3D Printing Materials

PC-ISO

At a glance

Process

FDM

Finishing

White

Resolution

.2 mm

Max Print Size

914 x 609 x 914 mm

About the Material

PC-ISO thumbnail graphic

PC-ISO, also known as polycarbonate-isoindrene copolymer, is a type of material used in 3D printing, specifically in the field of additive manufacturing using the Fused Deposition Modeling (FDM) process. PC-ISO is a biocompatible material that is often used for applications where high strength, heat resistance, and biocompatibility are important. Some common applications of PC-ISO in 3D printing include:

Medical Devices: PC-ISO is often used to produce medical devices and components that require biocompatibility and sterilization compatibility. It can be used for items like surgical tools, orthopedic implants, dental devices, and anatomical models.

Prototyping: The material’s strength, toughness, and heat resistance make it suitable for producing functional prototypes of parts and products that need to undergo testing and validation under real-world conditions.

Jigs and Fixtures: PC-ISO can be used to create custom jigs, fixtures, and tooling for manufacturing processes. These parts need to be strong and able to withstand repeated use and exposure to heat.

Engineering Components: The material’s mechanical properties make it suitable for producing engineering components that need to withstand mechanical stress, impact, and temperature fluctuations. This includes parts for machinery, industrial equipment, and automation systems.

Electrical and Electronic Components: PC-ISO’s heat resistance and electrical insulation properties make it suitable for producing enclosures, housings, and other components for electrical and electronic devices.

Aerospace: Similar to other industries, aerospace applications can benefit from the strength, heat resistance, and lightweight nature of PC-ISO. It can be used for producing components such as interior parts, brackets, and fixtures.

Automotive: In the automotive industry, PC-ISO can be used to create functional prototypes, jigs, fixtures, and interior components that require durability, impact resistance, and heat tolerance.

Consumer Goods: Some consumer products, especially those that require impact resistance, can be 3D printed using PC-ISO. This includes items like protective cases, housings, and durable consumer goods.

Functional Prototypes: PC-ISO is often used for producing functional prototypes that closely resemble the final product in terms of mechanical properties and appearance.

Chemical and Industrial Applications: The material’s chemical resistance and mechanical properties make it suitable for components used in chemical processing, industrial machinery, and manufacturing.

It’s important to note that PC-ISO, like other 3D printing materials, has its own set of advantages and limitations. Users should consider factors such as material properties, print settings, post-processing requirements, and the specific needs of the application when choosing to use PC-ISO for 3D printing.

Material Properties

Ultimate Tensile Strength

57 MPa
(8,300 psi)

Elongation at Break

4%

Modulus of Elasticity

2,100 MPa
(310,400 psi)

Flexural Strength

90 MPa (13,100 psi)

Highest Operating Temp (C)

133°C

Material Datasheet

YOU MIGHT ALSO BE INTERESTED IN

The Ultimate Guide to 3D Printing Materials and Applications

Whether you’re a seasoned design engineer or new to the field, understanding the critical importance of material selection in your projects is paramount. Incorrect choices can not only jeopardize the success of your project but also pose significant risks, including financial losses and safety concerns. In this guide, you will learn:

Learn More

3D Printing vs Injection Molding

3D printing and injection molding are each used to produce plastic parts. However, these processes are not mutually exclusive because some projects that begin with 3D printing end with injection molding.  3D printing is typically used for early-stage prototypes, evolving designs, and part geometries that can’t be produced with other methods. Because this form of […]

Learn More