TPE SEBS 95A is a soft material great for prototyping where rubber-like or elastomeric properties and durability are required. TPE SEBS 1300 95A is slightly firmer than TPE SEBS 1300 85A for application requirements that call for flexibility but also need more rigidity to achieve the optimal finished part performance.
TPE-SEBS 1300 95A 3D printing filament is a Shore 95A elastomer that does not require drying to process and has excellent bed adhesion. It also enables printing ease. TPE-SEBS 1300 95A has better elasticity for applications that require flexibility and durability with the added benefit of excellent processing and no required drying. TPE-SEBS 1300 95A is slightly firmer than the 85A product to meet application requirements that call for flexibility but also need more rigidity to achieve the finished part performance. TPE-SEBS 1300 95A works on all open-platform desktop printers and can be run on Bowden Tube or direct drive configurations. TPE-SEBS 1300 95A can be used for parts that need elastomeric properties that can bend, flex and stretch and has demonstrated a very high success rate in printing complex geometries. TPE-SEBS 1300 95A is similar to rubber and other thermoplastic elastomers in its properties. This material has a similar feel to harder grades of TPU and TPO products with less warp, more bed adhesion and fewer printing issues. TPE-SEBS 1300 95A is well suited to printing parts that require toughness and resilience as well as some flexibility and fatigue resistance. Some common applications include (but are not limited to): automotive interior trim components, packaging closures, covers and housings, drips, no slip feet for electronic and mechanical components, and gap seals. This material is nonhygroscopic and can be printed without drying.
The TPE-SEBS 1300 95A is a soft material that is less flexible than the TPE-SEBS 1300 85A. Advantages of the TPE-SEBS include no drying required, high flexibility, less visible layer lines, lower warpage and curl compared to other elastomers, and a higher print success rate.