目录塑料成型工艺与模具设计课程设计任务书····················11编制塑件成型工艺卡·········································22塑件成型工艺分析与设计·····································32.1ABS特性··················································32.2塑件原材料成型性能·········································32.3塑件的结构和尺寸精度、表面质量分析·························42.4塑件成型方法确定···········································43塑件成型模具设计············································43.1型腔的数量和布置···········································43.2选择注塑机型号及其参数·····································43.3确定分型面·················································63.4浇注系统选择和设计·········································63.5成型部件的设计计算·········································83.6排气系统设计···············································93.7模架的确定和标准件选择(示意图)·····························93.9温度调节系统设计···········································103.10推出机构(脱模)设计·······································113.11导向机构设计···············································114设计小结·····················································115参考文献······················································11附录(模具总装图和零件图)····································11“塑料成型工艺与模具设计”课程设计任务书课题设计名称:连接座的注射模设计塑件图:塑件名称连接座材料ABS厚度3工件精度5设计内容:1、编制模塑成型工艺规程(即填写“塑件成型工艺卡”)2、绘制塑件注射模总装图(A3图纸1张)3、绘制该模具凸模、凹模的零件图各一套(A3图纸多张)4、编写完善模具设计说明书(按A4打印纸装订)1塑件成型工艺卡塑件成型工艺卡塑件名称塑件草图材料牌号ABS单件重量25.9g成型设备型号XS-ZY-125每模件数1成型工艺参数材料干燥干燥设备名称烘箱温度/℃80~90时间/h2~3成型过程料筒温度后段/℃150~170中段/℃165~180前段/℃180~220喷嘴/℃170~180模具温度/℃50~80时间注射/s20~90保压/s0~5冷却/s20~120压力注射/MPa60~100保压/MPa后处理温度/℃70时间/min120~240编制日期审核日期2塑件成型工艺分析与设计2.1ABS的特性(1)化学和物理特性ABS是由丙烯腈、丁二烯和苯乙烯共聚物三种化学单位合成,每种单体都有不同特性;丙烯腈有高强度,热稳定性及化学稳定性;丁二烯具有坚韧性,抗冲击特性;苯乙烯具有易加工,高光洁及高强度。从形态上看,ABS是非结晶性材料。三种单体的聚合产生了具有两相的三元共聚物,一个是苯乙烯—丙烯腈的连续相,另一个是聚丁二烯胶分散相。这就决定了ABS材料的耐高温性、抗冲击性及易加工性等多种特性。缩水率为0.5%。ABS有良好的机械强度和一定的耐磨性、耐寒性、耐油性、耐...
