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TotalEnergies Corbion
Gorinchem, Netherlands
A
51-100 Employees
2017
Key takeaway
TotalEnergies Corbion is a leader in Polylactide (PLA), a biobased, recyclable, and biodegradable polymer that significantly reduces carbon footprints compared to traditional plastics. Their Luminy® PLA bioplastics are designed to meet the growing sustainability and performance demands of brand owners.
Reference
Core business
TotalEnergies Corbion
CEDAP
-
51-100 Employees
-
Key takeaway
CEDAP specializes in sheet extrusion for the packaging industry and transforms various polymers, including Polylactic Acid (PLA), highlighting its commitment to sustainable development and the circular economy. As a market leader in food-contact polystyrene sheeting, CEDAP also focuses on developing innovative solutions that meet stringent quality and safety standards.
Reference
Product
Polylactic Acid - CEDAP
Syntex America
-
1-10 Employees
-
Key takeaway
Syntex specializes in sourcing and providing integrated solutions, highlighting their commitment to biodegradable and compostable products, including Polylactic Acid (PLA). This focus on environmentally friendly materials aligns with their goal of reducing CO2 emissions and offering sustainable alternatives to traditional wood.
Reference
Product
PLA – Polylatic Acid – Syntex America
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Bezwada Biomedical, LLC
Hillsborough Township, United States
B
1-10 Employees
2003
Key takeaway
Bezwada Biomedical specializes in bioabsorbable polymers like PLGA, which are utilized in various medical applications including tissue adhesives, drug delivery systems, and regenerative medicine. They emphasize their innovative approach to developing advanced materials that offer superior properties for diverse medical uses.
Reference
Product
PLGA & Beyond PLGA - Bezwada Biomedical
Filafarm
Berlin, Germany
A
1-10 Employees
-
Key takeaway
Filafarm offers PLA (Polylactide), which is composed of over 95% organic materials like cornflour, making it an eco-friendly option for 3D printing. This material is ideal for creating architectural models, prototypes, and consumer prints, highlighting its versatility and sustainability.
Reference
Product
PLA — Filafarm
PLA (Polylactide) is composed by 95% of organic materials such as cornflour and other cereals and is also knowns as an organic plastic. Our PLA is easy is suitable for architecture models, prototypes and cosumerprints. We reconomme to cool PLA active while printing.
Polylabs
Riga, Latvia
A
1-10 Employees
2012
Key takeaway
Polylabs specializes in the production of innovative bio polyols derived from renewable sources, emphasizing their commitment to transitioning from fossil to sustainable materials in the polyurethane industry. Their bio-based polyols offer enhanced compatibility and increased renewable bio carbon content, addressing market needs for greener product options.
Reference
Core business
Polylabs – BIO based polyols for the polyurethane industry
Corbion
Amsterdam, Netherlands
A
1001-5000 Employees
1919
Key takeaway
Corbion is a leader in lactic acid and its derivatives, which are crucial for the production of polylactide, a biodegradable plastic. Their PURASORB® polymers, derived from lactide, offer innovative solutions for applications like controlled drug delivery and biodegradable medical devices.
Reference
Product
Bioresorbable polymer portfolio | Corbion
Swicofil AG - Initiator innovator and mediator of materials and solutions in yarns and fibers.
Emmen, Switzerland
A
1-10 Employees
1995
Key takeaway
The company highlights its extensive experience in the field and introduces Polylactic Acid (PLA), which is relevant to the query about polylactide.
Reference
Product
Polylactic Acid PLA - Introduction
Futerro
Celles, Belgium
A
1-10 Employees
2007
Key takeaway
FUTERRO S.A. is a leading producer of Poly-Lactic Acid (PLA), having developed this bioplastic since 1992. The company emphasizes its extensive experience and capacity to produce high-quality PLA, supporting innovation and sustainability in the bioplastics market.
Reference
Core business
Futerro PLA leader in the bioplastics market | Futerro
Discover the history of Futerro, a company established in Belgium since 1992 and specialized in lactic acid and poly-lactic acid (PLA).
Distri3D
Lespinasse, France
A
1-10 Employees
-
Key takeaway
DISTRI3D provides 3D printing equipment and consumables, highlighting that PLA (polylactide) is a thermoplastic derived from plant starches, making it a biodegradable option under the right conditions.
Reference
Product
Awaiting validation by our teams !
Le PLA (acide polyacétique complet) est un thermoplastique extrudé à partir de l'amidon de plantes, comme le maïs, le manioc, la canne à sucre, les céréales ou la betterave à sucre. En ce qui concerne les ressources biologiques, ce type de thermoplastique peut être biodégradable dans les bonnes conditions (comme un tas
Technologies which have been searched by others and may be interesting for you:
Polylactide, often referred to as PLA, is a biodegradable and bioactive thermoplastic made from renewable resources like corn starch or sugarcane. This polymer is widely recognized for its environmentally friendly characteristics, making it a popular choice in various applications, including packaging, disposable tableware, and 3D printing. PLA exhibits good mechanical properties along with a relatively low melting point, which allows for easy processing. It is also known for its clarity and gloss, making it suitable for applications requiring transparency. Additionally, the compostability of polylactide under industrial composting conditions enhances its appeal in the sustainability-conscious market.
Polylactide is produced through a process called polymerization, which involves converting lactic acid into a high-molecular-weight polymer. Lactic acid is derived from renewable resources such as corn or sugarcane through fermentation. The production process typically begins with the fermentation of carbohydrates to produce lactic acid. Once the lactic acid is obtained, it can undergo either direct condensation polymerization or ring-opening polymerization to form polylactide. In direct condensation, two lactic acid molecules are combined, releasing water and forming a polymer chain. Alternatively, in ring-opening polymerization, lactide, a cyclic dimer of lactic acid, is first formed and then polymerized into polylactide using catalysts. This sustainable production method makes polylactide an attractive option for various applications, including biodegradable plastics and medical devices.
Polylactide, a biodegradable and bioactive thermoplastic, finds extensive applications across various industries. In the packaging sector, it is used to create sustainable alternatives to traditional plastics, offering an eco-friendly option for food containers and films. In the medical field, polylactide is utilized for sutures, drug delivery devices, and tissue engineering scaffolds due to its biocompatibility and ability to degrade safely within the body. Additionally, it is employed in 3D printing, providing a material that is both versatile and environmentally friendly, catering to the growing demand for sustainable manufacturing practices.
Polylactide, commonly known as PLA, is a biodegradable polymer derived from renewable resources like corn starch or sugarcane. It decomposes under specific conditions, such as in industrial composting environments where heat and moisture are controlled. The biodegradation process can take several months to a few years, depending on the environmental factors and the PLA's formulation. This characteristic makes polylactide a popular choice for sustainable materials in packaging and various applications, aligning with eco-friendly practices.
1. Biodegradability
Polylactide is known for its environmentally friendly properties. It is biodegradable, breaking down into natural substances, which reduces plastic waste in landfills and oceans.
2. Versatility
This polymer is highly versatile, making it suitable for various applications. It can be used in packaging, textiles, and even medical devices due to its ability to be processed in different ways.
3. Renewable Resources
Polylactide is derived from renewable resources like corn starch or sugarcane. This feature decreases reliance on fossil fuels and promotes sustainable practices in manufacturing.
4. Strong Mechanical Properties
The material exhibits good strength and stiffness, comparable to traditional plastics, making it an effective alternative without compromising performance.
5. Low Toxicity
Polylactide is non-toxic and safe for food contact applications. Its low toxicity level enhances its appeal in consumer products, especially in the food and beverage industry.
Some interesting numbers and facts about your company results for Polylactide
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 6895 |
| Amount of suitable service providers | 4303 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 1919 |
| Youngest suiting company | 2017 |
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Some interesting questions that has been asked about the results you have just received for Polylactide
What are related technologies to Polylactide?
Based on our calculations related technologies to Polylactide are Glass, Superconductors, High-Performance Materials, Raw Materials, Phase Change Materials
Which industries are mostly working on Polylactide?
The most represented industries which are working in Polylactide are Plastics, Other, Packaging, Chemicals, Medical
How does ensun find these Polylactide 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.