forest and Environment (MoEF) introduced plastic waste management rule 2016.

Bureau of Indian Standards, IS 14534: 1998--- has issued standard guidelines on how to recover and recycle plastic waste and what kind of products could be manufactured from recycled plastics

Regional Insights

In 2016, Asia Pacific, followed by Europe and North America, respectively, accounted for a major share in terms of revenue and volume, in the global polyethylene terephthalate market, and the trend is expected to remain the same over the forecast period. In 2016, the share in terms of volume, held by Asia Pacific was 68.4% and by Europe was 12.5%. The growing demand for carbonated soft drinks in Asia Pacific due to growing demand for packaged and ready to eat food coupled with growing population, and infrastructure development of retail and hospitality sector is expected to drive growth of the global polyethylene terephthalate market over the forecast period. According to a study conducted by Coherent Market Insights, the other drink application segment market is expected to witness a CAGR of 8.8% from 2017 to 2025, in terms of revenue, which in turn is expected to fuel growth of the global polyethylene terephthalate market.

Multinational players need to tap potential addressable market in the emerging regions with the help of geographical expansion

Product portfolio expansion and geographical expansion are the key market trends, which are expected to shape the industry in the near future. Major players in the global Polyethylene Terephthalate market include Alpek S.A.B de C.V., RTP company, BASF SE, The Dow Chemicals Company, Jiangsu Sanfangxiang Group, Indorama Ventures, M&G Chemicals, Nan Ya Plastics Corporation, Far Eastern New Century, and Quadrant AG among others.

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About Coherent Market Insights:

Coherent Market Insights is a prominent market research and consulting firm offering action-ready syndicated research reports, custom market analysis, consulting services, and competitive analysis through various recommendations related to emerging market trends, technologies, and potential absolute dollar opportunity.

Contact Us:

Mr. Shah

Coherent Market Insights

1001 4th Ave,

#3200

Seattle, WA 98154

Tel: +1-206-701-6702

Email: [email protected]

Polyethylene Terephthalate Market - Insights, Size, Share, Opportunity Analysis, and Industry Forecast till 2025

Polyethylene terephthalate is the most common plastic resin of polyester made from the combination of two monomers. Polyethylene terephthalate, also referred to as PET or PETE, is a remarkable cost and energy efficient packaging material, which possesses properties of versatility, strength, and recyclability, thus being used in various end-use industries such as packaging and textile. The polyethylene terephthalate market is projected to boost an excellent sustainability during the forecast period (2017-2025). However, growing environmental pollution from the chemical and petrochemical industries is expected to be one of the key concerns for the PET market. Despite various environmental concerns of PET use, it is much favorable in comparison to steel, aluminum, glass and other materials used for packaging, due to its high weight bearing capacity and light weight, which in turn reduces the transportation cost by utilizing less space and weight.

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Technological advancement for developing lightweight, high strength and energy-efficient PET bottles is expected to boost the market growth. For instance, in 2014, SIDEL introduced a new ‘NEW RIGHTWEIGHT’, 0.5 liter bottle for still water, weighing 7.95 grams, yet offering a superior consumer experience and a top-load performance of 33 kilograms, without the need for nitrogen dosing, using standard 26/22 closures.

Polyethylene terephthalate can be recycled and reused for manufacturing door panels, rain coats, industrial sheets and carpets. The closed loop recycling of used polyethylene terephthalate bottles into new grade PET is expected to subsequently decrease the environmental pollution by a decreasing the demand for raw material, consequently increasing the profit margin of the PET bottle manufacturer.

PET is biologically inert material, which does not react with any food or beverages and offers high resistance to micro-organism. For instance, in December 1992, the U.S. Food and Drug Administration (FDA) announced the use of recycled PET bottles, as safe from any kind of microbial contamination and reaction with the packed food or beverages.

In 2016, the global polyethylene terephthalate market size was pegged at US$ 26.57 billion (revenue) and 27,749.22 kilo tons (volume), The market is expected to expand at a CAGR of 9.7% in terms of revenue and 7.6% in terms of volume during the forecast period.

Market Dynamics

Among product type, carbonated soft drink segment is expected to hold dominant position in the polyethylene terephthalate market over the forecast period, at a CAGR of over 10.1% in terms of revenue, and 8.1% in terms of volume. According to Coherent Market Insights’ analysis, it is estimated that the carbonated soft drink segment will reach over 7.70 billion by 2017. Since PET bottles or packaging materials are used as an alternative to silica glass and acrylic materials due to its superior resistance to micro-organisms, the demand for PET will increase, thereby driving growth of the global PET market.

Stringent government regulation is expected to be one of the key challenges for global PET market during 2017-2025. For instance,

On March 18, 2016, Government of India, Ministry of Forest and Environment (MoEF) introduced plastic waste management rule 2016.

Bureau of Indian Standards, IS 14534: 1998--- has issued standard guidelines on how to recover and recycle plastic waste and what kind of products could be manufactured from recycled plastics

Regional Insights

In 2016, Asia Pacific, followed by Europe and North America, respectively, accounted for a major share in terms of revenue and volume, in the global polyethylene terephthalate market, and the trend is expected to remain the same over the forecast period. In 2016, the share in terms of volume, held by Asia Pacific was 68.4% and by Europe was 12.5%. The growing demand for carbonated soft drinks in Asia Pacific due to growing demand for packaged and ready to eat food coupled with growing population, and infrastructure development of retail and hospitality sector is expected to drive growth of the global polyethylene terephthalate market over the forecast period. According to a study conducted by Coherent Market Insights, the other drink application segment market is expected to witness a CAGR of 8.8% from 2017 to 2025, in terms of revenue, which in turn is expected to fuel growth of the global polyethylene terephthalate market.

To Chekc The Trending Report Of Polyethylene Terephthalate Market @ https://www.coherentmarketinsights.com/market-insight/polyethylene-terephthalate-market-279

Multinational players need to tap potential addressable market in the emerging regions with the help of geographical expansion

Product portfolio expansion and geographical expansion are the key market trends, which are expected to shape the industry in the near future. Major players in the global Polyethylene Terephthalate market include Alpek S.A.B de C.V., RTP company, BASF SE, The Dow Chemicals Company, Jiangsu Sanfangxiang Group, Indorama Ventures, M&G Chemicals, Nan Ya Plastics Corporation, Far Eastern New Century, and Quadrant AG among others.

About Coherent Market Insights:

Coherent Market Insights is a prominent market research and consulting firm offering action-ready syndicated research reports, custom market analysis, consulting services, and competitive analysis through various recommendations related to emerging market trends, technologies, and potential absolute dollar opportunity.

Contact Us:

Mr. Shah

Coherent Market Insights

1001 4th Ave,

#3200

Seattle, WA 98154

Tel: +1-206-701-6702

Email: [email protected]