Medical Devices Industry

 

→ Medical Models
→ Medical Devices

 

Save time, cut costs and reshape the future with EnvisionTEC

EnvisionTEC’s 3D printing medical solutions combines a mixture of tested and proven innovative technology, 3D print materials, services and medical-industry experts — assisting you with clinical research, economic value and the tools needed to print medical products and test procedures at every step of the way.

Medical Devices and Models

3D printing technologies have opened up the capabilities for customization in a wide variety of applications in the medical field. Using bio-compatible and drug-contact materials, medical devices can be produced that are perfectly suited for a particular individual.

Why Envisiontec 3D Printers

By choosing EnvisionTEC, you’ll be able to explore a world of 3D printing solutions that will:

– Decrease material waste
– Eliminate of tooling
– Offer flexibility in design and manufacturing
– Cut costs, to help you become more effective and efficient
– Deliver on personalization according to patients or users selective style
– Customize manufacturing options for medical devices — such as dental implants, hearing aids, prostheses, implants and surgical instruments

The possibilities are endless with EnvisionTEC medical 3D printing solutions.

3D Printers for the Medical Devices Industry

The Perfactory 4 Standard LED Series uses a custom LED light system. This new LED system is more powerful and efficient than other light projector systems on the market. As such, it offers a variety of benefits, such as lower operating costs and crisper black-white contrast between pixels, which means even better final part detail.

The Perfactory Vida cDLM is a high-speed continuous 3D printer for the jewelry, dental and general manufacturing markets. This printer is the second offering EnvisionTEC's patented Continuous Digital Light Manufacturing technology and offers high resolution combined with blazing speeds. In addition, the technology also reduces the need for support structures during 3D builds, meaning less finishing is necessary.

The Micro Plus Hi-Res can produce small, premium components requiring a high level of precision, making it perfect for designers, shops and small jewelry businesses. It is able to build 5-6 average-sized rings in a single build with excellent detail and surface finish.

The UV Light Curing Box for ULTRA 3SP and Xtreme 3SP is a UV light flood lamp for the post-processing of UV sensitive curing resins for industrial, dental, medical, and other applications.

The largest of the Micro Plus family, the Micro Plus XL offers a build area of up to 754,900 cubic mm (46.6 cubic in.) with a resolution of 82 µm (0.003 in.). Coupled with fast build speeds and excellent surface finish, this makes the Micro Plus XL a perfect option for use in anything from an educational setting to a product designer's desktop.

The Vector 3SP provides excellent surface finish and speed with a build size of up to 30,316 cubic cm (1850 cubic in.) to produce everything from concept models to functional parts in 100 µm (0.004 in.) resolution.

The Vector Hi-Res 3SP is ideal for those who need large parts up to 30,316 cubic cm (1850 cubic in.) with a resolution of 50.8 µm (0.002 in.). High detail parts with smooth surface finishes make the Vector Hi-Res 3SP an ideal option for a wide variety of applications.

The first and only industrial thermoplastic reinforced woven composite printer on the market today, the SLCOM 1 has a build envelope of up to 762 x 610 x 610 mm (30 x 24 x 24 in.) and is ideal for aerospace, automotive, and many other applications.

The Micro Plus Advantage is a cost-effective 3D printer that is ideal for jewelers and other designers specializing in small, precise components. It is capable of building 10-12 average-sized rings in a single build.

The Desktop XL Plus provides an enlarged build area of up to 36.6 cubic inches while maintaining up to 36 µm resolution and enhanced build speeds. This makes it perfect for small to medium sized companies looking for a flexible 3D printing solution.

The P3 Mini Multi Lens is a customizable production tool capable of resolutions down to an incredible 16 microns. This high precision produces the finest detail with constant high build speeds. With a choice of three lens configurations, additional lenses can also be purchased, adding to the versatility of this 3D printer.

The P4 Standard is an ideal 3D printer for consumer products and animation applications. With resolution as low as 42 µm (0.0017 in.) and a generous build size of up to 3687 cubic cm (225 cubic in.), the P4 will be at home in any office setting.

The P4 Standard XL boasts the largest build size of EnvisionTEC's DLP 3D printers at up to 5293 cubic cm (323 cubic in.) with a resolution as low as 50 µm (0.0020 in.). This 3D printer is also capable of speeds up to 25 mm (0.98 in.) in height per hour without sacrificing exceptional surface finish.

A great manufacturing option for a wide variety of consumer and automotive applications, the ULTRA 3SP provides 100 µm (0.004 in.) resolution and a build size of up to 9013 cubic cm (550 cubic in).

The ULTRA 3SP HD provides the same excellent surface finish and speed as the original ULTRA 3SP, but adds an incredible 50 µm (0.002 in.) resolution capability to your builds.

The Xtreme 3SP's large build area and high speed make it an ideal choice for service bureau or OEM applications in automotive and aerospace. It has a resolution of 100 µm (0.004 in.), excellent surface finish, and a build area of up to 29,497 cubic cm (1800 cubic in.).

EnvisionTEC's largest 3SP option, the Xede 3SP produces excellent prototype and production parts with a build area up to 95,045 cubic cm (5800 cubic in.) and a resolution of 100 µm (0.004 in.).

The Otoflash is a light polymerization chamber for the hardening/curing of light curing resins for jewelry, dental, and otoplastic applications. Two photoflash lamps at the bottom of the curing chamber operate in a work mode with a frequency of 10 flashes per second. The photo-flash lamps produce a very intensive light radiation in a spectrum from 300 up to 700 nm. Because of this intensive light radiation, a better hardening of the materials is possible, resulting in materials with good physical values and reduced content of residual monomer versus using other lamp types with a different light emitting spectrum.

A wise investment to help protect high value 3D printers and their print jobs, the EnvisionTEC PPS DLP is designed to protect the Micro Plus and Vida families of 3D printers from voltage fluctuations, power outages and other noise issues and provide a consistent supply of energy.

A wise investment to help protect high value 3D printers and their print jobs, the EnvisionTEC PPS DLP EU is designed to protect the Micro Plus and Vida families of 3D printers from voltage fluctuations, power outages and other noise issues and provide a consistent supply of energy.

3D Printing Materials for the Medical Devices Industry

EnvisionTEC’s E-Model Flex is a highly accurate molding and final-use material with improved elongation at break. This material has high stability, with low shrinkage and low curling.

EnvisionTEC’s E-CE is a stiff, heat-resistant, high-performance dual-cure material that also offers chemical resistance. It is perfect for industrial products that require thermal stability such as electronics encasements and under-the-hood parts.

EnvisionTEC’s E-Clear 3SP is a liquid photopolymer that produces strong, tough,water-resistant parts especially for applications requiring exceptional clarity. E-Clear 3SP is distinguished for its rigidity and durableness. It remains clear without any of the yellowing with age that competitive clear 3D printing materials show. E-Clear 3SP has a very low warp potential and is also biocompatible.

EnvisionTEC’s E-Silicone offers a solution to produce soft silicone otoplastics by the additive manufacture of cocoon molds. The custom fit E-Silicone molds may be injected with medical grade silicone materials.

Clear Guide is a crystal clear 3D printer material for the production of accurate drill guides. The results produced by combining Clear Guide with EnvisionTEC technology are superior to traditional methods of manufacturing implant placement guides. The clearest 3D printer material available on the market today allows for maximum visibility.

Specially designed nano-filled 3D printing material that works reliably with both polyvinyl alcohol based separators and tin foil substitute for a “salt and pepper” technique of producing an orthodontic appliance.

EnvisionTEC’s E-Shell 200 Series 3D Printer Material is a low viscosity liquid photopolymer that produces strong, tough, water-resistant ABS like parts with high detail that are Class IIa biocompatible according to ISO 10993/Medical Product Law and are CE certified for use as hearing aid products, otoplastics, and medical devices.

The E-Shell 300 3D Printer Material series has been designed especially for applications in the hearing aid industries and is distinguished for rigidity and durability. It is CE certified and Class-IIa biocompatible according to ISO 10993 (Medical Product Law) for hearing aid shells and otoplastics.

The EnvisionTEC E-Shell 450 series is a liquid photopolymer that produces strong, tough, water-resistant parts especially for applications in the custom hearing device market.

The EnvisionTEC E-Shell 500 series has been designed especially for applications in the Hearing Aid industries and is distinguished for soft durability.

The E-Shell 3000 3D Printer Material series has been designed especially for applications in the hearing aid industries and is distinguished for rigidity and durability. It is CE certified and Class-IIa biocompatible according to ISO 10993 (Medical Product Law) for hearing aid shells and otoplastics.

E-Silicone offers a solution to produce silicone otoplastics by additive manufacture of cocoon molds.

The EnvisionTEC E-Shell 600 series has been designed especially for applications in the Hearing Aid industries and is distinguished for soft durability. The material is used on Perfactory UV machines only. EnvisionTEC E-Shell 600 is a liquid, photo-reactive acrylate for building functional parts. It is CE certified and Class-IIa biocompatible according to ISO 10993 (Medical Product Law) for soft ear shells and tips.

EnvisionTEC’s Clear Guide M 3D Printer material is a crystal clear material for the production of accurate drill guides on the Micro line of 3D Printers. The results produced by combining Clear Guide M 3D printer material with EnvisionTEC technology are superior to traditional methods of manufacturing dental implant placement guides.

Specially designed nano-filled 3D printing material that works reliably with both polyvinyl alcohol based separators and tin foil substitute for a “salt and pepper” technique of producing an orthodontic appliance.

EnvisionTEC’s E-Shell® 200 M Series is a low viscosity liquid photopolymer that produces strong, tough, water-resistant ABS like parts with high detail that are Class IIa biocompatible according to ISO 10993/Medical Product Law and are CE certified for use as hearing aid products, otoplastics, and medical devices.

The EnvisionTEC E-Shell® 300 M Series 3D Printer Material has been designed especially for applications in the Hearing Aid industries and is distinguished for rigidity and durability. This 3D printer material is used on Perfactory® UV machines only.

The EnvisionTEC E-Shell® 600 M Series 3D Printer Material has been designed especially for applications in the Hearing Aid industries and is distinguished for rigidity and durability. This 3D printer material is used on Perfactory® UV machines only.

The EnvisionTEC E-Shell® 3000 M Series 3D Printer Material has been designed especially for applications in the Hearing Aid industries and is distinguished for rigidity and durability. This 3D printer material is used on Perfactory® UV machines only.

EnvisionTEC’s E-Appliance 3SP 3D printing material is ideal for the 3D printing of orthodontic models. E-Appliance is a specially designed nano-filled resin that will work reliably with both polyvinyl alcohol based-separators and tin foil substitute for a “salt and pepper” technique of producing an orthodontic appliance.