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Top Polylactic Acid Companies

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60 companies for Polylactic Acid

CEDAP's Logo

CEDAP

-

51-100 Employees

-

Key takeaway

CEDAP specializes in sheet extrusion for the packaging industry and transforms a variety of polymers, including Polylactic Acid (PLA). Their commitment to sustainable development and the circular economy underscores their focus on creating innovative and efficient packaging solutions.

Reference

Product

Polylactic Acid - CEDAP

TotalEnergies Corbion's Logo

TotalEnergies Corbion

Gorinchem, Netherlands

A

51-100 Employees

2017

Key takeaway

TotalEnergies Corbion is a global leader in Polylactic Acid (PLA) bioplastics, which are biobased, recyclable, and biodegradable, making them a sustainable alternative to traditional plastics. Their Luminy® PLA products are designed to meet the growing demand for environmentally friendly materials.

Reference

Core business

TotalEnergies Corbion

Nomisma Healthcare PVT. LTD.'s Logo

Nomisma Healthcare PVT. LTD.

Vadodara, India

D

51-100 Employees

2017

Key takeaway

Nomisma Healthcare specializes in high-quality bioresorbable polymers, including Polylactic Acid (PLA), catering to industries such as pharmaceuticals and medical devices. Their innovative technologies and collaboration with researchers ensure customized solutions that enhance product performance and biocompatibility.

Reference

Core business

PLGA, PLA - Nomisma Healthcare Pvt. Ltd.

PLGA (Poly(lactide-co-glycolide), PLA (Polylactide), and PEG-PLGA Block polymers are some of them. that

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Filafarm's Logo

Filafarm

Berlin, Germany

A

1-10 Employees

-

Key takeaway

Filafarm offers a range of products for 3D printing, including Filafarm PLA (Polylactide), which is composed of over 95% organic materials like corn flour, making it an eco-friendly choice for creating models and prototypes. Their PLA is particularly noted for its suitability in various applications and its realistic appearance.

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.

Futerro's Logo

Futerro

Celles, Belgium

A

1-10 Employees

2007

Key takeaway

FUTERRO S.A. is a leading producer of Poly-Lactic Acid (PLA), having pioneered its development since 1992. With a significant annual capacity and a commitment to enhancing PLA quality and properties, the company plays a crucial role in advancing sustainable bioplastics.

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).

Syntex America's Logo

Syntex America

-

1-10 Employees

-

Key takeaway

Syntex specializes in providing integrated solutions and has a product line that includes biodegradable and compostable materials, specifically Polylactic Acid (PLA). This focus on sustainable products highlights their commitment to reducing CO2 emissions and meeting customer needs for environmentally friendly alternatives.

Reference

Product

PLA – Polylatic Acid – Syntex America

Bezwada Biomedical, LLC's Logo

Bezwada Biomedical, LLC

Hillsborough Township, United States

B

1-10 Employees

2003

Key takeaway

Bezwada Biomedical specializes in bioabsorbable polymers, including PLA and PLA copolymers, which are utilized in various medical applications such as tissue adhesives, drug delivery systems, and regenerative medicine. Their focus on developing advanced materials for medical devices positions them as a key player in the field of biodegradable polymers.

Reference

Product

3D Printing - Bezwada Biomedical

BluCon Biotech GmbH's Logo

BluCon Biotech GmbH

Cologne, Germany

A

11-50 Employees

2017

Key takeaway

BluCon Biotech GmbH has developed an innovative fermentation process that produces L-lactic acid at low costs, making polylactic acid (PLA) commercially viable as a biodegradable alternative to fossil fuel-based plastics. This technology has the potential to significantly reduce nondegradable plastic waste.

Reference

Core business

NEXT BIOPLASTICS COMMERCIALLY VIABLE BIOBASED AND BIODEGRADABLE PLASTIC!

BluCon Biotech GmbH provides a unique technology by which L-lactic acid can be produced at lowest possible production costs. This will enable the bioplastic PLA (poly lactic acid) to become commercially competitive to fossil fuel based plastics and convert millions of tons of nondegradable plastic waste into biodegradable, environmentally friendly products.

Distri3D's Logo

Distri3D

Lespinasse, France

A

1-10 Employees

-

Key takeaway

Polylactic Acid (PLA) is a biodegradable thermoplastic derived from plant starches like corn and sugarcane, making it an environmentally friendly option in 3D printing.

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

Polylabs's Logo

Polylabs

Riga, Latvia

A

1-10 Employees

2012

Key takeaway

Polylabs is a leading chemical production company that focuses on creating innovative bio polyols from renewable sources, which could be relevant to the production of sustainable materials like polylactic acid. Their commitment to replacing fossil materials with bio-based alternatives in the polyurethane industry highlights their role in advancing eco-friendly chemical solutions.

Reference

Core business

Polylabs – BIO based polyols for the polyurethane industry


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Things to know about Polylactic Acid

What is Polylactic Acid?

Polylactic Acid (PLA) is a biodegradable polymer derived from renewable resources like corn starch or sugarcane. Known for its eco-friendly properties, PLA is widely utilized in various applications, including packaging, disposable tableware, and 3D printing. Its production involves fermentation and polymerization processes that convert natural sugars into lactic acid, which is then transformed into PLA. PLA is favored for its ability to decompose under industrial composting conditions, making it a sustainable alternative to traditional plastics. Additionally, it exhibits good mechanical properties and can be processed using standard plastic manufacturing techniques, further enhancing its appeal in the materials market.


How is Polylactic Acid produced?

Polylactic Acid (PLA) is produced through a process that typically begins with the fermentation of renewable resources, such as corn starch or sugarcane. This fermentation process converts the sugars into lactic acid, which is the primary building block for PLA. After obtaining lactic acid, it undergoes a polymerization process. This involves either direct condensation or ring-opening polymerization methods to produce the long-chain polymer known as polylactic acid. The resulting PLA can be further processed into various forms, making it a versatile material for applications in packaging, textiles, and biodegradable products.


What are the applications of Polylactic Acid?

Polylactic Acid (PLA) is widely used across various industries due to its biodegradable properties and versatility. In the packaging sector, it serves as an eco-friendly alternative to traditional plastics, making it suitable for food containers, bags, and films. Additionally, PLA finds applications in the textile industry, where it is used to create fibers for clothing and upholstery, promoting sustainable fashion. In the medical field, PLA is utilized for producing biodegradable sutures, implants, and drug delivery systems, benefiting patient care by reducing the need for surgical removal. Moreover, its use in 3D printing has gained traction, allowing for the creation of intricate designs in prototyping and manufacturing. Overall, the diverse applications of PLA highlight its importance in promoting sustainability and innovation across multiple sectors.


Is Polylactic Acid biodegradable?

Polylactic Acid (PLA) is indeed biodegradable. This thermoplastic is derived from renewable resources, primarily corn starch or sugarcane. Under the right conditions, such as in industrial composting facilities, PLA can break down into natural materials, including carbon dioxide and water, within a few months. However, it may not degrade as effectively in home composting setups or in the natural environment without specific conditions, such as temperature and moisture levels. Thus, while PLA offers a more sustainable alternative to traditional plastics, its biodegradability is contingent upon the environmental circumstances it encounters.


What are the environmental benefits of using Polylactic Acid?

Polylactic Acid (PLA) offers significant environmental benefits that make it an attractive alternative to traditional plastics. One key advantage is that PLA is derived from renewable resources, such as corn starch or sugarcane, which reduces dependency on fossil fuels. The production process of PLA emits lower greenhouse gases compared to petroleum-based plastics, contributing to a smaller carbon footprint. Additionally, PLA is biodegradable under industrial composting conditions, breaking down into natural substances over a relatively short period. This feature helps reduce the accumulation of plastic waste in landfills and oceans, addressing the growing concern over plastic pollution. By utilizing PLA, businesses can enhance their sustainability efforts and appeal to environmentally conscious consumers.


Insights about the Polylactic Acid results above

Some interesting numbers and facts about your company results for Polylactic Acid

Country with most fitting companiesUnited States
Amount of fitting manufacturers5344
Amount of suitable service providers3503
Average amount of employees1-10
Oldest suiting company2003
Youngest suiting company2017

Geographic distribution of results





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Frequently asked questions (FAQ) about Polylactic Acid Companies

Some interesting questions that has been asked about the results you have just received for Polylactic Acid

Based on our calculations related technologies to Polylactic Acid are Glass, Superconductors, High-Performance Materials, Raw Materials, Phase Change Materials

The most represented industries which are working in Polylactic Acid are Plastics, Other, Packaging, Chemicals, Manufacturing

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Related categories of Polylactic Acid