Pressure Sensitive Adhesives Market-Industry Forecast, 2024–2030.

Pressure Sensitive Adhesives Market Overview

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The increasing usage of resins such as silicone polymers, polyisobutene, and elastomers, generally synthetic rubber as the base polymer owing to its functionality and durability, in various end-use sectors will also substantially drive the demand for PSAs. Nitrocellulose adhesive, hydrogenated hydrocarbon resins, and ethylene-vinyl acetate are the thermoplastic resins generally employed in pressure-sensitive adhesives. Moreover, the increasing usage of bio-based pressure-sensitive adhesives and advancements in pressure-sensitive adhesive tapes is expected to offer enormous market expansion opportunities and boost the pressure-sensitive adhesives (PSA) industry in the projected time frame.

Impact of Covid-19

The COVID-19 pandemic and its disruption to several manufacturing activities declined the growth of the pressure sensitive adhesives market in the year 2020. Due to the supply chain disruption and insufficient labor, the manufacturing activities of the packaging, automotive, and electrical and electronic industries were set at a pause which affected the market growth. Furthermore, considering the new government norms and reopening of several industries, it is presumed that the market for pressure sensitive adhesives will return to normal conditions.

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Report Coverage

The: “Pressure Sensitive Adhesives Market Report — Forecast (2024–2030)”, by IndustryARC, covers an in-depth analysis of the following segments of the pressure sensitive adhesives Market.

By Formulation: Water-based, Solvent-based, Hot Melt, Others

By Resin Type: Elastomer (Natural and Synthetic), Acrylic, Silicone, Ethylene-Vinyl Acetate, Polyvinyl Ether, Polyisobutene, Polybutadiene, and Others

By Application: Tapes, Labels, Graphics, and Others

By End Use Industry: Construction, Automotive, Electronics, Medical and Healthcare, Paper, Furniture, Renewable Energy, Wood Working, and Others

By Geography: North America (USA, Canada, and Mexico), Europe (UK, Germany, Italy, France, Spain, Netherlands, Russia, Belgium, and Rest of Europe), Asia Pacific (China, Japan, India, South Korea, Australia and New Zealand, Taiwan, Indonesia, Malaysia, and Rest of Asia Pacific),South America (Brazil, Argentina, Colombia, Chile, and Rest of South America), and RoW (Middle East and Africa)

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Key Takeaways

Asia-pacific region dominated the pressure sensitive adhesives Market due to the rising government investments in the healthcare, electronics, and construction and infrastructure segments in countries such as China, India, South Korea, and Australia.

Current product innovations to improve modulus of elasticity and rigidity are expected to broaden the application range of pressure sensitive adhesives in structural applications and drive the growth of the market in the projected period.

Rising demand for silicone polymers based pressure sensitive adhesive (PSA) in the electronic and medical industry will further drive the growth of the pressure sensitive adhesives market.

Low adhesive strength provided by the pressure-sensitive adhesives (PSA) would further affect the growth of the market over the forecast period.

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Pressure Sensitive Adhesives Market Segment Analysis- By Resin Type

Acrylic resin held the largest share in the pressure sensitive adhesives market in 2020. Acrylic PSAs are widely employed in a variety of applications due to the saturated nature of the polymer and its subsequent oxidation resistance. Also, the acrylic PSAs have good physical properties in general for a wide range of long-term exterior applications. Owing to its attractive properties such as non-flammable, easy to handle, low level of contamination, little tendency to migrate, good resistance to sunlight, oxygen and heat, and offer adhesion, cohesion and tack, the demand for acrylic resins is anticipated to rise. With the increasing demand for acrylic resin, the market for pressure sensitive adhesives will also increase, which will further drive the market growth in the forecast period.

Pressure Sensitive Adhesives Market Segment Analysis- By Application

Tapes held the largest share in the pressure sensitive adhesives market in 2020. Rising demand for tapes owing to its low cost and ease of use when compared to traditional methods is estimated to uplift the growth of the market. Due to the advantageous properties of pressure sensitive adhesives tapes such as reduced assembly time, vibration dampening and noise reduction eliminates the need for surface refinishing, and others has raised the demand for these tapes in various end use industries. Moreover, pressure sensitive adhesive tapes do not require the use of a water, solvent, or heat to activate. The amount of pressure used to apply the adhesive to the surface has a direct impact on the bond. Rising demand for polypropylene tapes owing to its flexibility and strength, and good low temperature characteristics will further drive the market growth. Thus, rising demand and production for pressure sensitive adhesives tapes is estimated to drive the pressure sensitive adhesives market growth over the forecast period.

Pressure Sensitive Adhesives Market Segment Analysis- By End Use Industry

The packaging sector held the largest share in the pressure sensitive adhesives market in 2020 and is projected to grow at a CAGR of 6% during the forecast period 2021–2026. There are two types of packaging namely flexible and rigid, pressure sensitive adhesives (PSAs) are used in these packaging depending on the application’s suitability. These adhesives are used in the packaging of electronics and electrical devices, hygiene and medical packaging, drug delivery packaging, construction sector transit packaging, automotive-related logistics packaging, and consumer and industrial goods packaging, among others. Furthermore, the increasing use of packaging tapes such as polypropylene tapes in a variety of applications including packaging transport, cartons, goods, warehousing, and logistics is estimated to uplift the market growth. PSAs are used in packaging sectors to improve consumer appeal through graphics. Therefore, the pressure sensitive adhesives market is estimated to see an upsurge over the forecast period with the growing packaging industry.

Pressure Sensitive Adhesives Market Segment Analysis– By Geography

The Asia Pacific region held the largest share of more than 39% in the pressure sensitive adhesives market in 2020. Globally, the region’s growth in the market is mainly due to strong economic growth and heavy investments in the packaging, construction, automotive, and electronic industries. Also, the rising adoption of various resins such as polyisobutene, silicone polymers, and elastomers in emerging economies has uplifted the market growth. APAC is increasing in importance as a worldwide trade and business hub. The market for pressure sensitive adhesives is expected to rise as government investments in many medical and electronic projects increase in countries such as China, India, Japan, and South Korea. The Union Cabinet authorized the production-linked incentive (PLI) plan in ten critical industries (including electronics and white products) on November 11, 2020, in order to strengthen India’s manufacturing capabilities, increase exports, and promote the “Atmanirbhar Bharat” program as per the India Brand Equity Foundation. Thus, such initiatives taken by the government for new projects will raise the demand for pressure sensitive adhesives market in the forecast period.

Pressure Sensitive Adhesives Market Drivers

Increasing Demand for Bio-based Pressure Sensitive Adhesives

Plant-derived resources are used as a raw material in bio-based PSAs. The biomass content of a bio-based material used in an adhesive product is expressed as a percentage (dry weight basis). Also, the bio-based PSAs are considered “carbon neutral” because their plant-derived raw materials absorb the same amount of CO2 during production as they emit when incinerated at the end of product life. Additionally, there is no overall increase in greenhouse gases that can cause global warming, resulting in significantly lower CO2 emissions when compared to traditional, purely petroleum-based formulations. Furthermore, most of the raw materials used for conventional PSAs are derived from fossil fuels, which are limited in supply. Bio-based PSAs can help reduce the demand for petroleum sources by replacing them with renewable plant-based materials. Thus, due to the above mentioned factors the demand for bio-based PSAs is predicted to rise, which would further drive the growth of the pressure sensitive adhesives in the projected period.

Rising Demand from the Electronics Industry will Lead Towards the Growth of the Market

For shock absorption, thermal and electrical conductivity, electromagnetic shielding, and optical characteristics, among other factors, pressure-sensitive adhesives (PSA) are increasingly being utilized in the electronics industry. Because of its high transparency, weather resilience, heat resistance, and adhesion strength, acrylic and synthetic rubber PSA composed of hydrogenated hydrocarbon resin is widely used in the display, mobile phones, and automotive applications. PSA also provides higher processability than liquid-type adhesives since it can stick to three-dimensional substrates without the need for a hardening process. With the development of new innovative products the market for pressure sensitive adhesives is estimated to rise. For instance, in 2020 DELO has developed adhesives that has similar properties to (double-sided) adhesive tapes but is applied in liquid form and that can be extensively used in the electronic applications such as smartphone speakers or display frames. Growing demand of pressure sensitive adhesives in the electronics industry is therefore expected to drive market growth during the forecast era.

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Pressure Sensitive Adhesives Market Challenges

Low Adhesive Strength will Hamper the Market Growth

The main challenges faced by the pressure sensitive adhesives (PSAs) are that the adhesive strength (shear and peel) is low and that it is generally sensitive to high temperatures and solvents. As a result, most pressure sensitive adhesives are unsuitable for high strength or structural applications. They are frequently used with substrates that are relatively weak, such as paper or film. Pressure sensitive adhesives are also unsuitable for rough surfaces and are relatively costly in terms of cost per bond area. Thus, due to the above mentioned properties the market growth for pressure sensitive adhesives (PSAs) is estimated to face challenges in the upcoming years.

Pressure Sensitive Adhesives Market Landscape

Technology launches, acquisitions, and R&D activities are key strategies adopted by players in the pressure sensitive adhesives market. Major players in the pressure sensitive adhesives market are Henkel AG & Company KGAA, Arkema Group, The Dow Chemical Company, H.B. Fuller, Avery Dennison Corporation, Sika AG, 3M Company, Scapa Group, and Ashland Inc., among others.

Acquisitions/Technology Launches

In May 2021, with the planned acquisition of Edge Adhesives Texas, a complementary asset in pressure sensitive adhesives and hot-melt adhesive tapes for residential construction, Arkema Group increased its Bostik offering of high performance adhesives in the United States.

Key Market Players:

The Top 5 companies in the Pressure Sensitive Adhesives Market are:

Henkel AG & Co., KGaA.

Arkema Group

Dow Chemical Company

H.B. Fuller

Sika AG

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Petrochemicals Market Size To Reach $1002.45 Billion By 2030

The global petrochemicals market size is expected to reach USD 1002.45 billion by 2030, as per the new report by Grand View Research, Inc. It is expected to expand at a CAGR of 7.3% from 2024 to 2030. It is expected to expand at a CAGR of 7.0% from 2023 to 2030. The demand for petrochemicals is attributed to an increase in demand from the end-use industries such as construction, textile, medical, pharmaceuticals, consumer goods, automotive, and electronics.

Products such as ethylene, propylene, and benzene are widely used in various industries such as packaging, electronics, plastics, and rubber. The ethylene product segment dominated the market in 2021 and is expected to maintain its lead in the forecast period owing to its wide application scope across several industries. Asia Pacific is anticipated to dominate the market in the forecast period owing to the favorable regulatory policies in the region.

Crude oil and natural gas are the major raw materials used for the manufacturing of petrochemical products. The volatile prices of crude oil are a major challenge in the procurement process of crude oil as a raw material for manufacturers. The industry players that are reliant on crude oil as a feedstock for manufacturing are likely to face difficulties in the coming years. However, declining prices of natural gas owing to a rise in its production are expected to augment the growth of the product over the forecast period.

The competitiveness among the producers of the product is high as the market is characterized by the presence of a large number of global players with strong distribution networks. Top players are dominating the industry for the past few years owing to the increasing investment in R&D activities related to new product development.

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Petrochemicals Market Report Highlights

The methanol product segment is expected to expand at the highest revenue-based CAGR of 8.9% over the forecast period. The demand is attributed to the increase in demand for methanol in manufacturing biodiesel, which is biodegradable, safe, and produces fewer air pollutants as compared to other fuels

Surged use of polyethylene, High-density Polyethylene (HDPE), and Low-density Polyethylene (LDPE) is expected to foster the overall growth of the market for petrochemicals.

The butadiene product segment is expected to be an emerging segment in the coming years as it is a key building block used in the manufacturing of several chemicals and materials employed in the industries such as consumer durables, healthcare, and building and construction

Manufacturers have adopted joint ventures and acquisitions as major strategies to increase their global presence

Petrochemicals Market Segmentation

Grand View Research has segmented the global petrochemical market report on the basis of Product, and region

Petrochemicals Product Outlook (Volume, Million Tons; Revenue, USD Billion, 2018 - 2030)

Ethylene

Polyethylene

Ethylene oxide

EDC

Ethyl benzene

Others

Propylene

Polypropylene

Propylene oxide

Acrylonitrile

Cumene

Acrylic acid

Isopropanol

Other

Butadiene

SB Rubber

Butadiene rubber

ABS

SB latex

Others

Benzene

Ethyl benzene

Phenol/cumene

Cyclohexane

Nitrobenzene

Alkyl benzene

Other

Xylene

Toluene

Solvents

TDI

Others

Methanol

Formaldehyde

Gasoline

Acetic acid

MTBE

Dimethyl ether

MTO/MTP

Other

Petrochemicals Regional Outlook (Volume, Million Tons; Revenue, USD Billion, 2018 - 2030)

North America

U.S.

Canada

Europe

Germany

UK

France

Belgium

Netherlands

Asia Pacific

China

India

Japan

South Korea

Indonesia

Latin America

Brazil

Middle East

Africa

List of Key Players of Petrochemicals Market

BASF SE

Chevron Corporation

China National Petroleum Corporation (CNPC)

China Petrochemical Corporation

ExxonMobil Corporation

INEOS Group Ltd.

LyondellBasell Industries Holdings B.V.

Royal Dutch Shell PLC

SABIC

Dow

Ethylene Acrylic Elastomer (AEM) Prices | Pricing | Trend | News | Database | Chart | Forecast

Ethylene Acrylic Elastomer (AEM) Rubber prices is a key material in the industrial and automotive sectors due to its superior performance characteristics, such as high resistance to heat, oxidation, and chemicals. The prices of AEM rubber have been subject to fluctuations influenced by various factors including raw material costs, supply chain dynamics, and market demand. As an advanced synthetic rubber, AEM offers exceptional durability and is increasingly being utilized in applications where standard rubber types may fail to meet performance requirements. This has contributed to a growing interest in the material, thereby impacting its market price.

The price of AEM rubber is primarily driven by the cost of its raw materials, namely ethylene and acrylic acid. Fluctuations in the prices of these raw materials can significantly affect the overall cost of AEM rubber. For instance, changes in the availability of ethylene due to disruptions in the petrochemical industry or shifts in production capacities can lead to variations in AEM rubber prices. Additionally, the cost of acrylic acid, which is used to impart specific properties to the elastomer, can also contribute to price changes. Market trends in the petrochemical sector, therefore, play a crucial role in determining AEM rubber prices.

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Supply and demand dynamics also play a critical role in shaping AEM rubber prices. The increasing adoption of AEM rubber in high-performance applications, such as in automotive seals, gaskets, and hoses, has led to a rise in demand. This heightened demand, coupled with production constraints or delays, can drive up prices. Conversely, an oversupply of AEM rubber or a decrease in demand due to shifts in industry practices or economic downturns can result in lower prices. Manufacturers and suppliers must navigate these market forces to set competitive prices while maintaining profitability.

Global economic conditions have a significant impact on AEM rubber prices. Economic growth or recession can influence industrial activity and, consequently, the demand for AEM rubber. In times of economic expansion, increased industrial production and infrastructure development can drive up the demand for high-performance materials like AEM rubber, leading to higher prices. Conversely, economic slowdowns can reduce industrial activity and demand, causing prices to drop. Additionally, fluctuations in currency exchange rates can affect the cost of importing raw materials and exporting finished products, further influencing AEM rubber prices.

Technological advancements and innovations in production processes can also impact AEM rubber pricing. As manufacturers develop more efficient production techniques or alternative formulations, the cost of producing AEM rubber may decrease. These advancements can lead to more competitive pricing in the market. Conversely, the introduction of new, high-cost technologies or materials may increase production costs and, subsequently, the price of AEM rubber. Staying abreast of technological trends and adapting to new production methods is essential for companies to manage costs and pricing effectively.

Environmental regulations and sustainability considerations are increasingly influencing AEM rubber prices. The push for more sustainable and environmentally friendly production processes can lead to higher costs for compliance and implementation of green technologies. These additional costs may be passed on to consumers in the form of higher prices for AEM rubber products. On the other hand, companies that successfully integrate sustainable practices and achieve regulatory compliance may benefit from a competitive edge in the market, potentially influencing pricing strategies.

Market competition among AEM rubber producers can also affect pricing. A competitive market environment can lead to price wars, where manufacturers may lower prices to gain market share or respond to competitors' pricing strategies. This competition can drive innovation and efficiency but may also compress profit margins. Conversely, a less competitive market with fewer players may allow for more stable or higher prices. Companies must carefully balance competitive pricing with maintaining quality and profitability.

In summary, the pricing of Ethylene Acrylic Elastomer (AEM) rubber is influenced by a complex interplay of factors including raw material costs, supply and demand dynamics, global economic conditions, technological advancements, environmental regulations, and market competition. Each of these elements can contribute to fluctuations in AEM rubber prices, making it essential for industry stakeholders to stay informed and adapt to changing market conditions. As AEM rubber continues to play a vital role in various high-performance applications, understanding these factors is crucial for managing costs and making strategic decisions in the market.

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Pressure Sensitive Adhesives Market Overview

Pressure Sensitive Adhesives Market size is forecast to reach US$ 9.5 billion by 2026, after growing at a CAGR of 6.5% during 2021-2026. Globally, the rising demand for pressure-sensitive adhesives (PSA) owing to its thin, flexible material with single or double-sided coating in various end-use industries such as packaging, automotive, and electronics is estimated to drive the market growth. The increasing usage of resins such as silicone polymers, polyisobutene, and elastomers, generally synthetic rubber as the base polymer owing to its functionality and durability, in various end-use sectors will also substantially drive the demand for PSAs. Nitrocellulose adhesive, hydrogenated hydrocarbon resins, and ethylene-vinyl acetate are the thermoplastic resins generally employed in pressure-sensitive adhesives. Moreover, the increasing usage of bio-based pressure-sensitive adhesives and advancements in pressure-sensitive adhesive tapes is expected to offer enormous market expansion opportunities and boost the pressure-sensitive adhesives (PSA) industry in the projected time frame.

𝐃𝐨𝐰𝐧𝐥𝐨𝐚𝐝 𝐑𝐞𝐩𝐨𝐫𝐭 𝐒𝐚𝐦𝐩𝐥𝐞

Impact of Covid-19

The COVID-19 pandemic and its disruption to several manufacturing activities declined the growth of the pressure sensitive adhesives market in the year 2020. Due to the supply chain disruption and insufficient labor, the manufacturing activities of the packaging, automotive, and electrical and electronic industries were set at a pause which affected the market growth. Furthermore, considering the new government norms and reopening of several industries, it is presumed that the market for pressure sensitive adhesives will return to normal conditions.

Report Coverage

The: “Pressure Sensitive Adhesives Market Report – Forecast (2021-2026)”, by IndustryARC, covers an in-depth analysis of the following segments of the pressure sensitive adhesives Market.

By Formulation: Water-based, Solvent-based, Hot Melt, Others

By Resin Type: Elastomer (Natural and Synthetic), Acrylic, Silicone, Ethylene-Vinyl Acetate, Polyvinyl Ether, Polyisobutene, Polybutadiene, and Others

By Application: Tapes, Labels, Graphics, and Others

By End Use Industry: Construction, Automotive, Electronics, Medical and Healthcare, Paper, Furniture, Renewable Energy, Wood Working, and Others

By Geography: North America (USA, Canada, and Mexico), Europe (UK, Germany, Italy, France, Spain, Netherlands, Russia, Belgium, and Rest of Europe), Asia Pacific (China, Japan, India, South Korea, Australia and New Zealand, Taiwan, Indonesia, Malaysia, and Rest of Asia Pacific),South America (Brazil, Argentina, Colombia, Chile, and Rest of South America), and RoW (Middle East and Africa)

Key Takeaways

Asia-pacific region dominated the pressure sensitive adhesives Market due to the rising government investments in the healthcare, electronics, and construction and infrastructure segments in countries such as China, India, South Korea, and Australia. 

Current product innovations to improve modulus of elasticity and rigidity are expected to broaden the application range of pressure sensitive adhesives in structural applications and drive the growth of the market in the projected period.

Rising demand for silicone polymers based pressure sensitive adhesive (PSA) in the electronic and medical industry will further drive the growth of the pressure sensitive adhesives market.

Low adhesive strength provided by the pressure-sensitive adhesives (PSA) would further affect the growth of the market over the forecast period.

Ethylene Acrylic Elastomer (AEM) Market Report: Trends, Analysis, and Projections

Ethylene Acrylic Elastomer (AEM) is a versatile synthetic rubber known for its excellent heat resistance, oil resistance, and mechanical properties, making it a valuable material in various industries. This blog delves into the dynamics of the global AEM market, analyzing key drivers, applications across sectors, emerging trends, and future growth prospects.

Understanding the AEM Market:

Ethylene Acrylic Elastomer (AEM) Also known as Ethylene Acrylate Rubber (EAM), is a copolymer of ethylene and acrylic monomers, offering a unique balance of properties such as heat resistance, chemical resistance, flexibility, and durability. It finds applications in automotive, industrial, oil and gas, and consumer goods industries.

Market Dynamics:

Automotive Sealing Systems: AEM rubber is widely used in automotive sealing systems, gaskets, O-rings, and hoses due to its excellent heat resistance, oil resistance, and sealing performance in engine compartments and transmission systems.

Oil and Gas Industry: In the oil and gas sector, AEM compounds are employed in seals, gaskets, and components for equipment exposed to oil, fuels, and harsh operating conditions, maintaining performance and reliability over a wide temperature range.

Industrial Applications: AEM elastomers find applications in industrial machinery, pumps, seals for hydraulic systems, conveyor belts, and vibration damping components due to their resistance to chemicals, ozone, and weathering.

Consumer Goods and Electronics: AEM's properties make it suitable for consumer goods such as appliance seals, gaskets, and electrical insulation, providing reliability and longevity in demanding environments.

Applications Across Industries:

Automotive: Seals, gaskets, O-rings, hoses.

Oil and Gas: Seals, gaskets, components for harsh environments.

Industrial Machinery: Seals, belts, vibration damping components.

Consumer Goods: Appliance seals, gaskets, electrical insulation.

Market Trends:

Demand for High-Performance Elastomers: Increasing demand for elastomers with superior heat resistance, oil resistance, and durability drives adoption of AEM in automotive, oil and gas, and industrial applications, replacing traditional elastomers in demanding environments.

Customized Formulations: Manufacturers focus on developing customized AEM compounds with specific properties such as low-temperature flexibility, compression set resistance, and chemical compatibility to meet diverse application requirements across industries.

Sustainability Initiatives: Development of bio-based AEM formulations, recycling initiatives for elastomer waste, and green manufacturing practices align with sustainability goals and regulatory requirements, driving market innovation.

Future Prospects:

The global AEM market is poised for steady growth, propelled by increasing demand from key industries, technological advancements in polymer science, and sustainability initiatives. Investments in R&D, collaboration for material innovations, and expanding application areas will shape market evolution and competitiveness.

Conclusion:

Ethylene Acrylic Elastomer (AEM) stands out as a high-performance elastomer offering durability, heat resistance, and chemical compatibility crucial for demanding applications across industries. Understanding market trends, technological innovations, and customer needs is vital for stakeholders in the AEM market to capitalize on growth opportunities and address evolving industry requirements effectively. With a focus on performance, customization, and sustainability, the AEM market presents promising avenues for continued innovation and market expansion globally.

External joint sealing: Sealem Solution

External joint sealing typically refers to the process of sealing joints or gaps between different building elements, such as walls, windows, doors, or concrete panels, to prevent the ingress of water, air, dust, or noise. Proper external joint sealing is crucial for maintaining the structural integrity of buildings and ensuring their energy efficiency.

There are several methods and materials used for external joint sealing:

Methods:

Caulking/Sealant Application: One of the most common methods involves applying a flexible sealant or caulk into the joints. This material expands and contracts with the building, accommodating movements without breaking the seal.

Gaskets and Joint Tapes: Rubber gaskets or joint tapes can be placed in the joints before assembling the building elements. These materials provide a resilient seal and are often used in windows and doors.

Backer Rods: Backer rods are cylindrical foam rods placed in joints before applying sealant. They provide support to the sealant and help create a proper seal by ensuring the sealant adheres to the sides of the joint.

Compression Seals: These seals are designed to absorb movements by compressing or expanding when the joint expands or contracts. They are commonly used in bridges and highways.

Materials:

Silicone Sealants: Silicone sealants are durable, flexible, and weather-resistant. They are suitable for a wide range of applications and can adhere to various surfaces.

Polyurethane Sealants: Polyurethane sealants offer excellent adhesion and flexibility. They are often used in high movement joints and are resistant to weathering and aging.

Acrylic Sealants: Acrylic sealants are easy to use, paintable, and affordable. However, they are less flexible than silicone or polyurethane sealants and may not be suitable for high movement joints.

Butyl Tapes: Butyl tapes are commonly used for sealing joints in roofing and window applications. They are easy to apply and provide good adhesion.

EPDM Gaskets: Ethylene Propylene Diene Monomer (EPDM) gaskets are durable, weather-resistant, and widely used in sealing applications, especially in the automotive and construction industries.

Proper surface preparation, correct choice of sealant, and appropriate installation techniques are essential for effective external joint sealing. Regular inspections and maintenance are also crucial to ensure the seals remain intact and functional over time, especially considering the natural wear and tear caused by weather conditions and building movements.

Mouthguard Market Soars to $369.9 million by 2030, New Study Reveals Size and Share Projections

 “Mouthguard Market by Type, Material, and Sales Channel: Global Opportunity Analysis and Industry Forecast, 2021–2030,”

The global mouthguard market size was valued at $189.4 million in 2020, and is projected to reach $369.9 million by 2030, registering a CAGR of 6.6% from 2021 to 2030. In 2020, the boil and bite mouthguard segment accounted for the highest share in the market. These types of mouthguard are usually made from ethylene-vinyl acetate (EVA). This device is thermoplastic rim, which is heated in hot water and then placed in the mouth to be adapted to the teeth by biting down. However, it is often bulky, and does not retain its shape over time.

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Increased popularity of sports, namely, basketball, hockey, football, and boxing and the corresponding youth participation in such sports drives the market. Moreover, rise in consumer spending on mouthguard is observed in developed economies such as the U.S. As per the statistics, consumer spending on mouthguard has increased from $66 million to $84 million from 2010 to 2014 in the U.S., which has further supported the mouthguard market growth.

Rise in participation in sports activities, growth in consumer spending on mouthguard, increase in health consciousness among consumers, prominence of national & international sports events are the mouthguard market trends which is likely to foster the growth of mouthguard industry. However, availability of cheap and counterfeit products restrains the market growth. Increase in penetration of online retail is expected to offer lucrative mouthguard market demand over the forecast period.

According to the mouthguard market analysis, the market is segmented on the basis of type, material, sales channel, and region. By type, it is divided into stock mouthguard, boil and bite mouthguard, and custom-fitted mouthguard. On the basis of material, the market is split into vinyl resins, natural rubber, acrylic resins, and polyethylene-polyvinylacetate copolymer. Based on sales channel, the market is segmented into specialty retail stores, multi-retail stores, and online stores & others. The market is analyzed across North America, Europe, Asia-Pacific, and LAMEA.

Based on type, the boil and bite mouthguard segment held the major share in the market and is expected to remain dominant throughout the forecast period. These types of mouthguard are sold at sporting goods stores, inexpensive and offer a better fit than stock mouthguard.

Based on material, the polyethylene-polyvinylacetate copolymer material segment gain a major traction in the market. The material have an optimal consistency, energy absorption, and strength in order to cushion the traumatic impact.

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Based on sales channel, the specialty retail stores segment generated the highest revenue in 2020, since it is a traditional channel for the purchase of sports products, and is expected to grow at a CAGR of 6.3%. Online retail stores & others is expected to witness relatively higher growth owing to the extensive penetration of smartphones and tablets, and the increased convenience offered by this channel to choose from a variety of products.

North America accounted for over 38% of the mouthguard market share, and is anticipated to maintain its dominance throughout the forecast period. Mouthguard market analysis has been provided for all the four regions covered in the report. Countries analyzed under the North American geographical segment are the U.S., Canada, and Mexico. Under Europe, market size and forecast are provided for the UK, Germany, France, Italy, Spain, Russia and rest of Europe.

Prevalence of sports culture and high per capita income has led to higher adoption of sports protective equipment such as mouthguard in North America and Western Europe. Countries covered in Asia-Pacific include Japan, China, Australia, India, South Korea, Thailand, Srilanka, and rest of Asia-Pacific. Japan, China, and Australia are the leading markets for mouthguard in the region. LAMEA includes Brazil, Argentina, UAE, Nigeria, South Africa, Turkey, Saudi Arabia, and rest of LAMEA.

The key players profiled in this report include Battle Sports Science, Brain Pad, Inc, Decathlon S.A, MaxxMMA International CO., Limited, Mogo Sport, NIKE, INC, OPRO, Shock Doctor, Sisu Guard, and Venum Predator.

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Key Findings Of The Study

By type, the boil and bite mouthguard segment held the highest share, accounting for 45.5% of the global mouthguard market. Based on material, the polyethylene-polyvinylacetate copolymer segment held the major share of 60.8% of the market. Region wise, North America held the major share in the market, and is expected to remain dominant throughout the forecast period.

Acrylic Acid Market Analysis, Segments, Leading Player, Application & Forecast to 2032

According to a recent study by Future Market Insights, the acrylic acid market is expected to reach US$ 22.6 Billion by 2032, up from US$ 14.6 Billion in 2022, expanding at a CAGR of 4.5%.

The rise in demand for methacrylate-based polymers for the manufacturing of lighting fixtures, glazing, automotive rear lights, and electronic displays has witnessed significant growth, which in turn, represents prominent growth in the acrylic acid market over the analysis period.

Acrylic acid-based polymers have replaced conventionally used materials in major end-use industries, such as automotive, building and construction, electronics, and others. Acrylic acid-based elastomers such as AEM (Ethylene Acrylic Elastomers), are used as an alternative to synthetic rubber in various applications, such as automotive gaskets, hoses, and others.

In addition, owing to the improved properties of AEM, such as strength, and resistance, among others, there is an increasing demand for acrylic acid from the polymer industry during the forecast period. Additionally, the rise in demand for methacrylate-based polymers for the manufacturing of lighting fixtures, glazing, automotive rear lights, and electronic displays has witnessed significant growth, which in turn, represents prominent growth in the acrylic acid market.

Competitive Landscape

Players in the global acrylic acid market focus on expanding their global reach through various strategies, such as; partnerships, collaborations, and partnerships. The players are also making a significant investment in R&D to add innovations to their products which would help them in strengthening their position in the global market.

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Key Companies Profiled

BASF SE

Dow Chemical

Lucite International

LG Chem

Mitsubishi Chemical Corporation

Cargill, Incorporated

Nippon Shokubai Co., Ltd.

SNP Inc.

The Lubrizol Corporation

Formosa Plastic Corporation

Arkema S.A.

Ashland

Kemira Oyi

Key Segments Covered In The Acrylic Acid Market Study

Acrylic Acid Market by Product:

Acrylate Esters

Glacial Acrylic Acid

Other Acrylic Acid Products

Acrylic Acid Market by End-Use Industry:

Acrylic Acid for Surfactants

Acrylic Acid for Organic Chemicals

Acrylic Acid for Adhesives & Sealants

Acrylic Acid for Textiles

Acrylic Acid for Water Treatment

Acrylic Acid for Personal Care Products

Acrylic Acid for Other End-Use Industries

Know More about What the Acrylic Acid Market Report Covers

Future Market Insights offers an unbiased analysis of the global Acrylic Acid Market, providing historical data for 2015-2021 and forecast statistics from 2022-2032. To understand opportunities in the Acrylic Acid Market, the market is segmented on the basis of product, and end-use industry across five major regions.

The Ohio Train Crash and The Toxicity of Construction

by Eric V.

(Photo: CNN)

February 3rd was the start of a tragic event in Salem, Ohio. Its inhabitants were having a typical Friday night, when they heard the common noise of a train making its trip to who-knows-where. But what happened that night changed the lives of everyone living nearby.

Security footage caught the train passing right before the mass event, and the footage sheds light on evidence that the crash started with the wheels on the train sparking against the metal rails. These small sparks reacted to the chemicals the train was transporting, resulting in the train catching fire completely and releasing very toxic chemicals into the environment. 

The chemicals present on the train before the incident included vinyl chloride, 1.1 billion pounds of it, that was released not only into the environment and the atmosphere, but it was released into many residential areas. Scientists have proven that vinyl chloride is a very toxic chemical that can cause all sorts of issues. According to the Wisconsin Department of Health Services, “Exposure to vinyl chloride may increase a person's risk of developing cancer. Human and animal studies show higher rates of liver, lung and several other types of cancer. Being exposed to vinyl chloride can affect a person's liver, kidney, lung, spleen, nervous system and blood.” 

According to Green Matters, “PVC is the most environmentally damaging plastic. The PVC lifecycle -- its production, use, and disposal -- results in the release of toxic, chlorine-based chemicals. These toxins are building up in the water, air and food chain.” Vinyl chloride is found most commonly in PVC pipes, and was undoubtedly the reason why the train in Ohio was transporting such a dangerous chemical. But when the vinyl chloride was released into the atmosphere it was released into the environment. Salem, Ohio had to close access to water because it was contaminated by the chemical. Fish in local lakes were found dead, as a result of the exposure of vinyl chloride. The air was polluted, and many witnesses recall the sky being darkened in a black cloud for days. 

As dangerous as vinyl chloride is, it wasn’t the only chemical present. According to the Environmental Protection Agency, “About 20 rail cars were reported to have been carrying hazardous materials. Vinyl chloride, butyl acrylate, ethylhexyl acrylate and ethylene glycol monobutyl ethers were released into the air, surface soil and surface waters, it said.”  All of these chemicals have construction purposes, for adhesives, plastics, rubbers, etc. When handled carefully they are not much of a threat, but when released into the atmosphere as a gas cloud, all mixed together, it becomes a toxic cloud. 

This train crash incident has opened our eyes to the danger of these chemicals, which are purely used for construction purposes. The fact that these chemicals have the potential to pollute the air, water, and damage the health of people poses a concern for construction methods.

According to the Law Offices of Harold J. Gerr, “Construction is a highly dangerous industry. According to statistics from the Occupational Safety and Health Administration (OSHA), in 2019, one out of every five worker fatalities were in the construction industry. When it comes to work injuries and illnesses, construction is one of the top 10 most dangerous occupations. Working at heights, and around electrical installations, heavy machinery, and moving vehicles, are all part of a normal day on a construction site, but workers must also be aware of the dangers associated with exposure to toxic chemicals.” Everything is built through construction, and it poses a massive threat to not only construction workers, but the environment as well. The metals we use, the rubber, plastics, tools, and solubles are toxic, and get turned into the houses and buildings we live and work in, bridges we walk and drive on, the very existence of any man made structure has a toxic element involved. The house you live in and are breathing in at this second consists of toxic chemicals and materials. According to the University of Michigan, “University of Michigan researchers have identified 55 chemicals of concern found in the walls, floors, ceilings and furniture in homes across the United States, including some that have concentrations that are 1,000 times higher than recommended.” 

According to The Oshan Firm, “10% of all birth defects are the result of exposure to chemicals and industrial products.“ That small percentage has a lot of impact, and is proof that not only are we being affected, but so are our future generations, and the generations that haven’t even been born yet. 

There is always room for improvement, and there’s no time like the present. We can innovate a new way of construction, one that involves less toxins and chemicals, and one that provides a safer, brighter, greener future. It hasn’t been found yet, but it can and will, given the right people know about it and care enough to volunteer a few brain cells. We shouldn’t live in fear and wear gas masks our entire lives, but if we don’t act fast that might be the future we live in. 

Ethylene-acrylate Rubber Industry Size Share Growth Opportunities

According to this latest study, the growth in the Ethylene-acrylate Rubber market will change significantly from the previous year. Over the next six years, Ethylene-acrylate Rubber will register a CAGR in terms of revenue, and the global market size will reach USD in millions by 2028.

Global Ethylene-acrylate Rubber Market report thoroughly scrutinizes the effects of a wide range of factors impacting the market drivers, development and future prospects of industry Furthermore, it offers in-depth insights into the key producers, market outline, as well as conjecture and provincial investigation. This report also inspects the global Ethylene-acrylate Rubber market wholesalers, deals channels, difficulties, openings, drivers, future patterns, development rate, market share, rivalry scene, and status. Likewise, it studies market new product analysis, strategies, financial overview and trends. Ethylene-acrylate Rubber market report also offers a summary of revenue, sales, product demand, and provide of knowledge, cost, and growth analysis during the forecast year 2028.

The study incorporates both qualitative and quantitative data and draws on both primary and secondary statistical sources. Significant companies, important market categories, and a range of products are included in the global market report. In addition, the report covers the measurement years and the study points.

Key Players Mentioned in the Market Ethylene-acrylate Rubber Research Report:

Dow, Cooltec Elastomer, Vanderbilt Chemicals, Goodflex Rubber Company, Ashtabula Rubber Company, Eastern Seals (UK) Ltd

Get Sample Report of Ethylene-acrylate Rubber Market Report

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Introspective Market Research offers a comprehensive overview of the market through the analysis of key parameters such as revenue, price, competition, and promotions, as well as the study, synthesis, and summarization of data from different sources. It analyses the leading industry drivers and shows numerous market components. The information offered is thorough, dependable, and the result of a comprehensive primary and secondary study. Introspective Market Research reports offer a comprehensive global market as well as an in-depth strategic sourcing methodology and analysis based on qualitative and quantitative research to anticipate market growth.

Key Benefits of This Market Research:

Industry drivers,     restraints, and opportunities covered in the study

Neutral perspective on the     market performance

Recent industry trends and     developments

Competitive landscape and     strategies of key players

Potential and niche segments     and regions exhibiting promising growth covered

Historical, current, and     projected market size, in terms of value

Ethylene-acrylate Rubber Market Segmentation

Ethylene-acrylate Rubber  Market Segment by Types, Estimates, and Forecast by 2028

Molding, Extrusion, Calendaring, Rubber/Textile Adhesion, Rubber/Metal Bonding

Ethylene-acrylate Rubber  Market Segment by Applications, Estimates, and Forecast by 2028

Automotive, Chemical, Electronics 

Which regions are expected to dominate the Ethylene-acrylate Rubber Market?

North America includes the United States,     Canada, and Mexico

Europe includes Germany, France,     UK, Italy, Spain, Russia, and the Rest of Europe

South America includes Brazil, Argentina,     Nigeria, Chile, and South America

The Asia Pacific includes Japan, China, South     Korea, Australia, India, Rest of Europe

This study examines the global market for Ethylene-acrylate Rubber , with a focus on North America, Europe, and Asia-Pacific, as well as South America, the Middle East, and Africa. The market is segmented by manufacturers, regions, type, and application in this report.

For any Queries Related with the Report, Ask an Analyst:

https://www.introspectivemarketresearch.com/inquiry/8977

Study Objectives of this report are:

To understand the structure     of Ethylene-acrylate Rubber market by identifying its various subsegments.

To share detailed     information about the key factors influencing the growth of the market     (growth potential, opportunities, drivers, industry-specific challenges     and risks).

Focuses on the key global     Ethylene-acrylate Rubber manufacturers, to define, describe and analyze     the sales volume, value, market share, market competition landscape, SWOT     analysis and development plans in next few years.

To analyze the     Ethylene-acrylate Rubber with respect to individual growth trends, future     prospects, and their contribution to the total market.

To project the value and     volume of Ethylene-acrylate Rubber submarkets, with respect to key regions     (along with their respective key countries).

To analyze competitive     developments such as expansions, agreements, new product launches, and     acquisitions in the market.

To strategically profile the     key players and comprehensively analyze their growth strategies.

Flat Rubber Gaskets High Quality Rubber Gasket For Shower

Flat Rubber Gaskets High Quality Rubber Gasket For Shower Silicone, NBR, EPDM, VITON, FKM or as your request Hardness 20~90 Shores A Size Standard or customize Color As your requirement MOQ 1000 pieces Application Widely used in automobile, electrical appliance and other industry  Certifications ROHS, FDA, LFGB, RoHS, REACH OEM/ODM Welcome Packing PP bag inside, carton box outside Product capacity 100,000 Pieces/month Shipping term & Port FOB, Shenzhen Payment term T/T, PayPal , L/C, Western Union Delivery 15 days Material & Application Often underappreciated but vital to thousands of machines and household appliances, rubber gaskets help make our everyday life possible. They seal our refrigerator doors to keep food fresh; they keep ammunition protected from moisture; they help build bridges. What is a rubber gasket and how is it used in all of these applications? Well, it is a mechanical seal that is used primarily to prevent leaks of gas or liquid, but can be used as a barrier between two objects, such as two metals or chemicals. They are often utilized as protection from outside elements as well. In a camera lens, they combat moisture and dust to ensure that the lens stays focused and speck free. Used in almost every industry, this fabricated rubber product is versatile and necessary for thousands of applications. There are rarely two applications that use the same shape or size gasket. Gaskets are made specific to each use and this makes this industry very unique! Rubber Gasket are available in the following elastomers: Aflas® or Kalrez®(FFKM) Acrylate Rubber(ACM) Butyl Rubber(IIR) Ethylene-propylene (EPR, EPDM) Fluorocarbon (FKM/FPM/VITON) Fluorosilicone(FVMQ) Hydrogenated Nitrile (HNBR) Liquid Silicone Rubber(LSR) Neoprene Rubber(CR) Nitrile Rubber (Buna-N/NBR) Natural Rubber(NR) Polyurethane(PU) Silicone Rubber Styrene-butadiene Rubber (SBR) Properties of Rubber Gasket Material: ZICHEN Rubber fabricates superior custom rubber gaskets that can be die cut or CNC flash cut from a variety of rubber materials.     Rubber Gasket used in wide application of various fields, our rubber gaskets offer excellent resilience and sealing for applications involving low temperatures and pressures and mild chemical environments.   Our team of engineers can guide you through the process of selecting the ideal rubber material for your unique gasket applications:   l  Butyl – A copolymer of isoprene of isobutylene, butyl is a synthetic rubber with several distinctive benefits. Butyl is impermeable to moisture and various gases, making it an ideal choice for airtight applications. With a service temperature range of -40°F to 225°F, this material has exceptional resistance to chemicals, abrasion, and diverse weather conditions. Butyl can easily adhere to other rubber materials, and it has great electrical insulation properties. l  EPDM – Ethylene propylene diene monomer, commonly known as EPDM, is an elastomer known for its high durability and versatility. EPDM has excellent resistance to heat, ozone, oxygen and oxygenated solvents, chemicals, animal and vegetable oils, and harsh weather. Stable in low and high temperatures, this material has a service range of -40°F to 250°F and is intermittent to 275°F. Additionally, EPDM can resist polar and steam substances with great proficiency. l  Natural (Pure Gum) – Natural rubber is a polymer consisting of isoprene. This soft material has high elasticity, which provides superior physical properties such as resistance to abrasion and low temperatures. Ideal for applications requiring acids, organic salts, and other chemicals, natural rubber is non-toxic and has a temperature range of -20°F to 170°F. l  Neoprene – Neoprene is a synthetic rubber created by polymerizing chloroprene material. Also called polychloroprene, neoprene is a flame-retardant material that can also resist the effects of oils, chemicals, oxygen, and ozone. For applications requiring higher tensile strength and ease of movement, cloth inserted neoprene is available; each variation can operate within the same -20°F to 170°F temperature range. l  Nitrile (NBR, Buna-N) – Nitrile is a copolymer of butadiene and acrylonitrile. This synthetic rubber material is resistant to various solvents, hydraulic fluids, animal and vegetable oils, and aromatic fuels; nitrile can also diminish the effects of heat aging. Nitrile performs optimally in temperatures ranging from -25°F to 170°F, and it is available in premium, commercial, and FDA grades. l  SBR – Styrene-butadiene rubber (SBR) has similar properties to natural rubber, but is more resistant to abrasion, wear, and hot and cold water. SBR has excellent adhesion to metals, and is available in red rubber and cloth inserted varieties; the latter is more proficient at handling movement, high compression loads, and saturated and low pressure steam. Each SBR variation can operate within the same -20°F to 170°F temperature range. l  Silicone – An extremely soft and adaptable material, silicone is composed of polymerized siloxanes. Silicone boasts superior elastomeric properties at both high and low temperatures and is resistant to the effects of ozone, oxygen, aging, ultraviolet (UV) light, and extreme weather conditions. Available in FDA grade, this material was a wide temperature service range of -67°F to 400°F and is intermittent to 450°F. l  Vinyl – Polyvinyl chloride (PVC) is a synthetic plastic polymer commonly used in applications with water or oxidizing agents. PVC material offers excellent resistance to abrasion and weather, and is available in rigid or flexible forms to suit various application needs. This material is ideal for temperatures ranging from 20°F to 160°F. l  Viton® – Known for its outstanding resistance to chemical substances, Viton® is a fluorocarbon-based synthetic rubber. This material can perform optimally in the most extreme conditions—Viton® has a maximum operating temperature from 400°F (continuous) to 500°F (intermittent). Additionally, this material can repel oxygen, ozone, various fuels and oils, solvents, and hydraulic fluids.   Most rubber, whether natural and synthetic, is also available in sponge form (cellular rubber) in both open and closed cell grades. Zichen Rubber offers neoprene, nitrile, silicone and Viton in sponge form. Closed cell sponge is available for applications requiring high compressibility, while open cell is available for cushioning applications where sealing is not an issue.   Using material sourced from domestic rubber manufacturers, ZICHEN keeps a large quantity of rubber materials in stock and can provide custom designs and shapes in varying grades, thicknesses and hardness to meet your specific needs.

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USES OF POLYETHYLENE FILMS

Polyethylene (PE) films come to the rescue when shielding objects from specks of dust, spoilage, scratches, surfactants, humidity or any other undesirable adulteration. Along with a wide range of thickness and functionality, there are various monikers associated with PE films, namely Visqueen, poly-sheeting, polyethylene sheet and plastic film. The application of these films varies drastically; for instance in construction projects they act as vapour retarders, window films, flooring and countertop projections etc, while also being the primary material in the retail industry for packaging and manufacturing of products. Derived from petroleum and composed of hydrocarbons, let's take a look at the multiple types of Polyethylene films Megaplast offers, based on their specificity of need:

Stretch Films

Commonly designed to tightly bind around a product and keep it intact, the Megaplast stretch films with widths up to 5 metres protect packages from scratches, stains, and unwarranted contamination, especially when transiting from various locations. These films are made from linear low-density polyethylene (LLDPE) thus giving them their highly stretchable property. With 5 layers of high-quality polyethylene for more strength, these stretch films can stretch up to three times more than their original structure. The benefits of the stretch films include holding boxes together on a pallet for transportation to discourage load tampering and reduce worker injury.

Cling Films

Also known as plastic wrap or food wrap, the Megaplast cling films are befitting for storing and wrapping food items. With a thickness of approximately 0.0005 inches or less, this fine film “clings” to many smooth surfaces retaining its firmness without needing an adhesive to keep it attached to the opening of a container or a food item. The cling films are usually made of low-density polyethylene (LDPE) or linear low-density polyethylene (LLDPE) that can add tensile strength for additional durability. As an essential member of one’s kitchen, the cling film gives an air-tight covering around cooked/uncooked dishes to protect their original form and nourishment by averting contamination and spoilage.

Agriculture Films

The increased demand for effective crop productivity and protection of quality calls for the usage of Megaplast Agriculture films whose plasticulture range includes Mulch Films, Pond Liners and Silage Films. Mulch Films help prevent moisture loss and pests, improve crop yield and precocity as well as maintain the soil temperature. Pond Liners immensely contribute to the conservation of water and marine habitat by restricting risks like UV rays exposure due to their puncture-resistant and impermeable membrane. As for Silage Films, with widths up to 24 metres, they are designed for the optimal preservation and fermentation of silage, hay and maize in areas with a short growth period of herding grass. Other than PE, the Silage films are also composed of Ethylene-vinyl acetate (EVA) and Ethylene Butyl Acrylate (EBA).

Industrial Films

Goods during transit need to be protected with the utmost care, which Megaplast ensures is accomplished when secured with Industrial films. Industrial films come in various forms such as Polyester yarn packing which is a thermoplastic made from polymeric melt and can be found in multiple dyes. Similarly, Rubber packing/ rubber gaskets is also an excellent material for forming seals and closures. Industrial rubber films usually comprise Ethylene Propylene Diene Monomer (EPDM), Silicon and other materials depending on the specifics required for packing.

In conclusion, Polyethylene Films come in a gamut of forms for a diverse range of applications. We can help you get the appropriate PE films with respect to your needs.

Send us your requirements at [email protected] or contact us at +91 022 - 6106 6000.

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Ethylene Acrylic Elastomer (AEM) Prices Trend, Database, Chart, Index, Forecast

Ethylene Acrylic Elastomer (AEM) Prices is a synthetic rubber known for its excellent heat and oil resistance, making it a crucial material in various industrial applications. The prices of AEM are influenced by a multitude of factors, including raw material costs, production processes, demand and supply dynamics, and global economic conditions. Understanding these factors is essential for industries that rely on AEM for manufacturing durable goods, automotive parts, and other high-performance products.

Raw material costs play a significant role in determining AEM prices. Ethylene and acrylic acid, the primary components of AEM, are derived from petrochemicals. Fluctuations in the prices of crude oil and natural gas, which serve as feedstocks for petrochemical production, directly impact the cost of producing ethylene and acrylic acid. Consequently, any volatility in crude oil prices, whether due to geopolitical tensions, natural disasters, or changes in global supply and demand, can lead to corresponding changes in AEM prices. For instance, a sudden spike in oil prices typically results in higher production costs for ethylene and acrylic acid, thereby driving up AEM prices.

Another critical factor influencing AEM prices is the production process and technological advancements. The efficiency and scale of production facilities can affect the overall cost of AEM. Manufacturers who invest in state-of-the-art technology and streamlined processes are often able to produce AEM at a lower cost, which can translate to more competitive pricing. On the other hand, older, less efficient production facilities may have higher operational costs, leading to higher AEM prices. Additionally, innovations in the production process that enhance yield and reduce waste can also contribute to more stable and potentially lower prices for AEM.

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Demand and supply dynamics are central to the pricing of AEM. The automotive industry, for example, is a significant consumer of AEM due to its use in seals, hoses, and other components that require high durability and resistance to extreme conditions. Any fluctuations in automotive production, whether due to economic cycles, changes in consumer preferences, or supply chain disruptions, can impact the demand for AEM. A surge in automotive production typically increases demand for AEM, potentially driving up prices. Conversely, a slowdown in the automotive sector can reduce demand, putting downward pressure on prices. Similarly, the supply side is influenced by the capacity of existing production facilities, the entry of new manufacturers, and any disruptions in production due to technical issues or regulatory changes.

Global economic conditions also play a pivotal role in shaping AEM prices. Economic growth in major markets such as the United States, Europe, and Asia can drive demand for industrial products that incorporate AEM. Robust economic performance generally leads to higher industrial output and greater demand for materials like AEM. Conversely, economic downturns can reduce industrial activity and demand, leading to lower AEM prices. Additionally, trade policies, tariffs, and international agreements can influence AEM prices by affecting the cost and availability of raw materials and finished products in different regions.

Environmental regulations and sustainability trends are increasingly impacting the prices of synthetic rubbers, including AEM. As governments and industries worldwide prioritize reducing carbon footprints and minimizing environmental impact, there is a growing emphasis on sustainable production practices. Compliance with stringent environmental regulations can increase production costs for AEM, which may be passed on to consumers in the form of higher prices. Conversely, the development of greener production technologies and the use of renewable resources can potentially lower costs and stabilize prices over the long term.

Market competition is another significant factor affecting AEM prices. The presence of multiple manufacturers in the market can lead to competitive pricing, benefiting consumers. However, if the market is dominated by a few large players, they may exert significant influence over pricing. Strategic alliances, mergers, and acquisitions among manufacturers can also impact market competition and, subsequently, prices. For example, a merger between two major AEM producers could lead to economies of scale and potentially lower prices, but it could also reduce competition, giving the merged entity greater control over pricing.

In conclusion, the prices of Ethylene Acrylic Elastomer (AEM) are determined by a complex interplay of factors including raw material costs, production processes, demand and supply dynamics, global economic conditions, environmental regulations, and market competition. Staying informed about these factors is crucial for businesses that depend on AEM, enabling them to anticipate price changes and make strategic decisions to manage costs effectively. As the market evolves, continuous monitoring and analysis of these variables will remain essential for understanding and navigating the pricing landscape of AEM.

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Water Based Adhesive Market (CAGR of 5.75%) 2030: Water Based Adhesive Market Size, Share, Analysis and Forecast - ChemAnalyst

According to ChemAnalyst report, “Water Based Adhesive Market: Plant Capacity, Production, Operating Efficiency, Demand & Supply, Technology, End Use, Distribution Channel, Region, Competition, Trade, Market Analysis, 2015-2030”, water based adhesive market has shown promising growth in the past five years and is anticipated to achieve a CAGR of 5.75% during the forecast period. Rapid urbanization backed by the increasing demand of packaging industry is expected to drive the demand of water based adhesive for the forecast period. lesser volatile organic compounds (VOC) emissions associated with water based adhesive as compared to other solvent based adhesives is also an influencing factor supporting demand rise during the forecast period. The growing need for green solvents and more environment friendly adhesives is expected to hinder the demand growth during the forecast period.

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Water based adhesives are chemical composite materials which contain mixture of polymer, water, and additives. They are used for binding one substrate to the other. They are available as solutions or dry powders which are mixed with water prior to application. The binding process completes when the water component of the adhesive evaporates or is absorbed by one of the substrates. Water based adhesives are of several types including acrylics, polyvinyl acetate emulsion, ethylene vinyl acetate emulsion, polyurethane emulsions, chloroprene rubber latex. Based on their binding properties, water based adhesives find application in various areas such as tapes and labels, paper, packaging, woodworking, building and construction, automotive and transportation etc.

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Water based adhesives are binding materials which have high mechanical strength and apart from mechanical strength they have lesser volatile organic compounds (VOC) emissions associated with them. This paves the way for water based adhesive to find application in almost every area requiring high biding strength and lesser VOC emissions. Therefore, they find application in tapes and labels, paper, packaging, woodworking, building and construction, automotive and transportation etc. Out of the following application areas, packaging holds the major share of the water based adhesive market. building and construction which require high mechanical strength is also another area holding major share of water based adhesive market. Increasing urbanization backed by increasing binding material needs from the above sectors is going to support demand rise for water based adhesive for the forecast period.

Water based adhesive consists of polymer water emulsions, hence its price is directly linked to the fluctuations in the price of polymers such as acrylics, polyvinyl acetate, ethylene vinyl acetate, polyurethane, chloroprene rubber latex. In the first half of FY20 sudden outbreak of novel coronavirus followed by fall in in the demand of construction rendered a major downfall in the water based adhesive demand hence the prices remained low for water based adhesive during the coronavirus pandemic. Demand has picked up in the recent quarters and is projected to grow due to increasing demand from Asia Pacific and North America. Continuous revamping of infrastructure in disaster prone countries like Japan is also expected to be a driver for growth after the pandemic.

Regional Outlook:

Regionally, Asia Pacific dominates the water based adhesive market and holds the largest market share in FY20. Asia’s water based adhesive market is anticipated to grow in the economies like India, China, and Japan due to continuously rising urbanization and high demand for packaging and construction materials backed by the demand for materials having lesser VOC emissions. In South Asia, particularly India, seems to be the key market for water-based adhesive as the country is seen as a major emerging economy with demand for packaging and construction from increasing urbanization. Moreover, increasing focus of the Indian government towards modern infrastructure development through government initiatives like Smart City programme is also an influencing factor increasing the demand of water based adhesive in Asia Pacific and particularly in South Asia.

According to ChemAnalyst report, “Water based adhesive Market: Plant Capacity, Production, Operating Efficiency, Demand & Supply, Technology, Application, End Use, Distribution Channel, Region, Competition, Trade, Market Analysis, 2015-2030”,

Key Players

DIC

Evonik

Dow Corning

Huber Group

3M Company

Illinois Tool Works

Franklin International

Eastman Chemical Company

B. Fuller Company

Royal Adhesives and Sealants

“Being linked to the high-performance materials industry, the water based adhesive industry has shown a robust growth alongside growing urbanization and changing consumer preference. China serves as the key growth region with sufficiently installed capacities. India also shows an optimistic trend in demand rise during the forecast period as the government is supporting the modern infrastructure development in its Smart Cities programme. water based adhesive pricing curve shows strong movement in line with the polymers such as acrylics, polyvinyl acetate, ethylene vinyl acetate, polyurethane, chloroprene rubber latex. The increasing need for green solvents and more environment friendly adhesives is expected to hinder the demand growth during the forecast period. With new competitors emerging across the Asian water based adhesive market, players anticipate that there will be sufficient supply demand gaps in future. At this, it is extremely important to keep an eye which region will grab the biggest market share in the upcoming years.” said Mr. Karan Chechi, Research Director with TechSci Research, a research based global management consulting firm promoting ChemAnalyst.

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The Tackifier Resin Dispersions Market to move around with green innovation between 2017 - 2025

Global Tackifier Resin Dispersions Market: Introduction

Tackifier resin dispersions are aqueous, solvent-free dispersions which are mainly used in the manufacturing of pressure-sensitive adhesives based on natural rubber and acrylic or carboxylated styrene-butadiene rubber (SBR) emulsions. These resin dispersions are recommended as environment-friendly in various applications, especially in adhesion to polyethylene and polypropylene packaging substrates.

Different types of Tackifier resin dispersions such as rosin ester series, terpene phenolic resin series, and polymeric rosin are used in adhesives for automotive, building & construction and so on. Depending on their end-use, different kinds of Tackifier resin dispersions are employed in different end use industries. For example, natural rubber based, acrylic and SBR based Tackifier resin dispersions are used in the manufacturing of waterborne pressure-sensitive adhesives, which are used in paper label & tape and waterborne adhesives are used in automotive and building & construction.

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Global Tackifier Resin Dispersions Market: Market Dynamics

Tackifier resin dispersions are used across various end-use industries such as packaging, building & construction, automotive, and nonwovens. Upsurge in different end-use product demand & industrial development are the crucial factors boosting the demand for tackifier resin dispersions, which in turn, is propelling the overall growth of global tackifier resin dispersions market. With the strengthening of government rules and regulations to protect the environment, demand for environment friendly solvent free resin dispersions is expected to increase in upcoming years that drives the overall tackifier resin dispersions market over the forecast period.

The transportation of tackifier resin dispersions is not easy as it has limited shelf life, low water content, and low freeze resistance. Hence, it is difficult to make this resin dispersions available in right time and at right place. This is an important factor restraining growth of the global tackifier resin dispersions market.

Today, the use of adhesives based on water dispersions of polymers become more crucial part of the global adhesive industry, which directly impacts the overall tackifier resin dispersions market. When the base polymer for the adhesive is dispersed in water, the tackifier resin dispersions and other components of the system disperse readily in the latex or it is to be supplied in dispersed form.

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Global Tackifier Resin Dispersions Market: Market Segmentation

The global tackifier resin dispersions market can be segmented on the basis of product type, chemistry, tackifier families, application, and end use industries. On the basis of product type, global tackifier resin dispersions market can be segmented into rosin acid based dispersions, rosin ester based dispersions, hydrocarbon resin-based dispersions, resin dispersions based on hybrid feedstock, and others. On the basis of chemistry, global tackifier resin dispersions market can be segmented into rosin ester series, terpene phenolic resin series, polymeric rosin, hydrocarbon resin(C5/C9), acrylic based, VAE (Vinyl acetate-ethylene) latex, water-borne polyurethane, Chloroprene (chlorobutadiene) rubber latex, natural rubber latex, and others. On the basis of application, global tackifier resin dispersion market can be segmented into assembly adhesives, bookbinding adhesives, footwear & leather, tapes & labels, etc. On the basis of end use industry, global tackifier resin dispersion market can be segmented into automotive, building & construction, nonwovens, and packaging.

Global Tackifier Resin Dispersions Market: Region-wise Outlook

North America and Europe are expected to remain key regions in the global tackifier resin dispersions market throughout the forecast period. Asia-Pacific is also expected to account for a significant market share over the forecast period.

Global Tackifier Resin Dispersions Market: Market Participants

Examples of some of the market players identified across the value chain, who are involved in the manufacture of tackifier resin dispersions include ,

Eastman Chemical Company

Lawter

a Harima Chemicals, Inc.

Dyna-Tech Adhesives

RESPOL RESINAS, S.A.

GUANGXI TONE RESIN CHEMICAL CO., LTD

BAOLIN             Chemical Industry Co., Ltd.

DANQUINSA GmbH

Kraton Corporation

Schill + Seilacher “Struktol” GmbH

VALPAC, Inc.

DRT- The Resiniques Derivatives and Terpeniques

Teckrez, Inc.

Wakol GmbH (U.S. subsidiary of Loba Chemie)

Arkema Coating Resins

Aquaspersions Limited

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Nanosilica Market Trends, 2020-2030

Nanosilica Market: Introduction

The global nanosilica market is expected to reach a value of ~US$ 55 Bn by 2030, expanding at a CAGR of ~7% during the forecast period. Increase in the demand for nanosilica for use in various applications is a key factor driving the global nanosilica market. Additionally, growth in the adoption of nanotechnology across the globe is expected to fuel the global market during the forecast period.

Key Drivers of Nanosilica Market

The global nanosilica market is primarily driven by increasing use of nanosilica in paints and coatings and construction applications. The demand for nanocoatings in aviation, automobile, and medical applications is estimated to increase in the near future. This, in turn, is projected to fuel the demand for nanosilica during the forecast period. The application of nanomaterials in concrete helps enhance the properties of concrete. Nanosilica, owing to its small particle size, can positively affect properties of concrete by changing its microstructure.

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Nanosilica: Market Segmentation

P-Type emerged as the leading product segment of the global nanosilica market in 2019. Increasing demand from the concrete industry led by growth of the construction sector, including residential and commercial buildings, is projected to propel the segment during the forecast period. The growing construction sector, particularly in Asia Pacific and North America, is projected to be a key factor driving the demand for P-type nanosilica during the forecast period.

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Due to its property of dispersion, S-type nanosilica can be used as a filler material in several applications including electronics, coatings, and varnishes. This makes S-type nanosilica useful for external additive materials, sintering materials, and fillers for liquid-type sealants. Rubber & plastic additives emerged as the leading application segment, in terms of both volume and revenue, in 2019. Nanosilica is used as an additive in various types of rubbers such as natural rubber, ethylene propylene diene monomer (EPDM), styrene–butadiene rubber (SBR), ethylene acrylic rubber, nitrile butadiene rubber (NBR), and silicone rubber. It is extensively utilized as a reinforcing agent to enhance the mechanical strength of vulcanized rubber.

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The paints & coatings segment followed the rubber and plastic additives segment in 2019. Nanosilica is widely utilized in super-hydrophobic coatings. Lower prices of nanosilica than its substitutes, such as carbon nanotubes, have boosted the demand for nanosilica in the paints & coatings industry.

Asia Pacific Holds a Prominent Share of Nanosilica Market

In terms of volume, Asia Pacific accounted for a leading share of the global nanosilica market in 2019, due to rise in investments by governments of China, India, and Thailand in the construction sector. Europe held a considerable share of the global nanosilica market in 2019.

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Europe also has a strong industry for rigid packaging. Several countries in the region are witnessing high per capita consumption of packaged products. In North America, increasing adoption of the next-generation technology, such as nanotechnology, may lead to increased production and use of nanosilica in various end-use industries. Growth of rubber & plastic additives, automotive, and construction industries in the region is boosting the demand for nanosilica in North America.

Key Players in Global Market

The global nanosilica market is moderately consolidated, with the presence of a few large-sized manufacturers. Companies operating in the global nanosilica market are investing significantly in research and development activities and advancements in technology. Major players operating in the global nanosilica market include Evonik Industries AG, Wacker Chemie AG, Normet, Nanosil (Asia Pacific) Sdn. Bhd, and US Research Nanomaterials, Inc.

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