Precision and Versatility:
"Transform Your Manufacturing with Premium Polymer Powders"
Our range of high-performance polymer powders is designed to meet the diverse demands of additive manufacturing. Engineered for exceptional flowability, durability, and precision, these powders are ideal for producing lightweight, flexible, and complex components across various industries. Whether you're creating prototypes, functional parts, or intricate designs, our polymer powders provide the perfect balance of strength and flexibility.
Biocompatible
Biocompatible plastics offer numerous advantages over metal and other materials when used for prosthetics, orthotics, medical equipment, or medical device applications. The material properties include strength, malleability, longevity, optimized performance, and chemical inertness. They provide better corrosion resistance to disinfectants than metals.
Biocompatible 3D printing material options available include TPU, PA 11, and PA 12. Products made from these plastics can meet the requirements of highly regulated industries and can be CE-certified.
Ductile
High-performance polyamide 11 (PA 11) is made from 100% renewable castor beans. This plastic material, also known as nylon, is chemically and mechanically heat-resistant and is ideally suited for highly technical applications due to its durability. Materials of this class are an efficient, impact-resistant alternative to plastics like ABS or PA6, which have proven their value in injection molding. The additively manufactured end products are just as strong, flexible, and durable as molded parts.
Flame Retardant
Flame retardant plastics are well suited for demanding applications that require heat resistance, or must be non-flammable and self-extinguishing.
Flame retardant 3D printing material options include PA 11 and PA 12. Products made from these plastics can meet the requirements of highly regulated industries like aerospace, electrical and electronics equipment, as well as the mobility industry.
Flexible
Materials of the TPE polymer class have similar properties to elastomers, meaning they are flexible at room temperature but still remain dimensionally stable. When heated, they can be plastically deformed and processed like thermoplastics. Since they are easy to process, they can be used to replace cross-linked elastomers and soft PVC.
High Performance
Materials in this family of polymers are chemical compounds with ether and ketone groups. Compared to other plastics, they have very high glass transition and melting temperatures, which is why they are used in high-temperature applications.
PAEK materials are semi-crystalline aromatic polyetherketones with excellent mechanical properties even at high temperatures. They permit continuous operating temperatures of up to 260°C. They are flame-retardant and have high chemical resistance, hydrolysis resistance, high stiffness and strength, as well as very good tribological properties.
Multipurpose
Polyamide 12 (PA 12), also known as nylon, is the most tested material for additive manufacturing on the market. Parts made from nylon are robust, stable for long periods of time, chemically resistant, and extremely versatile. Materials based on polyamide 12 are a high-performance alternative to plastics like ABS or PA6, which have proven their value in injection molding. The additively manufactured end products are just as strong, flexible, and durable as injection-molded parts.