文档介绍：压铸机的标准DCST<用语编>社团法人日本压铸机协会压铸机的标准DCST<专业术语编>社团法人日本压铸机协会DCST前言前言我国(日本国)的压铸机在铸造技术上有明显的优势,而且有合金范围广的特性,铸件表面平滑,尺寸精确,能进行批量生产等等的特长,为此,作为不可欠缺的多种多样规格的工业制品构成部件已给各相关产业带来了很大的发展前景。压铸工业根据长期积累的生产技术与经验,必须要编制各种标准,以便能对应时常发展的新型应用领域的设计与规格,在高品质中最经济地批量生产利用价值高的制品。本文,(社)日本压铸协会为了使金属铸造的需求者以及制造者能充分应用设计制造、交易等,设定了按以下所示压铸标准DCS(DieCastingStandards)推荐的基础。(模具篇;Dies)(模具交易篇;DiesDeal)(设计篇;Engineering)(材料篇;Material)(铝合金压铸作业篇;PracticeforAlminiumalloyDiecasting)(锌合金压铸作业篇;PracticeforzincalloyDiecasting)(品质篇;Quality)(专业术语篇;Terms)以上所示的压铸标准具有相关的关连性,所以特别希望能加以综合利用。本篇“压铸标准”是(社)日本压铸协会的各担当委员会在参考日本工业规格(JIS)、ASTM规格、北美压铸协会(NADCA)的压铸标准等基础资料的基础上,进行汇编的。DCST前言另外,本篇的DCST(专业术语篇)是在本篇前身的压铸专业术语集的基础上,经过2002年底技术委员会的审议后作为第3版发行的。这次,又通过2004年年度标准化委员会(原技术委员会)全面修正后,以修订版出版。DCST目录目录T1铸造方法······························································1T2压铸机································································6T3模具··································································24T4设计··································································30T5合金材料······························································33T6溶解··································································40T7压铸方法······························································44T8后加工·表面处理······················································50T9品质··································································54T10检查·································································71T11交易·································································75T12安全·环境···························································77索引(中文)···························································82索引(英文)···························································90DCST1铸造方法T1铸造方法压铸件diecasting(s)(美式英语);pressursdiecasting(英语);highpressurediecasting(澳大利亚语)将熔解金属压入精密的模具内,是在高精度中以高循环方法大量生产铸件表面光滑的优越的铸造方式。压铸件就是采用这种方法进行制造的制品。真空压铸法(减压压铸方法)vacuumdiecasting真空压铸法是铸造的一种方法,即通过使模腔抽真空或者减压进行压铸的方法。有各种方式,但真空度的保持与射出的计时控制是相当重要的。通