Technologies revolutionizing 3D Dental sector

Additive manufacturing has reached a significant number of sectors and industries, subsequently offering important advantages in terms of productivity, costs, customization and lead times. In the field of dentistry the technology creates solutions adapted to the needs of each patient. It is also a flourishing industry, not too long ago the consulting firm QY Research announced that dental 3D printing was expected to reach $930 million by the end of 2025. In other words, the market is expected to grow at an annual rate of 17%, which can be explained by the constant development of 3D technologies and their materials. Indeed, dental 3D printing includes different processes such as stereolithography or direct metal sintering and therefore a variety of materials: resins, plastics, metals, etc. The application of 3D printing in dental is wide, it is possible to make surgical guides, crowns, trays and dentures and each solution is adapted to each patient with high precision.

We also find metal additive manufacturing as a process in dentistry. Mainly used to produce implants, stellites, or nickel-chromium screeds. Oliver Bellaton comments, “This technology requires sustained production to absorb investments of up to several hundred thousand euros with skills coming from the industrial world rather than the dental sector.” Metal printers are much more expensive than other technologies and will sometimes require more post-processing work reducing productivity for some. After talking with a dental technician, he explained that a crown made by machining requires 15 minutes of work, however a 3D printed metal one requires 5 hours of printing. On the other hand, in terms of cost per unit, additive manufacturing is much more interesting, 75 cents for the latter against more than 7 euros.

Dental 3D Printing Technologies and their Materials

When we talk about dental additive manufacturing, it is important to understand that several technologies are involved, whether it is fused deposition modeling, photopolymerisation or laser sintering, the choice will depend on the type of application at stake. For example, the FDM process will manufacture pieces “at a cost of a couple of pennies and no post-processing after printing. However, speed, accuracy and biocompatibility are not present.” Generally, the latter technology will be used to create orthodontic dental models for thermoform gutters, whether for alignment, bleaching or restraint. On the other hand, 3D printed dental solutions using PEEK are emerging. The 3D printer manufacturer, IEMAI3D said, “There are many advantages to making partial prostheses with PEEK. It is a strong and lightweight material that will improve patient comfort. The frame of the prosthesis is produced without metal and is completely neutral in terms of taste.”

Another additive manufacturing process used in the dental sector and probably the main one is photopolymerisation. Whether we are talking about stereolithography (SLA) or DLP, this process offers a much higher resolution, and most importantly biocompatible materials. In this case, liquid resins. Anton Lopez, Channel Sales Manager France at EnvisionTEC told us, “Combined with CE/FDA approved materials, photopolymerisation and especially DLP, gives more accurate printing which allows more accurate devices to be created. The finishing is much less complex, which reduces manufacturing time. Also, it is very easy to change materials and print for different applications. This is very beneficial for the dental industry because professionals can treat their patients more quickly”. In terms of applications, this technology offers more possibilities due to its precision; we are talking about surgical guides, temporary crowns and bridges, calcinable elements such as dental stellites, etc.

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 "The Future of Thermoforming: Innovations and Trends"

The Vacuum Forming Plastic industry is evolving, driven by advancements in technology and changing consumer demands. In this article, we will explore emerging trends and innovations shaping the future of thermoforming.

Topics will include the integration of automation and robotics in the production process, advancements in material science leading to the development of new thermoplastics, and the growing demand for custom, small-batch production. We will also highlight how companies are leveraging 3D printing alongside thermoforming to create intricate designs. By staying informed about these trends, businesses can adapt their strategies and remain competitive in the market.

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Benefits of rPET Chips

1. Environmental Sustainability

Reduces Plastic Waste: Diverts plastic waste from landfills and oceans.

Conserves Resources: Reduces the demand for petroleum-based raw materials.

Lower Carbon Footprint: Producing rPET chips emits fewer greenhouse gases compared to virgin PET.

2. High Versatility

rPET chips can be used in many applications, including textiles, packaging, and automotive parts, ensuring flexibility for manufacturers.

3. Cost-Effective Solution

Using rPET chips can lower production costs, especially as regulatory incentives and consumer demand for eco-friendly products increase.

Applications of rPET Chips

1. Packaging Industry

Bottles and Containers: rPET chips are used to manufacture new beverage bottles and food packaging. Many brands now promote the use of recycled bottles to appeal to eco-conscious consumers.

Films and Trays: Used in thermoforming to produce packaging trays, especially in the food industry.

2. Textile Industry

Clothing and Fabrics: rPET chips are processed into fibers to create eco-friendly fabrics for clothing, upholstery, and carpets.

Sportswear: Popular among sports brands for making lightweight, breathable, and sustainable apparel.

3. Automotive Industry

Interior Components: rPET-based materials are used in seats, carpets, and trim components, reducing the car’s environmental footprint.

4. Construction and 3D Printing

Building Materials: rPET chips are used to produce plastic roofing tiles and panels.

3D Printing Filament: Emerging as a sustainable material option for 3D printing.

Challenges in Using rPET Chips

Contamination Issues: Ensuring high purity is essential to maintain quality.

Performance Limitations: In some cases, rPET may not match the properties of virgin PET.

Supply Chain Variability: Inconsistent availability of high-quality PET waste can affect production.

The Future of rPET Chips

As environmental regulations tighten and consumer demand for sustainable products grows, the market for rPET chips is expected to expand. Technological advancements are improving the quality of rPET, making it comparable to virgin PET, and innovations such as chemical recycling promise even more efficient recycling processes.

Conclusion

rPET chips are driving a positive shift towards sustainable manufacturing by providing industries with an eco-friendly, cost-effective alternative to virgin plastic. With growing demand across packaging, textiles, and automotive sectors, rPET chips are set to play a key role in building a more circular economy. Companies embracing rPET not only benefit from lower production costs but also enhance their brand image by aligning with global sustainability goals. Read More :

Reduce Plastic Waste through Recycling

Innovative Food Packaging Ideas Every Brand Should Be Aware of

Since food packaging plays an appropriate role in the food industry, trends in food packaging are always changing. Food packaging has undergone a massive transformation in recent years. This is due to the fact that more people are purchasing large amounts of groceries in the flesh or through online delivery services. 

There are now many different types of food packaging and takeaway containers available, such as plastic takeaway containers, biodegradable food containers in bulk, and many more. Modern technology has made a number of environmentally friendly packaging and takeaway options available to the working class.

To stay competitive in the food industry, however, certain packaging trends must be addressed. These are the most important food packaging trends that will be thoroughly examined in this post.

Transparency is Key in Food Packaging:

Nowadays, most consumers will only buy a recently released product if and when it has clear product information. because they wish to be conscious of their diet. Being aware of what is happening in your stomach is perfectly acceptable. Even though the majority of food packaging includes ingredient information, it can be difficult to read the fine print.

On the other hand, consumers will be better equipped to make informed decisions if food packaging uses clean labelling. Clear labelling of the product's ingredients and transparent packaging are essential. Clean labelling can help customers make thoughtful purchases and improve your brand identity.

The Rise of Personalized Food Packaging:

Food packaging now heavily incorporates customisation, which is also one of the biggest trends. Leading brands are now personalising their wholesale plastic takeaway containers with printed names. In fact, it is currently becoming an industry leader.

To increase brand recall and appeal, manual variation could involve using customised bags, boxes, stickers, and even gift tags.

The future of food packaging design and development promises customised packaging that closes the gap between consumer needs and product reality. Consumers expect their food and snacks to meet their individual and ever-changing needs, and innovative packaging design with a personal touch can help brands meet this challenge.

The Shift Towards Eco-Friendly Packaging:

Eco-friendly packaging is one of the most significant packaging trends that will impact the industry in 2025.

From banning the use of plastic bags at supermarkets to replacing plastic straws with paper straws in restaurants,. Many eco-friendly packaging alternatives are making their mark on the market.

Most food packaging companies now use biodegradable food containers instead of plastic. Single-use plastics have also gained popularity as an alternative. Not only has it been shown to be a safer packaging material for use during the pandemic, but it is also a transit-safe plastic takeaway container.

The Demand for Frozen Food Packaging:

Applications for frozen food packaging have been partially integrated into the food packaging sector in particular.

This suggests that there is a significant market for frozen food packaging materials such as skin film, IQF polyethylene, glass, aluminium, flexible bags, lidding films, wax-coated cardboard, shrink film, and high barrier thermoforming film. Cardboard, paperboard, shrink film, skin packs, and other materials are frequently used to package frozen foods.

The Power of Simple and Clean Packaging Designs:

One of the major developments in food packaging design is minimalist design. A small portion of the food packaging sector has shifted from eye-catching and chaotic designs to straightforward labelling and packaging.

In addition to highlighting the product's worth, this packaging trend avoids overpowering consumers with lavish images and artwork. A minimalist and simple design gives the product a new appearance. The food packaging bags appear tidy, clean, uncomplicated, and revitalising. But it also lowers the cost of your production process.

Boost Your Brand with Innovative Packaging:

You can experiment with plastic takeaway containers and food packaging bags as different food packaging trends come and go. You can appeal to potential customers and the target market by doing this with your product packaging. No matter what category of packaging you choose, make sure your food packaging connects to your offline customers online and makes your overall product marketing. Choosing more modern and eco-friendly food packaging services as soon as possible is imperative for food preparation services. In addition to improving customer satisfaction, this would help your business increase sales because modern food packaging services are essential.

Ready to elevate your brand? Discover how our innovative and eco-friendly packaging solutions can transform your products and attract more customers.

Medical and Technological Advancements in Prosthetic Leg Technology

Prosthetic legs, also known as artificial legs, are artificial replacements for human legs. They are designed to replace a leg that is either missing or cannot function as intended due to injury, disease or illness. While artificial leg technology has come a long way, the main goal has always been to help amputees regain their mobility and independence. Types of Prosthetic Legs There are different types of artificial legs that are designed based on the level of amputation and daily activity level of the user: Below-Knee Prosthetics: This type of artificial leg replaces the lower leg below the knee joint. It consists of a socket that is customized to fit the remaining part of the leg snugly. An artificial foot is then attached to the end of the socket. Below-knee prosthetics are usually more affordable and versatile than other types. Knee Disarticulation Prosthetics: For amputations above the knee but below the distal femur, a knee disarticulation prosthetic is used. It replaces the knee joint along with the lower leg. A socket is used to connect the prosthetic to the thigh bone. Special mechanisms are used to simulate knee bending and movement. Above-Knee Prosthetics: For amputations at or above the knee joint, an above-knee prosthetic is needed. Prosthetic Legs type of leg prosthesis replaces the entire lower limb from above the knee joint. It consists of a socket that attaches to the remaining thigh bone along with an artificial knee joint and shin and foot component. Microprocessor knees with powered flexion-extension motions are often used for above-knee prosthetics. Hip Disarticulation and Transfemoral Prosthetics: Hip disarticulation prosthetics are needed for amputations through the hip joint. They involve replacing both the thigh bone and the pelvis. Transfemoral prosthetics are for amputations even higher above the knee joint, through the femur. Very specialized design and fitting methods are required for these types of leg replacements. Materials Used in Prosthetic Leg Construction Prosthetic leg components are made using various advanced materials to achieve optimal strength, comfort and function: Socket Material - Traditionally made from thermoforming plastics like polypropylene, the sockets are now 3D printed using carbon fiber or titanium for strength and customization. Knee and Ankle Joints - Starting from simple hinges, they now use sophisticated microprocessor controlled hydraulic or pneumatic systems to mimic natural joint movements. Carbon fiber or aluminum alloys are commonly used. Foot Material - Initially made of wood or basic plastic, feet now use carbon fiber, EVA foams or polyurethane copolymers. Some even contain microchips and motors for a near-natural gait. Compressive Liners - Liners made of silicone or urethane cushion and protect sensitive areas inside the socket. Suspension Systems - Different types of suspension straps, pins and sleeves keep the prosthetic firmly in place without discomfort. Advancements in Prosthetic Leg Technology The field of artificial legs has evolved tremendously in recent years, thanks to advancements in material science, mechanics and computer technology: Microprocessor Knees and Ankles - Prosthetic knee and ankle joints now use sophisticated microprocessor control instead of simple springs and hydraulics. This allows dynamic, energy efficient movements. Get more insights on Prosthetic Legs

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Application of Acrylic Material in Thermoforming

With the demand for diversified designs and the wide application of new materials, plastic materials are favored by designers and users because of their unique characteristics. There are many types of plastic materials, with obvious characteristics and wide applications, acrylic materials are undoubtedly the ones.

Ⅰ. Thermoforming

With the continuous development of science and technology, the manufacturing industry is also constantly innovating and progressing. Among them, thermoforming process, as an emerging manufacturing technology, is gradually becoming a new trend in the future manufacturing industry.

Thermoforming is divided into thin gauge thermoforming and heavy gauge thermoforming according to the thickness of the sheets.

Thermoforming is a plastic processing technology. The main principle is to heat a flat hard plastic sheet to soften it, then use vacuum to adsorb it to the surface of the mold, and then cool it into shape. It is widely used in plastic packaging, lighting, advertising, decoration and other industries.

Heavy gauge thermoforming refers to the use of materials with a thickness exceeding 2mm, which cannot be vacuum formed on fully automatic tools. A semi-automatic vacuum forming machine dedicated to thick gauge thermoforming must be used for processing and production.

To optimize the sheet forming process, it is crucial to consider various factors. Begin by carefully managing stress concentration heat sheet, ensuring that ambient air temperature is controlled. Achieve uniform temperature distribution across the sheet, paying particular attention to the sheet interior's cooling time. Use a proper mold covering to maintain forming temperature low. Employ a blowing mold consists of optical light sensors for precise monitoring. Alternatively, a jig or soft material can be utilized to enhance the cooling process. Implementing a horizontal heating system further contributes to the overall efficiency and effectiveness of the sheet forming operation.

Vacuum forming can be used for product design and manufacturing of rear-projection TV back covers, displays, medical equipment, textile machinery, automotive accessories, and product design and manufacturing in precision electronics, medical equipment, and cosmetics industries.

The main advantage of pressure forming is that it can produce complex shapes and sizes, while also providing supporting services during the manufacturing process, such as printing and assembly, to meet vacuum forming requires of different customers.

Ⅱ. Acrylic Sheet

Acrylic

Acrylic (PMMA) particles are colorless or transparent material with a specific gravity of 1.19 g/cm3 and low surface hardness. They are easily scratched by hard objects and difficult to catch fire. The melting point of PMMA is about 130–140°C, which is much lower than the high temperature of glass, which is about 1000 degrees.

The panel is coated with a high concentration of ultraviolet absorber. Acrylic has high transparency, can be weathered for a long time, never fade, has a service life of 5 to 8 years, and has good light transmittance, up to 93%, with excellent light transmittance and light soft.

Acrylic sheet is a plexiglass processed through a special process. It has strong hardness, good material, radiation protection, and good light absorption effect. With the development and widespread application of optical technology, it has gradually been widely used in industrial manufacturing and modern home life. middle. Moreover, acrylic materials have large sales volume and high recognition in the market.

PMMA has the advantages of being light, cheap, and easy to form. Its forming methods include casting, injection molding, machining, vacuum forming, etc. Injection molding, in particular, can be produced in large quantities with simple process and low cost. Therefore, its application is becoming more and more widespread, and it is widely used in instrument parts, automobile lights, optical lenses, transparent pipes, etc.

Why is Acrylic Sheet Suitable for Thermoforming?

Appearance

From the appearance point of view, acrylic sheets have the same transparency as crystal, with good light transmission effect, which can reach more than 93%. In the design and manufacturing process, many different colors can be customized according to requirements.

The dye effect is good. After a long period of There is no possibility of color fading after use. Only with good quality can it be widely promoted and used in the decoration process.

Good Processing Performance

It has excellent heat resistance. Generally speaking, the surface of its acrylic sheet has the advantage of very good resistance to high temperatures after encountering high temperatures. Of course, for different size ranges, they all need to be processed before they can be installed.

Its processing performance is relatively strong, and the quality and performance are the same as before processing. At the same time, it has good toughness and no defects will appear during the processing, the outdoor service life is about 5-10 years, and the color remains as new during use.

Production Process

In terms of the production process of acrylic sheets, there are mainly two types: casting type and extrusion type. The hardness and toughness of the sheet are improved through hot processing technology. This is why at the current stage, acrylic panels installed outdoors will not have any quality problems after a long period of weathering.

Therefore, the emergence of this new sheet material can have unique technical advantages from this process and form its own characteristics at the current stage.

Cast Plate: Higher molecular weight, excellent stiffness, strength and excellent chemical resistance. Therefore, it is more suitable for processing large-sized sign plaques, and the softening process takes a relatively long time.

This sheet is characterized by small batch processing, unmatched flexibility in color system and surface texture effects by other products, and complete product specifications, suitable for different needs.

Extruded plate: Compared with cast plate, extruded plate has lower molecular weight and weaker mechanical properties, but has higher flexibility, which is beneficial to bending and thermoforming processing, and its softening time is shorter. When processing larger-sized sheets, it is beneficial to various rapid vacuum forming.

At the same time, the thickness tolerance of extruded plates is smaller than that of cast plates. Since extruded boards are produced automatically in large batches, the colors and specifications are difficult to adjust, so the diversity of product specifications is subject to certain restrictions.

Translucency

In terms of appearance light transmission effect, there are mainly types such as transparent, translucent, milky white, etc. The colors are different, and the surface effects will also be different, and the visual impact is very strong.

Excellent Material

Acrylic sheet is a new green and environmentally friendly material in the 21st century. It has a high recycling rate and can be reused to make simple sheets. It has strong light transmittance. These characteristics make it play a key role in the decoration process.

Ⅲ. Application of Acrylic Thermoforming Products

In terms of engraving, decoration, handicraft production, advertising signs, light boxes, etc. PMMA has the advantages of being light, cheap, and easy to form.

Therefore, its application is becoming more and more widespread, and it is widely used in instrument parts, automobile lights, optical lenses, transparent pipes, etc.

In construction, it is mainly used in lighting bodies, roofs, sheds, stairs and interior wall panels. The application of acrylic in lighting lampshades and automotive lamps on highways and high-end roads is also quite rapid.

With the construction of hotels, guesthouses and high-end residences in big cities, lighting bodies have developed rapidly. Lighting bodies made of extruded plexiglass panels have the characteristics of high overall structural strength, light weight, high light transmittance and good safety performance. Compared with inorganic glass lighting devices, it has great advantages.

In terms of sanitary ware, acrylic can be used to make bathtubs, washbasins, dressing tables and other products. Acrylic bathtubs have been widely used due to their luxurious appearance, depth, easy cleaning, high strength, light weight and comfortable use.

Acrylic is the best new material for manufacturing sanitary ware after ceramics. Compared with traditional ceramic materials, in addition to its unparalleled high brightness, acrylic also has the following advantages:

It has good toughness and is not easy to be damaged, it has strong repairability. Just use soft foam and a little toothpaste to wipe the sanitary ware as new.

The texture is soft and does not feel cold and biting in winter.

The colors are bright and can meet the individual pursuits of different tastes.

Using acrylic to make basins, bathtubs, and toilets is not only exquisite in style and durable, but also environmentally friendly. Its radiation is almost the same as the radiation of the human body's own bones.

Acrylic can be made into various fashionable products, such as leather bags, waist chains, watches, high heels, heels, hair accessories, brooches, bracelets, buttons, earrings, necklaces, rings, pendants, photo frames, etc. There are many types and unlimited development space for continuation.

At the same time, acrylic material has high processing plasticity and good surface hardness and transparent luster. It is often used by designers to match with various materials in the design of various exquisite containers to add texture and practicality to the containers, such as lipsticks and Delicate containers such as chemicals, and other daily necessities such as massagers, jewelry boxes, fans, etc.

Taking advantage of the cool feeling of acrylic material and combining it with creative design, acrylic material is perfectly presented in a variety of popular boutiques.

Acrylic thermoformed door panel series: European style, Chinese style doors, door frames, dado panels, ceilings, gussets, etc.

Acrylic thermoformed curtain boxes, window sill panels, window covers, etc.

Acrylic thermoformed furniture series: desktops, benches, countertops, shelves, kitchens (bookcases, wardrobes), etc.

Acrylic thermoformed series production of various speakers.

Processing and production of acrylic thermoformed vehicles and special-shaped decorative products for boats.

Ⅳ. Advantages of Thermoformed Acrylic Products

Transparency

Colorless and transparent organic glass sheet with a light transmittance of over 92%.

Excellent Weather Resistance

It has strong adaptability to the natural environment. Even if it is exposed to sunlight, wind and rain for a long time, its performance will not change. It has good anti-aging performance and can be used outdoors with confidence.

Good Processing Performance

Suitable for both machining and vacuum forming, acrylic panels can be dyed, and the surface can be painted, screen-printed or vacuum coated.

Excellent Comprehensive Performance

Acrylic boards come in a wide variety of colors, and have extremely excellent comprehensive properties, providing designers with a variety of choices. Acrylic boards can be dyed, and the surface can be spray-painted, screen-printed or vacuum coated.

Non-toxic

It is harmless even if it comes into contact with people for a long time, and the gas generated when burned does not produce toxic gas.

Made of PMMA acrylic thermoforming, it has the characteristics of good light transmittance, bright and clean exterior and interior, environmental protection, and can be painted. The color can be changed to produce products of different specifications and shapes according to customer requirements.

Mainly used in plastic transparent covers of game consoles, lampshades, observation instrument covers, leisure furniture hammocks, organic handicrafts, bank signboards, advertising light boxes, etc.

Ⅴ. Precautions for Acrylic Thermoforming Production

General acrylic will undergo thermal deformation at about 100 degrees Celsius, so you must pay attention to this temperature when using it, and if it is to be used continuously, the temperature cannot be higher than 90 degrees.

When acrylic thermoformed products become blurry or unclean due to slight scratches or dust adsorption due to static electricity, you can use 1% soapy water to wipe them clean with a soft rag.

The hardness of the thermoformed surface is comparable to that of aluminum, so care should be taken to avoid scratching the surface when using or processing acrylic. If it is accidentally scratched, it will need to be restored by polishing.

When installing acrylic products, thermal expansion and contraction must be taken into consideration, and there must be a space for expansion and contraction during assembly.

If the preliminary processing work is not done well, the acrylic thermoformed product will also be deformed at the moment of demoulding, and the quality of the deformed product will inevitably be affected. In order to avoid similar problems from happening again, we must develop corresponding solutions to this problem.

In order to prevent deformation after pressure forming is demolded, the operator is first required to check the temperature of the cooling water, and at the same time adjust the water volume of the nozzle to meet the specified range. Secondly, the wind direction at each location must be adjusted to find the most suitable forming pressure for acrylic thermoforming production.

In addition, when demoulding, try to use the pressure of vibrating the upper mold to force smooth demoulding. If the air volume at the bottom can be appropriately increased, it will also be helpful to ensure the quality of acrylic thermoformed products. If these cannot solve the problem, the only way to overcome the deformation problem is to re-make the upper mold.

Conclusion

With the continuous advancement of social science and technology and the continuous improvement of process technology, acrylic thermoforming will have broader market prospects and application prospects in the future. Its future development trends include the following aspects:

1. Continuous improvement of creativity: As people pay more and more attention to personalization, acrylic thermoforming will use more creativity to create more unique products through different processes and materials.

2. More environmentally friendly and energy-saving: When making acrylic thermoforming products, low-carbon, environmentally friendly, and energy-saving methods will be increasingly used to achieve a greener production environment.

3. Upgrading of materials: As people pay more and more attention to health and environmental protection, acrylic blister materials will increasingly use healthy, environmentally friendly and safe materials, and improve the performance indicators of the materials through technical means.

Insights and Trends in the Global Industrial Packaging Market: Growth, Challenges, and Opportunities

Industrial Packaging: The Evolution of Packaging Materials Over the Years In Transportation Packaging Material Types: Paper, Plastic, Metal and Woven Sacks Paper has been one of the most widely used packaging materials for industrial products. Kraft paper and corrugated cardboard boxes are versatile materials that provide protection and allow easy printing of product information and branding. Their recyclable nature is also environment friendly. However, paper has limitations when it comes to moisture resistance and durability. Plastics like polyethylene, polypropylene and PET have gained substantial popularity in the past few decades. Rigid plastics effectively protect products from damage and moisture. They are lightweight and inexpensive. Flexible plastics in the form of bags, pouches and wraps mold well to products and reduce wastage of materials during packaging. Thermoformed plastic trays provide robust tamper-evident packaging solutions. However, different types of plastics require proper disposal methods as most are not bio-degradable. Metals like steel and aluminum sheets are especially suitable for harsh industrial environments. Metal drums, pails and cans resist dents and offer excellent barrier properties. Their recyclability is also an advantage. Nonetheless, metals add heaviness and rigidity that increases transportation costs. Woven sacks made from polypropylene or jute fibers are sturdy and cost-effective packs for granular, powdered or small parts. Rotomolding technology permits adding plastic liners inside bags to enhance moisture resistance. However, sacks are bulkier to handle and store compared to boxes or rigid containers. Packaging Machinery Automating Industrial Packaging Lines Automated packaging lines with machinery like filling machines, cartoners, wrapper, shrinkwrappers, palletizers and stretchwrappers have elevated production efficiencies. Robotic arms precisely place andassemble cartons. Volumetric filling technologies accurately dispense liquids and solids. Checkweighers maintain product weight uniformity. Centralized HMI systems monitor performance across all machines. Mobile and stationary stretch wrapping machines securely unitize packed loads for shipping. Automatic palletizers arrange boxes onto pallets at high speeds to optimize truck trailer space. Integrating digital printers onto lines customizes cartons with variable product/packaging details. Auto code date-printers track freshness and recalls/replenishments. Sophisticated vision systems verify codes, dates and package integrity. Barcode Scanning Enhancing Warehousing and Distribution Barcode scanning is integral to material management of inbound raw materials and outbound finished goods. Pallet tags and carton labels are scanned at each stage to update inventory levels and locations in warehouse management systems. Item IDs, quantities, production dates etc. are captured in databases for reports, shipments and traceability needs. Voice-directed picking via barcode scanners accurately directs warehouse workers to replenish materials across manufacturing and assembly lines. Scanners also guide put-away of finished goods while optimizing storage space utilization. During order fulfillment, scanners confirm orders are complete and accurate before dispatch. Two-dimensional barcodes like QR codes enable linking packaging to digital product brochures, instructions or assemblies online.

Clear Aligners Market: 3D & CAD Improve Treatment Efficacy

According to WHO Global Oral Health Status Report 2022, oral diseases affect around 3.5 billion individuals globally. Periodontal disease is one such condition affecting approximately 19% of the global population, resulting in tooth fallout on several occasions. Further, as per the National Center for Biotechnology (NCBI) , around 93% of adolescents between 12-18 are diagnosed with malocclusion, which refers to developmental abnormalities of teeth. This high prevalence of dental conditions has influenced dentists to adopt advanced solutions, including invisible aligners. Triton’s estimates suggest the global clear aligners market will advance with a CAGR of 29.3% during the forecast period 2023-2030.

While both braces and clear aligners treat malocclusion, the latter technology has gained prominence owing to shorter treatment duration as well as convenience over braces. In recent years align procedures have gained prominence, with clear correct aligners popular among young adults and teenagers due to superior comfort and aesthetic appeal.

While aesthetic appeal has been an attractive marketing strategy, players are expanding their footing with the help of cutting-edge technologies.

CAD/CAM Technology: Innovation Shapes Clear Aligner Treatments

Computer-aided design (CAD) and computer-aided manufacturing have enabled dentists to accomplish complex treatments faster and more accurately. The technology constructs dental veneers, crowns, inlays, aligners, etc., more precisely than traditional methods. Over the recent years, CAD/CAM technology has enabled dental specialists to provide aesthetically pleasing options with decreased side effects and long-lasting restorations. This growing prominence led Align Technology, a medical device company manufacturing the Invisalign system of clear aligners and CAD/CAM software, to establish ‘Align Innovation Center (AIC)’ in Hyderabad, India.

Developed through CAD-CAM technology and thermoformed plastic materials, customized clear correct aligners have gained popularity among teens seeking to improve their appearance while avoiding metal braces. In this regard, the launch of Invisalign Teen has enabled dentists to enhance an individual’s profile by developing the lower jaw. As per industry sources, around 1 million teenagers have opted for clear aligners over braces, especially in North America and Asia-Pacific.

Aesthetic Aligners with 3D Printing and Imaging

According to WHO, malocclusion is the third most prevalent dental condition globally, following dental caries and periodontal disease. Given the high prevalence, clear aligners supported by advanced 3D technology have proven effective in treating crooked teeth, overbites, cross bites, etc. As per the American Journal of Orthodontics and Dentofacial Orthopedics, dental procedures prefer digital workflow with 3D printers to reduce treatment time and improve outcomes. Besides, estimates suggest that more than 20% of patients are willing to pay more to reduce treatment time.

Given the rising benefits of 3D systems, Align Technology introduced a 3D treatment plan, ‘ClinCheck Treatment Plan,’ that designs custom-made Invisalign aligners based on the patient’s teeth X-rays and impressions. Further, on April 20, 2023, LuxCreo, a 3D printing clear dental appliances specialist, launched an FDA Class II 510(k) cleared end-to-end solution for dentists and orthodontists. This approach enables professionals to deliver aligners via oral scan in less than 2 hours. Such innovations are thus expected to widen the scope of the clear aligners market over the forecast period.

Dental Tourism & Teledentistry Expands Application Prospects

Dental treatment has emerged as a prominent medical tourism segment in recent years. Low-cost cosmetic dental treatments in emerging economies like Mexico, India, South Korea, etc., back this growing trend. For instance, estimates indicate the cost of smile designing in the US is around $8000, whereas it is about $1000 in India. The rising virtual patient consultations or teledentistry has also boosted online (e-commerce) and offline (direct-to-consumer) sales of dental accessories like invisible aligners. Therefore, in retrospect, the growing need for low-cost and low turnaround time in dental treatments opens avenues for the clear aligners market.

 

FAQs:

Q1) In which age groups are clear aligners widely preferred?

Adults and teens are two major age groups opting for clear aligners technology.

Q2) What factors drive the clear aligners market?

The high prevalence of malocclusions, the advent of 3D printing and CAD/CAM technology, and customization drive the clear aligners market.

Photopolymers Market Outlook: Emerging Applications in Biomedical Engineering and Flexible Electronics

The global photopolymers market is anticipated to reach USD 5.78 billion by 2030, according to a new report by Grand View Research, Inc. The market is expected to expand at a CAGR of 10.6% from 2023 to 2030. Rising demand for prototyping across the automotive industry and designs for understanding complex surgical procedures have increased the demand for photopolymer for 3D printing. Furthermore, increasing demand for artificial jewelry and prosthetics across the global population are further propelling the market growth.

Photopolymers Market Report Highlights

The European market was valued at USD 2.60 billion in 2022 and is expected to grow at a CAGR of 10.6% from 2023 to 2030

High-performance 3D printing refers to technologies that endure exceptional capabilities in terms of high speed, precision, material options, and the highest print quality. These high-performance 3D printing technologies include selective laser melting (SLM), electron beam melting (EBM), continuous liquid interface production (CLIP), and multi-material 3D printing

Stereolithography (SLA) is the most commonly used 3D printing technology across the world. It utilizes laser light sources to carry out 3D printing of objects. The global demand for SLA-based 3D printing has rapidly increased in recent years owing to its ability to print 25–300-micron components at a high XY resolution utilizing plastic resins and photopolymers

Photopolymers in 3D printing across the dental industry have witnessed a rise in demand in the past few years on account of their benefits, such as high-quality molds, perfect & precise designs, smoother surfaces, and higher durability, in comparison to the traditional process of manufacturing molds using thermoforming

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Photopolymers are imaging compositions, based on polymers, oligomers, and monomers which can be polymerized accordingly and cross-linked upon image-wise exposure to light radiation such as ultraviolet (UV) rays. Photopolymers used across VAT polymerization in the 3D printing processes are used in liquid form and when exposed to UV rays in the form of a laser (SLA 3D printing technology) or scattered light source (DLP/cDLP 3D printing technology), undergo polymerization process which hardens them into the desired shape, as per the requirement of the final 3D printed product.

Photopolymers have gained traction from VAT polymerization-based 3D printing technologies, including stereolithography (SLA), digital light processing (DLP), and continuous digital light processing (cDLP) owing to their higher conversion from the liquid state to solid state, higher aesthetic component quality, enhanced versatility, material performance, and part longevity. The manufacturing of prototypes for jewelry, dental, and automotive, among others, are the market drivers for the market across the globe.

The market space is highly competitive with the introduction of new technologies for high-quality and high-speed 3D printing by various companies. For instance, in May 2022, Merit3D set a record for printing 60,000 parts in a time period of eight hours. The record was accomplished using Magna 3D printers for high-speed polymerization technology offered by Photocentric.

Impact of COVID-19 on the Rigid Packaging Market: Resilience and Adaptation

Rigid Packaging: Enhancing Product Protection and Consumer Appeal Raw Materials and Production Techniques Rigid packaging utilizes a variety of durable materials to securely contain products. Common materials include plastic, glass, metal, and wood. Plastics like polyethylene terephthalate (PET) and high-density polyethylene (HDPE) are popular due to their light weight and shatter resistance. Glass provides visibility and barrier protection but is heavier. Metal cans made of aluminum or tinplate resist denting while maintaining recyclability. Composite materials like fiberboard combine fibers like paper, paperboard, and plastic to achieve rigidity at lower costs than solid materials. Raw materials undergo fabrication processes to form rigid containers. Plastics are blow molded, injection molded, or thermoformed. Glass undergoes forming with heat before filling and sealing. Cans are produced through three-piece drawn and wall ironed or two-piece drawn, wall ironed, and sealed methods. Composite materials require lamination of layers with adhesive plus die cutting and scoring. Automated lines coordinate shaping, decorating, filling, sealing, and packaging at high speeds. Protection from Damage and Contamination Rigid packaging superbly protects products from damage caused by external forces. Plastic, glass, metal, and composite materials withstand crushing pressures and prevent breakage that could compromise contents. Rigid containers also provide tamper evidence through unbroken seals or labels. Once sealed, consumers can trust contents were not accessed until opening. Their impermeability to gases and liquids renders rigid packages ideal for preventing contamination and preserving freshness. Plastic, glass, and metal containers create absolute barriers blocking entry of air, moisture, light, and microbes that could degrade products. Composite boards further laminate layers for multi-directional strength blocking infiltration. Certain rigid containers like canned goods even allow hot filling and retort sterilization for long shelf-stable preservation without refrigeration. Graphic customization Rigid packaging facilitates protection yet also attracts attention on shelves. Vibrant graphics, photorealistic images and infographics adorn surfaces to highlight key selling points and information about contained products. Advanced printing techniques like rotogravure, flexography and digital bring designs to life in high resolution and colors. Metallic inks, foils, and dimensional effects add richness. Containers even undergo decorative processes like label wrapping and end printing. Sustainability considerations As a long-lasting package format, rigid containers prompt consideration of sustainable practices across their lifecycles. Lightweighting initiatives reduce materials while maintaining strength. Post-consumer recycled content increases in resins and boards. Mono-material structures like all-plastic or all-aluminum facilitate recycling. Reusable versions enable multiple refill cycles before disposal. Collection infrastructure improves recycling rates for rigid plastic, metal, and glass. New recycling technologies also extract value from "mixed rigid" streams. Compostable and biodegradable materials debut for select applications. Brands participate in sustainable packaging coalitions and adopt circular economy principles including design for reuse/refill. Rigid packaging manufacturers collaborate across supply chains on initiatives like carbon footprint reduction. Consumer appeal and trust Rigid containers achieve consumer appeal through protective functionality that builds quality perceptions. Contents remain cleanly enclosed and unbroken seals signal safety. Visual customization attracts eyes on shelves while communication graphics aid decisions. Stackability and sturdiness withstand distribution without destruction. Reclosability preserves freshness of partially used products.

Plastics Market Trends, Share, industry Growth 2024-2032

IMARC Group, a leading market research company, has recently releases report titled “Plastics Market: Global Industry Trends, Share, Size, Growth, Opportunity and Forecast 2024-2032” offers a comprehensive analysis of the industry, which comprises insights on the global plastics market trends. The global market size US$ 634.8 Billion in 2023. Looking forward, IMARC Group expects the market to reach US$ 829.7 Billion by 2032, exhibiting a growth rate (CAGR) of 2.93% during 2024-2032.

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Factors Affecting the Growth of the Plastics Industry:

Increasing Demand in the Packaging Industry:

The expansion of the packaging industry represents one of the primary factors propelling the market growth. Additionally, the rising reliance of individuals on online shopping channels is driving the demand for convenient and efficient packaging solutions. Plastics offer a versatile and cost-effective means of packaging, providing durability and flexibility for various applications. Moreover, advancements in plastic technologies, such as barrier coatings and modified atmospheres, enhance the protective qualities of plastic packaging, making it an indispensable choice for many industries.

Rapid Urbanization and Changing Lifestyles:

Rapid urbanization and evolving lifestyles of individuals are contributing substantially to the growth of the market. The increasing rate of urbanization is driving the need for products that align with the fast-paced urban lifestyle, where convenience and efficiency are paramount. Plastics, being lightweight, durable, and easily moldable, are widely used the manufacturing of numerous consumer goods, ranging from electronics to automotive components. The rising demand for plastic-based products beyond necessities to encompass a wide array of lifestyle products, including fashion accessories, home goods, and recreational items is favoring the market growth. This shift in consumer preferences, coupled with the adaptability of plastics in design and functionality, propelling the market growth.

Technological Innovations and Material Advancements:

Continuous innovations in plastic materials and manufacturing processes are strengthening the growth of the market. Researchers and industry leaders are investing in developing sustainable and eco-friendly alternatives to traditional plastics, addressing concerns related to environmental impact. Additionally, the increasing use of biodegradable plastics, recycled materials, and bio-based polymers  to meet stringent environmental regulations and consumer demands for greener alternatives is offering a favorable market outlook. Furthermore, technological advancements, such as three-dimensional (3D) printing and nanotechnology, are opening new frontiers in plastic applications, enabling the production of complex and customized products across various sectors. These innovations enhance the performance characteristics of plastics and attract a wider consumer base.

Leading Companies Operating in the Global Plastics Industry:

Arkema S.A

BASF SE

Celanese Corporation

Chevron Phillips Chemical Co. LLC

Chimei Corporation

Covestro AG

Dow Inc.

Eastman Chemical Company

Evonik Industries AG

Exxon Mobil Corporation

Sumitomo Chemical Co. Ltd.

Toray Industries Inc.

Plastics Market Report Segmentation:

By Type:

Polyethylene

Polypropylene

Polyvinyl Chloride

Others

Polyethylene represents the largest market segment as it offers customization and can be easily molded, extruded, and fabricated into various shapes and sizes.

By Application:

Injection Molding

Blow Molding

Roto Molding

Compression Molding

Casting

Thermoforming

Extrusion

Calendering

Others

Injection molding holds the largest market share as it allows high-volume production with a short cycle time. 

By End User:

Packaging

Automotive

Infrastructure and Construction

Consumer Goods

Others

Packaging accounts for the majority of the market share as plastic packaging can resist breaking and shattering and ensure safe transportation of products.

Regional Insights:

North America (United States, Canada)

Asia Pacific (China, Japan, India, South Korea, Australia, Indonesia, Others)

Europe (Germany, France, United Kingdom, Italy, Spain, Russia, Others)

Latin America (Brazil, Mexico, Others)

Middle East and Africa

Asia Pacific's dominance in the plastics market is attributed to the expansion of several industries in the region.

Global Plastics Market Trends:

The increasing emphasis on sustainable and circular economy initiatives is creating a positive outlook for the market. Along with this, manufacturers are investing in research and innovation to create biodegradable plastics, recycled materials, and bio-based polymers. These alternatives help reduce the environmental impact of traditional plastics by promoting recyclability, minimizing waste, and lowering carbon footprints. Furthermore, governing authorities and regulatory bodies worldwide are also implementing policies to encourage the adoption of sustainable practices within the plastic industry.

Other Key Points Covered in the Report:

COVID-19 Impact

Porters Five Forces Analysis

Value Chain Analysis

Strategic Recommendations

About Us

IMARC Group is a leading market research company that offers management strategy and market research worldwide. We partner with clients in all sectors and regions to identify their highest-value opportunities, address their most critical challenges, and transform their businesses.

IMARC Group’s information products include major market, scientific, economic and technological developments for business leaders in pharmaceutical, industrial, and high technology organizations. Market forecasts and industry analysis for biotechnology, advanced materials, pharmaceuticals, food and beverage, travel and tourism, nanotechnology and novel processing methods are at the top of the company’s expertise.

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Plastic Injection Molding Machine Forecast to 2031 with Key Companies Profile, Supply, Demand and SWOT Analysis

The global plastic injection molding machines market size was valued at $8,374.8 million in 2020, and is projected to reach $12,723.9 million in 2030, growing at a CAGR of 4.9%. Plastic injection molding machine is a mechanical equipment, which performs injection molding process. This process is used for mass production of injection molded plastic parts. In this report, various types of plastic injection molding machines have been considered. Plastic injection molding machines are used to manufacture items such as power tool housing, telephone handsets, electrical switches, car bumpers, disposable razors, closures, and dashboards. Injection molding machine is used in various end-user industries such as medical, automotive, home appliances, and consumer electronics industry.

Major players, such as Hillenbrand Inc, Husky Injection Molding Systems Ltd, Milacron Holding Corp, and others, offer injection molding machines with less than 200 tons clamping force. For instance, STM Inc based in Georgia, U.S. offers standard D700/I 5800 injection molding machines. It has clamping force of 7,000 KN and injection pressure capacity of 217 Mpa. In addition, these machines are equipped with five-point toggle mechanism, high-speed clamp options, either rigid platens, or others. They are widely used in automotive and packaging industries. Thus, all such factors are projected to fuel the plastic injection molding machines market growth.

Increase in demand for injection molding machines in various end users, such as packaging, automotive and others, drives the growth of the plastic injection molding machines. For instance, the packaging industry in Japan grew by 2.1% from 2017 to 2019.

However, the high cost required for machinery is expected to restrain the growth of the market. For instance, price of a large and complex mold machine is around $80,000 or more. Moreover, it requires high maintenance and installation cost. In addition, presence of substitute products, such as urethane casting, thermoforming, and 3D printing, is projected to restraint the market growth.

Moreover, technological advancements, such as IoT enabled and software, in plastic injection molding machine are expected to provide lucrative opportunities for the market.

Competition Analysis

The key players profiled in this report include ARBURG GmbH + Co KG, ENGEL Austria GmbH, Haitian International Holding Ltd, Husky Injection Molding Systems, Krauss Maffei Group, Milacron Holdings Corp., Shibaura Machine Co Ltd., Sumitomo Heavy Industries, The Japan Steel Works, and Ube Industries, Ltd.

The major players operating in the global plastic injection molding machines market have adopted product launch and acquisition as key developmental strategies to improve the product portfolio of plastic injection molding machine products. For instance, in January 2021, Arburg GmbH + Co KG acquired AMK Arnold Muller GmbH & Co. KG with its automation division, and formed a new company AMKmotion GmbH + Co KG. The acquisition aimed to improve the product portfolio of its injection molding machines.

Full Report With TOC:-https://www.alliedmarketresearch.com/plastic-injection-molding-machines-market-A13698

3D Printing in Dental Technology

3D Printing in Dental Technology

Additive manufacturing has reached a significant number of sectors and industries, subsequently offering important advantages in terms of productivity, costs, customization and lead times. In the field of dentistry the technology creates solutions adapted to the needs of each patient.

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It is also a flourishing industry, not too long ago the consulting firm QY Research announced that dental 3D printing was expected to reach $930 million by the end of 2025. In other words, the market is expected to grow at an annual rate of 17%, which can be explained by the constant development of 3D technologies and their materials. Indeed, dental 3D printing includes different processes such as stereolithography or direct metal sintering and therefore a variety of materials: resins, plastics, metals, etc. The application of 3D printing in dental is wide, it is possible to make surgical guides, crowns, trays and dentures and each solution is adapted to each patient with high precision.

Finally, we also find metal additive manufacturing as a process in dentistry. Mainly used to produce implants, stellites, or nickel-chromium screeds. Oliver Bellaton comments, “This technology requires sustained production to absorb investments of up to several hundred thousand euros with skills coming from the industrial world rather than the dental sector.” Metal printers are much more expensive than other technologies and will sometimes require more post-processing work reducing productivity for some. After talking with a dental technician, he explained that a crown made by machining requires 15 minutes of work, however a 3D printed metal one requires 5 hours of printing. On the other hand, in terms of cost per unit, additive manufacturing is much more interesting, 75 cents for the latter against more than 7 euros.

Dental 3D Printing Technologies and their Materials

When we talk about dental additive manufacturing, it is important to understand that several technologies are involved, whether it is fused deposition modeling, photopolymerisation or laser sintering, the choice will depend on the type of application at stake. For example, the FDM process will manufacture pieces “at a cost of a couple of pennies and no post-processing after printing. However, speed, accuracy and biocompatibility are not present.” Generally, the latter technology will be used to create orthodontic dental models for thermoform gutters, whether for alignment, bleaching or restraint. On the other hand, 3D printed dental solutions using PEEK are emerging. The 3D printer manufacturer, IEMAI3D said, “There are many advantages to making partial prostheses with PEEK. It is a strong and lightweight material that will improve patient comfort. The frame of the prosthesis is produced without metal and is completely neutral in terms of taste.”

Another additive manufacturing process used in the dental sector and probably the main one is photopolymerisation. Whether we are talking about stereolithography (SLA) or DLP, this process offers a much higher resolution, and most importantly biocompatible materials. In this case, liquid resins. Anton Lopez, Channel Sales Manager France at EnvisionTEC told us, “Combined with CE/FDA approved materials, photopolymerisation and especially DLP, gives more accurate printing which allows more accurate devices to be created. The finishing is much less complex, which reduces manufacturing time. Also, it is very easy to change materials and print for different applications. This is very beneficial for the dental industry because professionals can treat their patients more quickly”. In terms of applications, this technology offers more possibilities due to its precision; we are talking about surgical guides, temporary crowns and bridges, calcinable elements such as dental stellites, etc.

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Types of Packaging Machines You Should Know

Packaging Machines can be costly, but they often pay for themselves with increased production and efficiency. When coupled with a preventative maintenance plan, they reduce downtime and expensive repairs.

Humans can be inconsistent, overfilling containers or damaging packages. This can cost businesses thousands of dollars in lost productivity. Automation eliminates these issues and produces consistent results. It also frees up staff to reassign to more valuable duties. Thus quality packaging machines are important to grow a business.

Let's discuss some popular packaging machine types these modern days.

Stretch Wrapping Machines

A stretch wrap machine places a load of goods on the wrapper plate then mechanically rotates the pallet and pulls film around it in a predetermined cross-spiral pattern that maximizes the containment force. Machines come in two basic styles: turntable or rotary tower. Both styles are available in semi and fully automatic models.

Unlike human hand wrapping, machine applied stretch wrap is consistent and produces superior load containment. Most important, the wrap is tighter and uses less film.

Poorly wrapped loads can shift during transit and fall apart. This costs companies money in lost productivity and waste. It also takes time and resources to repair or replace damaged products, clean up the mess and put other (paid) production on hold. A good stretch wrap machine can eliminate this problem and reduce overall expenditures at the packaging line. It is worth the investment. A well-operated machine can increase output by up to 300% compared to a manually wrapped pallet.

Hot Tunnel Machines

Heat tunnels work by applying heat to shrink a plastic film around the product. This creates a tightly sealed package that is less vulnerable to damage and tampering. This machine is ideal for packaging food products, board games, and more.

There are several types of heat tunnels on the market. Steam tunnels use live steam for heating, and they offer the least aggressive heat of the three types. They are also great for round and hourglass packages, which require gentle heat for even shrinkage.

Radiant tunnels use infrared radiation to heat the packaging. They are the most effective at shrinking tamper-evident seal bands and other tamper-proof materials. The machine is durable, and it can handle a high volume of products per minute. It is also easy to use and clean. It is available in a variety of sizes to accommodate different production lines. The tunnel can also be customized to fit the specific needs of the business.

Blister Pack Machines

Blister pack machines produce a hollow plastic container for pharmaceuticals. They use thermoforming processes to create the package’s final shape, which include pressure forming and vacuum forming. The plastic sheet is first guided through a preheating station, which heats it slightly above the glass transition temperature. This softens the plastic and allows it to be shaped by a die that imprints its desired profile.

Once the formed blisters have been printed with batch numbers, dates, and other important information, they are sealed together using a special foil-seal coating. This binds the blister to the aluminum foil, creating an airtight seal.

The C80R is a high-performance machine with a compact design. It is ideal for small-to-medium production batches, and it can be used in conjunction with cartoners or wallet machines. It also offers several benefits, including a balcony-style configuration that improves accessibility for the operator. It also works with most types of blister and foil materials, including PVC, PP, and Aclar.

Folding Machines

Folding machines work by using a series of rollers to process a sheet of paper. There are two types of folding machines: flat pile and continuous feed. The first type uses a flat feeder that puts individual sheets on the machine’s table, and the second uses a belt or a table with air-controlled suction wheels to transport them through the process.

Unlike bending, metal folding has high precision and accuracy because the machine’s clamping axis is referenced against CNC-controlled backstops nested in the support table. The iconic swing-beam folding arm then bends the flange to the desired angle with flat tooling, which prevents scratching or sliding on the workpiece.

A programmable folding machine can help you save money by reducing your postage costs and allowing your team to work more efficiently. It can also make it easier to organize your company’s mail and documents, and eliminate conference room letter parties. This type of equipment is ideal for large-scale mailings.

You can also read – how packaging machinery can save your business time and money.

Clear Aligners Market: 3D & CAD Improve Treatment Efficacy

According to WHO Global Oral Health Status Report 2022, oral diseases affect around 3.5 billion individuals globally. Periodontal disease is one such condition affecting approximately 19% of the global population, resulting in tooth fallout on several occasions. Further, as per the National Center for Biotechnology (NCBI), around 93% of adolescents between 12-18 are diagnosed with malocclusion, which refers to developmental abnormalities of teeth. This high prevalence of dental conditions has influenced dentists to adopt advanced solutions, including invisible aligners. Triton’s estimates suggest the global clear aligners market will advance with a CAGR of 29.3% during the forecast period 2023-2030.

While both braces and clear aligners treat malocclusion, the latter technology has gained prominence owing to shorter treatment duration as well as convenience over braces. In recent years align procedures have gained prominence, with clear correct aligners popular among young adults and teenagers due to superior comfort and aesthetic appeal.

While aesthetic appeal has been an attractive marketing strategy, players are expanding their footing with the help of cutting-edge technologies.

CAD/CAM Technology: Innovation Shapes Clear Aligner Treatments

Computer-aided design (CAD) and computer-aided manufacturing have enabled dentists to accomplish complex treatments faster and more accurately. The technology constructs dental veneers, crowns, inlays, aligners, etc., more precisely than traditional methods. Over the recent years, CAD/CAM technology has enabled dental specialists to provide aesthetically pleasing options with decreased side effects and long-lasting restorations. This growing prominence led Align Technology, a medical device company manufacturing the Invisalign system of clear aligners and CAD/CAM software, to establish ‘Align Innovation Center (AIC)’ in Hyderabad, India.

Developed through CAD-CAM technology and thermoformed plastic materials, customized clear correct aligners have gained popularity among teens seeking to improve their appearance while avoiding metal braces. In this regard, the launch of Invisalign Teen has enabled dentists to enhance an individual’s profile by developing the lower jaw. As per industry sources, around 1 million teenagers have opted for clear aligners over braces, especially in North America and Asia-Pacific.

Aesthetic Aligners with 3D Printing and Imaging

According to WHO, malocclusion is the third most prevalent dental condition globally, following dental caries and periodontal disease. Given the high prevalence, clear aligners supported by advanced 3D technology have proven effective in treating crooked teeth, overbites, cross bites, etc. As per the American Journal of Orthodontics and Dentofacial Orthopedics, dental procedures prefer digital workflow with 3D printers to reduce treatment time and improve outcomes. Besides, estimates suggest that more than 20% of patients are willing to pay more to reduce treatment time.

Given the rising benefits of 3D systems, Align Technology introduced a 3D treatment plan, ‘ClinCheck Treatment Plan,’ that designs custom-made Invisalign aligners based on the patient’s teeth X-rays and impressions. Further, on April 20, 2023, LuxCreo, a 3D printing clear dental appliances specialist, launched an FDA Class II 510(k) cleared end-to-end solution for dentists and orthodontists. This approach enables professionals to deliver aligners via oral scan in less than 2 hours. Such innovations are thus expected to widen the scope of the clear aligners market over the forecast period.

Dental Tourism & Teledentistry Expands Application Prospects  

Dental treatment has emerged as a prominent medical tourism segment in recent years. Low-cost cosmetic dental treatments in emerging economies like Mexico, India, South Korea, etc., back this growing trend. For instance, estimates indicate the cost of smile designing in the US is around $8000, whereas it is about $1000 in India. The rising virtual patient consultations or teledentistry has also boosted online (e-commerce) and offline (direct-to-consumer) sales of dental accessories like invisible aligners. Therefore, in retrospect, the growing need for low-cost and low turnaround time in dental treatments opens avenues for the clear aligners market.

Clear Aligners Market Size Worth $32.3 Billion By 2030

Clear Aligners Market Growth & Trends The global clear aligners market size is expected to reach USD 32.3 billion by 2030, according to a new report by Grand View Research, Inc., registering a CAGR of 30.08% over the forecast period. Clear Aligners are invisible and discreet braces developed from thermoformed materials like copolyester or polycarbonate plastic and CAD 3D printing technology,…

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