共查询到20条相似文献,搜索用时 78 毫秒
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高光注塑成型技术可除塑件表面熔痕、流线、银线等缺陷,应用领域广泛。模具温度是影响高光注塑件质量的关键因素,而模具内部管路分布又直接影响模具成型面温度分布。以102 cm液晶电视机前壳的高光注塑模具为例,分析了影响其型腔表面温度分布的因素,以模具型腔表面的温度均匀性为目标函数,将CAD软件、有限元软件和优化设计软件iSIGHT有效集成,实现了加热/冷却管道的布局参数的优化设计。结果表明,优化后模具型腔表面的温度分布的均匀性显著提高,将优化结果应用于实际生产中,获得了高品质的高光塑件。 相似文献
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针对塑料套管产品模具结构设计方案,利用Moldflow软件进行塑件成型模拟分析,依据成型窗口分析结果获得推荐的成型工艺参数。“冷却+流动+保压+翘曲”分析结果表明:各型腔间流动达到平衡,系统冷却效果良好,塑件翘曲变形小。将优化后的成型工艺参数用于实际的注塑成型。产品质量及装配均符合设计要求。 相似文献
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基于Taguchi的水壶塑件注射工艺参数优化 总被引:1,自引:0,他引:1
以水壶塑件为研究对象,应用Moldflow有限元分析软件,针对塑件质量缺陷或问题产生的原因,合理设计了模具浇注系统和温度调节系统。以翘曲变形量作为质量指标,采用多因素Taguchi法,获得了塑料在熔料温度、模具温度、保压压力、保压时间、冷却时间五因素四水平下成型塑件的翘曲变形量。采用方差分析法比较了不同工艺参数对翘曲变形量的影响程度,得到了优化的工艺参数组合。 相似文献
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薄壁塑件注射工艺参数的Taguchi方法优化 总被引:1,自引:0,他引:1
利用Moldflow软件,结合Taguchi法选择三因素(模具温度、熔体温度、保压方式)三水平对手机电池后盖的翘曲变形进行了研究。通过比较9种组合工艺的塑件翘曲变形量,得出了优化的工艺参数。优化后塑件的最小翘曲变形量为0.306 4 mm,比优化前降低了11.6%。从显著性检验看,熔体温度对零件的翘曲变形有显著影响,模具温度和保压方式对零件翘曲变形影响不显著。 相似文献
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A. A. Babakov 《Metal Science and Heat Treatment》1967,9(10):764-770
Conclusions Highly alloyed steels and alloys are produced in conformity with GOST or technical specifications in thick and thin sheets, beams and channels, bars, hot-rolled and cold-rolled pipe, and rod. Castings are produced in the specialized plant of the Ministry of Chemical and Petroleum Machine Building.The technology of welding stainless steels and alloys is given in [15] and [16].TsNIIChERMET. Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 10, pp. 43–50, October, 1967. 相似文献
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模具渗硼工艺及其发展应用 总被引:4,自引:0,他引:4
渗硼是提高模具使用寿命的重要途径,是在金属表面形成高硬度的金属硼化层,显著提高其耐磨性,且具有良好的耐热性和耐蚀性。近年来,随着渗硼工艺逐步改进和完善,已发展了复合渗、多元共渗及低温渗硼工艺,取得了良好的经济效果。 相似文献
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《稀有金属材料与工程》2006,23(4):23-26
结合近年来现场试验与施工实践,分析研究了中小型镍材(工业纯镍)设备与管道的特点、性能、焊接缺陷与产生原因,以及防止与消除其缺陷、优化制造施焊质量的工艺措施,并总结了若干条注意事项。 相似文献
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A. Yu. Tsivadze G. V. Ionova V. K. Mikhalko 《Protection of Metals and Physical Chemistry of Surfaces》2010,46(2):149-169
The possibility of using unique properties of lanthanides in the nanotechnology is demonstrated. The origination of linear
and nonlinear optical properties of lanthanide compounds with phthalocyanines, porphyrins, naphthalocyanines, and their analogs
in solutions and condensed state and the prospects of obtaining novel materials on their basis are discussed. Based on the
electronic structure and properties of lanthanides and their compounds, namely, optical and magnetic characteristics, electronic
and ionic conductivity, and fluctuating valence, molecular engines are classified. High-speed storage engines or memory storage
engines; photoconversion molecular engines based on Ln(II) and Ln(III); electrochemical molecular engines involving silicate
and phosphate glasses; molecular engines whose operation is based on insulatorsemiconductor, semiconductor-metal, and metal-superconductor
types of conductivity phase transitions; solid electrolyte molecular engines; and miniaturized molecular engines for medical
analysis are distinguished. It is shown that thermodynamically stable nanoparticles of Ln
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M
y
composition can be formed by d elements of the second halves of the series, i.e., those arranged after M = Mn, Tc, and Re.
Prospects of using lanthanide superconductors in nanotechnology are considered. 相似文献