Compare 3D Printing Materials

Wax materials are a special type of material commonly used in 3D printing, primarily applied in rapid prototyping and precision casting. They offer excellent flowability and moldability, allowing for high-precision detail during the printing process. Red wax, in particular, has a vivid color, usually deep red, hence the name “red wax.” One of its key features is its ability to melt quickly when heated, facilitating subsequent casting processes, making it especially suitable for jewelry, art sculptures, and the manufacture of complex mechanical parts.

In addition, red wax materials have moderate hardness and a smooth surface, requiring minimal post-processing after printing, which helps maintain the accuracy and surface quality of the print. Because it can be melted at high temperatures, it is also commonly used in the “lost wax casting” process, playing a crucial role in precision casting.

PC-like translucent material combines excellent translucency with high stiffness, making it an ideal choice for precision components. Through customized post-processing, functional light-transmitting effects can be achieved, delivering both aesthetic appeal and performance. With high tensile strength and modulus, this material is especially suited for creating functional prototypes that emulate injection-molded polycarbonate, meeting the dual demands of mechanical performance and visual quality for engineering prototypes and small-batch production.

PC-Like Advanced High Temp is a high-temperature reinforced material with properties similar to polycarbonate, specifically designed for functional parts that require a combination of high strength, stiffness, and heat resistance. Post-curing can further increase the heat deflection temperature of the parts, enhancing their stability and reliability in high-temperature environments. It should be noted that post-curing may reduce some aspects of durability, so a balance between strength and toughness should be considered during design.

The high-temperature reinforced ceramic white combines exceptional heat resistance with outstanding strength and stiffness, making it an ideal choice for functional parts and high-performance prototypes. Post-curing further enhances its mechanical properties and thermal stability, providing reliable performance for complex geometries. Whether for aerospace, precision molds, electronic insulators, or laboratory equipment, this ceramic material meets the highest standards under demanding conditions, delivering solid support for innovative designs and high-performance manufacturing.

TPU is a flexible and highly tough filament with excellent impact resistance and wear resistance. It is suitable for printing various production prototypes and functional parts that need to withstand impact, drops, and collisions.