The B2B platform for the best purchasing descision. Identify and compare relevant B2B manufacturers, suppliers and retailers
Filter
Locations
Result types
Type of company
Select company type
Industries
Select industry
Company status
Select company status preset
Number of employees
Min.
Max.
Founding year
Lock keywords
Exclude keywords
Optional keywords
Berlin, Germany
1-10 Employees
Filafarm CarboPrint ist eine Dauerdruckplatte für den 3D-Druck von ABS, PLA, PETG und vielen anderen Filamenten. FilaFarm EpoPrint ist eine Dauerdruckplatte für den 3D-Druck von ABS, PLA und vielen anderen Filamenten. Filafarm Switch ist ein Druckbett Wechselsystem für 3D-Drucker (Fused Deposit Modeling). Filafarm PLA (Polylactide) besteht zu über 95% aus organischen Materialien wie z.B. Filafarm ABS (Acrylnitril-Butadien-Styrol) ist ein häufig verwendetes technisches Filament und wird z.B. Filafarm CarboTec+ ist ein, mit Kohlenstofffasern versetztes, Nylon in Industriequalität und bietet ein sehr hohe Widerstandfähigeit ggü. Bei Filafarm "Goldig" PLA (Polylactide) haben wir großen Wert auf einen realistischen Goldlook gelegt. Kommt in Osterstimmung und bringt Farbe in eure 3D-Druckprojekte mit TruePLA von Filafarm!
+
Featured
Goldig (Polylactide)
... Bei Filafarm "Goldig" PLA (Polylactide) haben wir großen Wert auf einen realistischen Goldlook gelegt. Das Filament besticht durch einen authentischen gelb-goldenen Schimmereffekt je nach Lichteinfall. Unsere "Goldig" - Reihe besteht ausschließlich aus reinen Rohstoffen und hochwertigen ...
Berlin, Germany
11-50 Employees
Angeboten werden technische Kunststoffe in verschiedenen Qualitäten, die komplette Palette der Glasfaserprodukte, Füllstoffe wie Talkum und Kreide, Farb-, Schwarz-, Weiß- und Additivmasterbatches sowie Folien zum Tiefziehen. Die JEC World ist eine der weltweit führenden Fachmessen der Verbundwerkstoffindustrie. Mai 2024 Die KUTENO ist die effiziente Zuliefermesse für die gesamte Prozesskette der kunststoffverarbeitenden Industrie.
+
Featured
Folien zum Tiefziehen | ECTA Handelsgesellschaft mbH
... POLYLACTIDE – ...
Ansonia, United States
501-1000 Employees
1840
FARREL POMINI is a global leader in the research, design and manufacture of compounding systems for the polymer processing industry, specializing in highly filled and temperature sensitive applications. Our machine reliability and efficiency are widely recognized for providing long machine life, low operating costs and an excellent return on investment. Demonstrated at our facility and delivered at yours. FARREL POMINI designs, manufactures and supports world-class continuous compounding solutions for highly filled, temperature sensitive applications. Our unique continuous mixers offer superior energy & maintenance efficiencies, productivity, and accelerated return on investment. Our commitment to supporting your success through innovative and customized machine design, project engineering, process optimization and global service expertise. With our process experts’ knowledge and years of experience, we can help you address the significant processing challenges associated with compounding:.
+
Featured
FARREL POMINI publishes follow-up white paper on processing polylactide (PLA)
... FARREL POMINI has completed a second research study on processing Ingeo™ polylactide (PLA) with Farrel Continuous Mixing Technology. The original study, conducted in 2018, compared the results of processing PLA compounds with various levels of talc mineral filler utilizing the FARREL POMINI.. ...
Hamilton, Canada
11-50 Employees
3D Printing Canada/USA is a leading provider of high-quality 3D printers and filaments in Canada and the USA. We offer a wide range of services related to both professional and home-based 3D printers' maintenance, supplies, and training. Our team of experts is dedicated to providing personalized, efficient, and reliable services to meet the diverse needs of businesses and individuals alike. As part of our commitment to carrying the most variety of products, we offer a wide selection of printing materials and colours, including ABS, Nylon, PLA, and fiber-reinforced plastics. 3D Printing Canada is a subsidiary of N3 Technologies Inc., an industrial design company with expertise in aerospace, automotive, and power generation.
+
Featured
Pacific Blue - Filament PLA Spectre 1.75mm - 1 kg – 3D Printing Canada
... Impression 3D esthétique, biodégradable et fiable Spectrum PLA Premium est un filament à base de polylactide qui appartient aux polymères aliphatiques. Il montre une biodégradabilité totale. Des concentrés de couleurs soigneusement sélectionnés fournissent aux articles fabriqués en ...
Switzerland
1-10 Employees
All of our products are compatible with each other.
+
Featured
ANT SHACK - Formicarium and Ant Farm Kit Shop | Aztec Temple Decoration
... ~ 3 inchs (7.5 cm) The objects are made of polylactide (PLA), a plastic obtained from renewable sources ( ...
Sydney, Australia
11-50 Employees
Our product catalog is curated to include only eco-friendly packaging. These versatile, eco-friendly cups not only reduce your environmental footprint but also provide an excellent platform for your brand's message and logo.
+
Featured
10oz ECO Single Wall (White) Coffee Cups – Keeo
... PLA (Polylactide) is derived from renewable resources such as ...
Lingfield, United Kingdom
1-10 Employees
Evashred Shredders are only a small selection of the type of work which we do. We are fully qualified to incorporate electrics, hydraulics and pneumatics into our products. Evashred manufactures industrial-strength shredding machines able to shred most solid waste products. See our products in action in our video gallery. Evans & Sons manufacture the Evashred range of mobile and stationary shredders and accessories. We also offer full engineering services including computer aided design & CNC Machining. Some of the projects we have worked on in the past have included the manufacture of foot bridges, Locomotive inspection platforms, Logging equipment, automotive turntables for cars and trucks, truck chassis modifications, manufacture and supply of specialized trailer units and more. All our work features unique and innovative thinking.
+
Featured
EV140E Plastic Product Shredding - Mobile & Stationary Shredders | Evashred UK
... Polyethylene (HDPE) Polyvinyl Chloride (PVC) Low-Density Polyethylene (LDPE) Polypropylene (PP) Polystyrene or Styrofoam (PS) and miscellaneous plastics (includes: polycarbonate, polylactide, acrylic, acrylonitrile butadiene, styrene, fiberglass, and nylon) but not thick heavy purgings. ...
North Huron, Canada
11-50 Employees
1987
With it′s unique physical properties, EVLON® is the ideal, environmentally friendly alternative for packaged goods, bakery, confectionery, fresh produce, meats, poultry and flower wrap. Q: Is the Thermal Stability better than other pla films? This is the most common variety in the United States, with more than 80% of the crop grown to feed animals. A: Evlon plastic offers more end-of-life options than any other material. It offers the properties you want in a transparent film like excellent deadfold, high clarity, gloss, flavour and aroma barrier and high stiffness.
+
Featured
EVLON® Compostable Film ⋆ BI-AX International Inc: Compostable packaging film
... EVLON® compostable packaging film is manufactured by BI-AX International from NatureWorks® PLA (Polylactide). ...
Birmingham, United Kingdom
1-10 Employees
2013
We are a UK based specialist medical device distributer with over a decade of commitment to providing innovative technologies to healthcare sector. Our goal is to provide a portfolio of innovative products backed by clinical data to specialists offering breast reconstruction, hernia repair and wound care to effectively improve patient outcomes. All our products are provided at a competitive price so that all patients can have equal access to their benefits. We aim to provide life changing products at competitive prices supported by the best possible customer service. Whether you’re seeking detailed information about our products or have specific question that need addressing, we’re here to help! Superior quality products, exceptional customer service combined with industry leading technology to maximise the quality of life of all patients. Raise Healthcare is a renowned medical device specialist with a decade of experience and proven performance in delivering high-quality surgical technology to the UK public and private healthcare sectors. The products that we bring to the UK healthcare sector are guided by innovation and inspired by compassion.
+
Featured
Merineum - Raise Healthcare
... MERINEUM™ MESH Polypropylene/ Polylactide-Caprolactone Mesh Tissue Separating Dual Layer Mesh for Ventral Hernia Repair 4 Unique Features Multiple Benefits Blue Lines Improved visibility Ease of mesh distinguish during laparoscopy Ease of mesh orientation Well Proportioned Drainage Hole ...
Vadodara, India
51-100 Employees
2017
Elevate your products with our innovative technologies, ensuring excellence in biocompatibility and performance. Our broad product range caters to an array of industries, including pharmaceuticals, medical devices, tissue engineering, and cosmetic products. We collaborate with leading researchers and industry experts to develop customized solutions for their specific requirements. Nomisma Healthcare is a world-leading bioresorbable polymers manufacturer, headquartered in India. With a strong focus on innovation and extensive product expertise, we proudly serve pharmaceutical companies, medical device industries, tissue engineering, cosmetic products, and research institutes with cutting-edge solutions. We specialize in providing high-quality bioresorbable polymers tailored for long-acting injectable formulations and state-of-the-art medical implants.
+
Featured
PLGA, PLA - Nomisma Healthcare Pvt. Ltd.
... PLGA (Poly(lactide-co-glycolide), PLA (Polylactide), and PEG-PLGA Block polymers are some of them. ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Polylactide
| Country with most fitting companies | United Kingdom |
| Amount of fitting manufacturers | 20 |
| Amount of suitable service providers | 16 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1840 |
| Youngest suiting company | 2017 |
20%
40%
60%
80%
Polylactide, commonly known as PLA, is a biodegradable and bioactive thermoplastic aliphatic polyester derived from renewable resources, such as corn starch or sugarcane. This eco-friendly material is produced through the polymerization of lactic acid, which is obtained by fermenting the sugars present in the renewable resources. One of the key characteristics of PLA is its ability to decompose into water and carbon dioxide under industrial composting conditions, which significantly reduces its impact on the environment compared to conventional plastics. In its respective field, PLA has emerged as a pivotal material, especially in the packaging industry, where its use as an alternative to petrochemical-derived products has gained substantial traction. Moreover, due to its biocompatibility, PLA has found extensive applications in the medical field, including as a material for biodegradable medical implants and as a vehicle for drug delivery systems. Its versatility also extends to the textile industry, where it is used to produce eco-friendly fabrics. The growing demand for sustainable and environmentally friendly products has positioned PLA as a significant player in the push towards green materials, underscoring its importance in driving innovation and sustainability across various sectors.
1. Eco-Friendliness
Polylactide, commonly known as PLA, stands out for its biodegradability. Unlike petroleum-based plastics, PLA is derived from renewable resources like corn starch or sugar cane, making it an environmentally friendly alternative. This feature significantly reduces the carbon footprint and contributes to a more sustainable future.
2. Biocompatibility
One of the notable advantages of PLA is its biocompatibility, making it ideal for medical applications. From surgical implants to drug delivery systems, PLA's compatibility with human tissue simplifies procedures and minimizes the risk of adverse reactions, enhancing patient safety and comfort.
3. Energy Efficiency
The production process of PLA consumes less energy compared to conventional plastics. This efficiency not only results in lower production costs but also contributes to the reduction of greenhouse gas emissions, aligning with global efforts to combat climate change.
4. Versatility
PLA's versatility is another key benefit. It can be easily processed using existing manufacturing equipment, enabling a wide range of applications from packaging materials to disposable cutlery. This adaptability allows industries to seamlessly incorporate PLA into their product lines without significant additional investment.
1. Production Capacity
Ensure the supplier can meet your quantity demands without compromising quality. High production capacity is a sign of a reliable supplier.
2. Quality Certifications
Look for suppliers with recognized quality certifications like ISO. These certifications are evidence of the supplier's commitment to maintaining high standards.
3. Material Purity
The purity of polylactide is critical for application performance. Verify the supplier's ability to provide material with high purity levels.
4. Sustainability Practices
Given polylactide is a biodegradable polymer, evaluate the supplier's sustainability and environmental protection measures.
5. Cost Effectiveness
While quality is paramount, consider the cost-effectiveness of the supplier's offerings to ensure they align with your budget constraints.
6. Supply Chain Reliability
Assess the supplier's supply chain for reliability and the ability to deliver on time, which is crucial for maintaining your production schedule.
Polylactide, commonly known as PLA, is a biodegradable polymer that has gained significant attention for its eco-friendly properties. In the packaging industry, PLA is widely used to manufacture biodegradable containers, cups, and films. This application is particularly relevant as businesses increasingly seek sustainable alternatives to conventional plastics, aiming to reduce their environmental footprint and meet consumer demand for green products. In the medical sector, PLA's biocompatibility makes it an excellent material for producing absorbable sutures, implants, and drug delivery systems. These PLA-based medical devices are designed to degrade harmlessly in the body over time, eliminating the need for surgical removal and reducing the risk of infection. The agriculture industry benefits from PLA through the production of biodegradable mulch films. These films are used to cover soil in a way that enhances crop growth while controlling weed proliferation. As the films degrade, they reduce the need for manual removal and disposal, thereby decreasing labor costs and environmental impact. In the 3D printing domain, PLA is a preferred material due to its ease of use, low warping, and biodegradability. It allows for the creation of prototypes, tools, and finished products with reduced environmental impact compared to traditional 3D printing materials. Together, these use cases underscore PLA's versatility across various industries, highlighting its role in promoting sustainability and efficiency.
Polylactide, commonly known as PLA, has reached a Technology Readiness Level (TRL) of 9, indicating it is fully mature and has been successfully deployed in various commercial applications. This high level of readiness stems from significant advancements in biopolymer technology, enabling the mass production of PLA through the fermentation of sugar derived from renewable resources like corn starch or sugar cane. The technical breakthroughs in polymerization processes have allowed for the production of PLA with properties that can rival or even surpass those of conventional petroleum-based plastics in specific applications. For example, PLA's biodegradability and compostability address critical environmental concerns associated with plastic waste, making it a preferred material for single-use items in food packaging and disposable cutlery. Furthermore, ongoing research has improved its heat resistance and mechanical properties, expanding its use into more demanding sectors such as automotive and biomedical. The technical hurdles of cost and performance that once limited PLA's adoption have been largely overcome through economies of scale and continuous material innovation, solidifying its status at a TRL of 9. This level reflects not only the technical maturity of PLA but also its widespread acceptance and integration into the market, demonstrating its viability as a sustainable alternative to traditional plastics.
In the short term, advancements in polylactide technology are expected to focus on improving its physical properties, such as strength and heat resistance. Researchers are actively working on enhancing the polymer's formulation to increase its applicability in a broader range of products, particularly in packaging and disposable goods. This phase is likely to see the development of new additive combinations that make polylactide more competitive with traditional plastics in terms of performance and cost. Mid-term developments are anticipated to center around sustainability and recycling processes. Efforts will be geared towards making polylactide not only biodegradable but also easier to recycle, reducing its environmental footprint. Innovations may include the introduction of more efficient and cost-effective chemical recycling methods, allowing polylactide to be broken down and repurposed more effectively. This stage is crucial for expanding polylactide's role in the circular economy and enhancing its appeal as an eco-friendly material. Looking further ahead, long-term advancements in polylactide technology are expected to revolutionize its production process, making it more sustainable and less reliant on crop-based resources. Breakthroughs might involve the synthesis of polylactide from carbon dioxide or methane, drastically reducing its carbon footprint and decoupling its production from food supply chains. Additionally, the development of genetically modified organisms for polylactide production could significantly increase yield and efficiency, positioning polylactide as a leading material in bioplastics.
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 Commerce and Shopping, Consumer Goods, Others, Health Care, Manufacturing
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.
