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1。简介选择性激光烧结(SLS)是一种添加剂制造(AM)技术,它通过使用激光在每个计算机辅助设计(CAD)文件的切片中使用激光在粉末状聚合物材料的床上选择性地融化3D模型(图。1a)。SLS的常用聚合物是多酰胺11和12粉,使用温度范围为150-185°C [1-2]。Recently semi-crystalline PEEK of varied LS-grade powders with a melting temperature (T m ) of 343-370°C, were heated up to 380°C to be manufactured into 3D objects by a more elaborate high temperature laser sintering (HT-LS) machine and process, affording PEEK components with a glass transition temperature (T g ) of 150°C [3-4].然而,与传统处理的材料相比,这些热塑性聚合物构建的3D物体的强度通常很弱,这是因为它们由AM加工产生的固有较高的孔隙率以及在Z方向上缺乏聚合物链间连接。因此,对于250-300°C的热固性聚合物开发激光烧结过程至关重要,对航空应用使用能力。最近,将热固性二甲酰亚胺树脂与热导电碳微气泡混合在一起,以提高其激光可吸收性以成功激光烧结[5]。为了克服树脂的低粘度,标准的RTM370树脂在300°C进一步加热2-3小时,以通过促进链扩展,同时仍保持融化融化性处理性,从而提高粘度,从而避免在树脂内部反应性PEPA端盖进行广泛的交联。Initially we have attempted to print a melt-processable RTM370 thermoset polyimide oligomer powder terminated with reactive phenylethynylphthalic (PEPA) endcaps by laser sintering into a 3D objects [6], but soon realized the viscosity of the material originally developed for resin transfer molding (RTM) was too low, and the laser seemed only melted the resin without固化反应性PEPA端盖,从而导致带有空隙的标本。进一步上演的RTM370能够以LS的完整性进行3D打印样品(图1b)。
rtm385-SLS热固性聚酰亚胺的激光烧结用氮化硼
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