Resins

A rigid white material for applications requiring biocompatibility and/or thermal resistance. It provides beautiful parts that can be sterilized and tested at high temperature, over 100 °C.

A flame-retardant, high-temperature resistant black plastic, exceeding UL94 V0 standards and withstanding temperatures over 150°C. Figure 4 High Temp 150°C FR Black is a rigid, flame-retardant material ideal for direct production of flame-resistant parts. Offering long-term environmental stability and an injection molded-like surface quality, it's designed for consumer, transportation, and aerospace applications that require high-temperature performance. This material is tested for 8 years of indoor and 1.5 years of outdoor mechanical performance, ensuring functional stability under real-world conditions.

Production-grade additive manufacturing material with game-changing thermoplastic-like mechanical properties and long-term environmental stability.

A production-grade rigid white plastic designed for long-term use, with an excellent balance of impact strength, elongation, and tensile strength. Figure 4 Tough 60C White is a versatile, biocompatible-capable white material that ensures long-term environmental stability and retains its color. Ideal for high mechanical load-bearing batch production and medical parts, it features a 65˚C heat deflection temperature and 23% elongation at break. This resin is perfect for making brackets, snaps, clips, and other functional parts, with fast print speeds and straightforward post-processing.

A production-grade rigid black plastic designed for long-term use, offering an ideal combination of impact strength, elongation, and tensile strength. Figure 4 Tough 65C Black is a versatile material known for its long-term environmental stability and injection molded-like surface quality. It's primarily used for high mechanical load-bearing batch production parts, jigs, fixtures, and prototypes that maintain stability over extended periods. With a 70˚C heat deflection temperature and 35% elongation at break, it's especially suitable for components like buckles, snaps, and clips. This material has been rigorously tested for durability, ensuring functionality and stability for up to 8 years indoors and 1.5 years outdoors.

A clear, production-grade material providing long-term stability and clarity, resistant to fading or discoloration. Figure 4 Tough Clear is engineered for a versatile combination of mechanical stability and suitability for functional prototyping or end-use parts. It offers high-light transmission that can achieve full transparency with post-processing. Ideal for product development, this material allows for clear visualization in complex assemblies, gas or fluid flow observation, and helps in reducing product design cycles by introducing long-term stability that minimizes the need for reprints.

A robust, flame-retardant additive manufacturing material, surpassing UL94 V0 test standards for fire resistance. Figure 4 Tough FR V0 Black is a production-grade material designed for extreme conditions. It combines fire resistance, fluid compatibility, and UV stability with impressive mechanical properties, including a notable 44% elongation at break. This self-extinguishing material, ideal for a range of industries, ensures long-term durability and functionality. With no need for secondary thermal curing and compatibility with various finishing processes, it offers both efficiency and versatility in manufacturing.

High tear strength, malleable material for hard rubber-like parts

A strong material with industry-leading environmental stability. Parts feature an exceptional surface finish, high precision, durability and long-term stability for fast high performance prototyping and production.

A high-speed material capable of print speeds up to 100 mm/hour for the production of strong rigid gray parts in a fraction of the time. With 25% elongation at break, it has the durability required for a broad range of applications.

A versatile, high HDT master pattern material for jewelry silicone molds and high visualization detailed prototypes of complex and fine designs.

An economical material offering high strength and stability for short run production of rigid gray parts at a fraction of the cost of traditional methods. With 35% elongation at break, this durable material produces highly accurate components.