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Torridge District, United Kingdom
1-10 Employees
With a focus on researching new products and technologies, IFG’s mission is not only to continually enhance the performance characteristics of our fibres, but to bring forward a new era of more environmental and sustainable performance fibre solutions.
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Featured
Polylactic Acid (PLA) Fibres
... Polylactic Acid (PLA) Fibres - IFG - International Fibres ...
Chorley, United Kingdom
11-50 Employees
2016
At 3DGBIRE we aim to provide a 360 degree service, we don’t just supply the most innovative 3DGBIRE certified Additive Manufacturing equipment we offer personalised consultations, training, technical support and even a print bureau service, to enable you and your business to get the most from these groundbreaking technologies. We believe that the key to the successful adoption of 3D printing is dependent on the integration of machines, materials, software, workforce training, technical support and in depth consultation to harness the knowledge of our many industry experts to develop the correct solution for your business. You can always count on our team to help in any way possible and constantly have a big smile on our face! We are committed to our ‘Customer First’ strategy as we always strive to find solutions even when they’re difficult to attain or require out of the box thinking to implement. Everyone who works here at 3DGBIRE has an essential role to our company, our customers expect to have a safe and reliable product.
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Filamentive rPLA Dark Blue | 2.85mm | 2.3kg | 3DGBIRE Ltd
... UNRIVALLED QUALITY Short for polylactic acid, PLA is a bioplastic derived from ...
Odessa, United States
11-50 Employees
2015
Buy now, pay later with Affirm, QuickSpark and other great financing options. click here to learn more! close. FREE, FAST Shipping on orders over $75 in the U.S. (some restrictions may apply). While supplies last, huge savings on 3D printers, laser cutters, premium resins, open box machines and more. Easy to use, smart, powerful and fast cutting machines for home, business and school. In Stock Now - Ready for immediate shipping, Printer, Resins, Curing and Mixing Systems.
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KVP - Performance PLA - Red | Ultimate 3D Printing Store
... Performance Polylactic Acid (PLA) filament is the most common 3D printing material used in the 3D printing industry today. The premium bioplastic product is made from renewable natural resources and is biodegradable. This blend is made with a high heat, high impact grade of PLA developed for ...
Erbil, Iraq
251-500 Employees
1997
To establish Silkor as the trusted international leader in high quality, personalized, luxury laser medico-aesthetic, cosmetic & plastic surgery and skin care treatments. Established in Beirut Lebanon in 1997, Silkor is an industry pioneer and the Middle East and North Africa (MENA) region’s leading chain of Laser Hair Removal, Skin Care Treatments, Slimming Solutions, Medico-Aesthetic Services and Cosmetic & Plastic surgery.
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At Silkor, our Dermatologists use the best resorbable polylactic acid sutures.
... At Silkor, our Dermatologists use the best resorbable polylactic acid sutures. ...
Emmen, Switzerland
1-10 Employees
1995
We have over 40 years of experience and we are still as passionate about yarn and fibres today, as we were on day one. Dive into the world of Swicofil and convince yourself.
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Featured
Polylactic Acid PLA
... GRADES OF POLYLACTIC ACID ...
Zunhua City, China
1-10 Employees
2018
Normally, our products are packed with poly bag, woven bag and carton. MOQ varies for different product, some products have no request on MOQ. Regular products are in stock, others are make to order. We can provide you the regular samples by free, but the express charges should in your side. One week for samples, 25-30 days for mass production.
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Polylactic Acid Felt
... Polylactic Acid Felt, 100% natural fiber, eco-friendly, AZO-free, anti-pilling, touch feeling, bright and various colors, antifouling function, clean ...
Leeds, United Kingdom
1-10 Employees
TechForGood is a B-Corp Certified B2B tech store with a difference, we are a social benefit supplier - we use the power of your purchase to empower inspiring individuals and businesses who make the world a better place. TechForGood was founded on the principle that technology must be both accessible and affordable, but should also be responsible. The donations TechForGood makes directly support these SDGs via our work with our Social Impact Partners. TechForGood is a B-Corp Certified, carbon-efficient technology supplier - we're not just committed to delivering the best tech products at competitive prices, but also to our planet and people. We stock over 300,000 items available for fast UK delivery directly to your business.
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Gearlab GLB251470 3D printing material Polylactic acid (PLA) Translucent 1.05 kg
... Gearlab GLB251470 3D printing material Polylactic acid (PLA) Transluce – ...
Oakland, United States
11-50 Employees
2016
Toybox makes it easy to find, design, and build, so you can have your own toy factory right at home. Technology is awesome, but also really complicated—we believe it doesn't have to be! We're empowering the next generation of young and creative minds by making cool technologies easy to use. We're passionate about building great products that make people happy. Toybox Labs HQ66 Franklin St, Suite 300Oakland, CA 94607.
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Grape Printer Food – Toybox Labs
... 1/2 lb Spool of PLA (Polylactic Acid) with a 1.75mm Diameter (Dimensional Accuracy of 0.5 mm) ...
51-100 Employees
CEDAP (Compagnie Européenne Des Applications Plastiques), is a division of SIAMP-CEDAP, and was founded in 1960 in the Principality of Monaco’s port district. CEDAP’s precision know-how makes it one of today’s market leaders in food-contact polystyrene sheeting for Form Fill Seal technology. CEDAP was the first company to develop lightweight, two-tone or multicoloured, striped and laminated polystyrene film, and is constantly developing new and increasingly efficient solutions. CEDAP was one of the first ever plastic sheeting companies. CEDAP has been transforming thermoformable materials to support the global food and dairy industry since 1960. We are committed to sustainable development and have placed the circular economy at the centre of all our R&D to ensure our materials are recycled. As specialists in sheet extrusion for the packaging industry, CEDAP transforms a range of polymers, such as Polystyrene (PS), Polylactic Acid (PLA), Polyethylene Terephthalate (PET) or Polypropylene (PP). We have over 170 employees working to design products that meet strict quality, food safety and sustainable development criteria.
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Polylactic Acid - CEDAP
... Polylactic Acid - ...
India
2021
Our VisionTo become the reliable partner for our clients and helping them escalate the corporate ladder. Our MissionTo ensure that our clients will get 100% satisfactionwith our services. As an industry intelligence and consulting firm, Constancy Researchers Private Limited provides real-time data and statistics to its clients with the purpose of assisting our clients with big and right business decisions. The quick response and lead times, as well as the flexibility and unique customer approach, were particularly appreciated.
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Global Double Wall Biodegradable Cups Market: By Material(Paper and Bio-plastics (Polylactic Acid (PLA) and Polybutylene Succinate (PBS)), By Capacity (Up to 7 oz, 8-14 oz, 15-20 oz, and Above 2o oz), By Application (Food, Beverages, Ice-cream, and Others), By End User (Food Service Outlets, Institutional, and Household), By Region (North America, Europe, Asia Pacific, Latin America, and Middle East & Africa (MEA)), (“Growth, Future Prospects, COVID-19 Impact Analysis, Drivers, Restraints, Trends
... Global Double Wall Biodegradable Cups Market: By Material(Paper and Bio-plastics (Polylactic Acid (PLA) and Polybutylene Succinate (PBS)), By Capacity (Up to 7 oz, 8-14 oz, 15-20 oz, and Above 2o oz), By Application (Food, Beverages, Ice-cream, and Others), By End User (Food Service Outlets, ...
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Some interesting numbers and facts about the results you have just received for Polylactic Acid
| Country with most fitting companies | United Kingdom |
| Amount of fitting manufacturers | 108 |
| Amount of suitable service providers | 69 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1995 |
| Youngest suiting company | 2021 |
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Polylactic Acid (PLA) is a biodegradable and bioactive thermoplastic aliphatic polyester derived from renewable resources, such as corn starch, cassava roots, chips, or starch, or sugarcane. This eco-friendly material stands out in the plastics industry due to its sustainable origin, contrasting sharply with conventional plastics that are petroleum-based. PLA is notable for its versatility and is used in a wide range of applications including packaging, disposable tableware, and biomedical devices, such as sutures, stents, dialysis media, and drug delivery devices. The degradation process of PLA is significantly more environmentally friendly compared to synthetic polymers, as it results in lactic acid, a naturally occurring substance. Moreover, PLA's unique properties, such as its biocompatibility and the ability to modify its thermal and mechanical characteristics through various processing techniques, have made it particularly valuable in the field of regenerative medicine. Its role in reducing dependency on fossil fuels and minimizing carbon footprints has positioned PLA as a key player in efforts towards sustainable manufacturing and waste management practices. The growing awareness and demand for environmentally sustainable materials have further amplified its significance, making PLA a critical material in advancing green technology and applications.
1. Eco-Friendly Nature
Polylactic Acid (PLA) stands out for its biodegradability and compostability, derived from renewable resources like corn starch or sugar cane. This makes PLA a more sustainable option compared to petroleum-based plastics, significantly reducing the carbon footprint and environmental impact.
2. Non-Toxicity
PLA is renowned for its safety, being non-toxic and free from harmful additives. This characteristic makes it ideal for packaging food products and medical supplies, where consumer health is paramount.
3. Energy Efficiency in Production
The production process of PLA consumes less energy compared to conventional plastics. This efficiency contributes to lower greenhouse gas emissions, aligning with global efforts towards more sustainable manufacturing practices.
4. Versatility and Ease of Use
With properties that can be easily modified, PLA offers versatility across various applications. Its ease of use in 3D printing and manufacturing processes further enhances its appeal as a preferred material in innovation and design projects.
While evaluating the different suppliers make sure to check the following criteria:
1. Quality Assurance
Ensure the supplier has a robust quality management system in place, with certifications like ISO to guarantee the consistency and quality of Polylactic Acid.
2. Supply Chain Transparency
Evaluate the transparency of the supplier's supply chain. This includes raw material sourcing, manufacturing processes, and sustainability practices.
3. Material Properties
Confirm the specific properties of Polylactic Acid such as biodegradability, thermal resistance, and strength meet your application requirements.
4. Customization Capabilities
Determine if the supplier can provide customized formulations of Polylactic Acid that cater to your specific needs.
5. Cost-Effectiveness
Compare pricing among suppliers while considering the total value offered, including material quality, supply reliability, and additional services.
6. Technical Support and Service
Assess the level of technical support and customer service provided. A supplier willing to offer comprehensive support is crucial for addressing any potential issues.
Polylactic Acid (PLA) has become a cornerstone material in the packaging industry, prized for its biodegradability and compostability. Businesses are increasingly adopting PLA for food packaging, where its ability to decompose into harmless natural compounds offers an eco-friendly alternative to conventional plastics. This shift aligns with growing consumer demand for sustainable products, allowing companies to reduce their environmental footprint while meeting regulatory standards for green packaging solutions. In the realm of 3D printing, PLA's versatility shines, providing a biodegradable option for prototyping and manufacturing. Its ease of use and low melting point make it ideal for creating detailed models and parts across engineering, medical, and educational sectors. Businesses leverage PLA to produce everything from custom prosthetics to architectural models, benefiting from its cost-effectiveness and minimal environmental impact compared to traditional plastic filaments. Another significant application of PLA is in the textile industry, where it's used to create biodegradable fabrics. These PLA-based textiles offer an eco-friendly alternative to synthetic fibers, appealing to fashion brands seeking to minimize their ecological footprint. The material's ability to blend with other fibers enhances its versatility, enabling the production of a wide range of sustainable clothing and accessories that cater to the growing market for environmentally conscious apparel.
Polylactic Acid (PLA) is at a high Technology Readiness Level (TRL), specifically within the range of 8 to 9, indicating its mature status in the market, with widespread commercial applications and production processes well-established. This bioplastic, derived from renewable resources like corn starch or sugar cane, has undergone extensive development and optimization over the years. Its progression to such a high TRL is primarily due to significant technical advancements in polymerization techniques, which have improved its physical properties, making PLA more durable and heat-resistant. Moreover, innovations in biotechnology have enabled more efficient fermentation processes, crucial for converting biomass into lactic acid, PLA's monomer. The scalability of these production methods has been proven, with PLA being used in a variety of products, from biodegradable packaging to medical implants. This widespread application across diverse industries underscores its technical reliability and market readiness. Additionally, the environmental benefits of PLA, such as its biodegradability and carbon-neutral life cycle, have driven its acceptance and adoption, further solidifying its high TRL status.
In the Short-Term, advancements in polylactic acid (PLA) technology are expected to focus on improving its thermal resistance and mechanical properties. Researchers are developing new additives and copolymers that enhance PLA's heat deflection temperature, making it more suitable for applications in packaging that require higher temperature resistance. This phase is also seeing efforts to increase the material's strength and flexibility, expanding its usability in the textile and automotive industries. The Mid-Term phase is likely to see a significant shift towards enhancing the sustainability aspect of PLA production. Efforts will be concentrated on optimizing the fermentation process to reduce energy consumption and increase yield from renewable resources. Innovations in genetic engineering are anticipated to produce more efficient strains of microorganisms that can convert sugars into lactic acid, the precursor to PLA, more effectively. This period will also witness the development of more sophisticated recycling techniques for PLA, aiming to improve its lifecycle analysis and reduce environmental impact. Looking into the Long-Term, the focus will be on expanding the application fields of PLA by making it a viable competitor to petroleum-based plastics in a broader range of uses. Breakthroughs in nanotechnology are expected to enable the creation of PLA composites with enhanced functionality, such as improved electrical conductivity or magnetic properties, opening up new avenues in electronics and medical devices. Additionally, research into bio-based plasticizers and cross-linking agents will further diversify PLA's applications, positioning it as a key material in the sustainable materials landscape.
Some interesting questions that has been asked about the results you have just received for Polylactic Acid
What are related technologies to Polylactic Acid?
Based on our calculations related technologies to Polylactic Acid are Glass, Superconductors, High-Performance Materials, Raw Materials, Phase Change Materials
Which industries are mostly working on Polylactic Acid?
The most represented industries which are working in Polylactic Acid are Commerce and Shopping, Manufacturing, Consumer Goods, Content and Publishing, Science and Engineering
How does ensun find these Polylactic Acid Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
