Fortus 3D生产系统Ultem 9085的生产级热塑性塑料是一种用于直接数字制造和快速成型的阻燃高性能热塑性塑料。由于其高强度重量比和FST(火焰、烟雾和毒性)等级,因此非常适合运输行业。这种独特的材料的现有认证使其成为商业运输行业的一个极好的选择-特别是航空航天,海洋和地面车辆。与Fortus 3D生产系统相结合,Ultem 9085允许设计和制造工程师生产完全功能性的零件,这些零件非常适合高级功能原型或最终用途,而无需传统工具的成本或交付周期。 Production-Grade Thermoplastic for Fortus 3D Production Systems ULTEM 9085 is a flame retardant high performance thermoplastic for direct digital manufacturing and rapid prototyping. It is ideal for the transportation industry due to its high strength-to-weight ratio and its FST (flame, smoke, and toxicity) rating. This unique material's preexisting certifications make it an excellent choice for the commercial transportation industry - especially aerospace, marine and ground vehicles. Combined with a Fortus® 3D Production System, ULTEM 9085 allows design and manufacturing engineers to produce fully functional parts that are ideal for advanced functional prototypes or end use without the cost or lead time of traditional tooling.
警告:此材料的状态为“商业:限量发行”。此材料的数据最近尚未验证。在指定此等级之前,请联系RTP公司以获取当前信息。-每个RTP公司的初步产品数据- Warning: The status of this material is 'Commercial: Limited Issue' The data for this material has not been recently verified. Please contact RTP Company for current information prior to specifying this grade. -Preliminary Product Data per RTP Co.-
产品描述
厂家:
美国Stratasys
美国RTP
类别:
PEI Polyetherimide
PEI Polyetherimide
填料:
用途:
航空航天应用,船舶应用,工业应用,模具,成型,汽车领域的应用,工程配件
性能特点:
机械强度好,冲击性能好,易消毒,阻燃,耐高温,经久耐用,耐化学性,防火阻燃等级V-0 Good Rigidity,High impact resistance,Good disinfection,Flame Characteristics,High Heat Resistance,Durability,Solvent resistance,V-0
易流动,润滑性,防火阻燃等级V-0 Good liquidity,Lubricating,V-0
加工条件:
3D Printing, Fused Filament Fabrication (FFF)
注射成型 Injection Molding
技术参数
物理性能 PHYSICAL
Stratasys ULTEM™ 9085
RTP 2100 HF TFE 15
单位 UNIT 测试方法 TEST METHOD
5 All Electrical Property values were generated from the average of test plaques built with default part density (solid). Test plaques were 4.0 x 4.0 x 0.1 inches (102 x 102 x 2.5 mm) and were built both in the flat and vertical orientation. The range of values is mostly the result of the difference in properties of test plaques built in the flat vs. vertical orientation.