M. Kannan, Mukesh Kumar, Surinder Saini, Vivek Sharma
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引用次数: 1
摘要
钛、陶瓷、复合材料和不锈钢只是高强度、高硬度材料的几个例子,这些材料越来越多地用于航空航天、核电和蒸汽涡轮机等行业,这些材料通常使用广泛的NTM技术进行加工。然而,这些NTM方法需要一个单一的理想的NTM程序为特定材料的经济高效的加工,因为它们的功率要求过高,成本高。然而,选择最好的方法可能是一个耗时的考验。在决定使用哪种加工技术时,有几个不同的组成部分。为了选择最佳的非传统方法,建议使用“加权汇总和产品评估”(WASPAS)和“分析层次过程”(AHP)的组合。采用综合方法,我们确定PAM是以下选项中最佳的NTM工艺:AJM, CM, EDM, EBM, USM, ECM, LBM, WJM, PAM, WEDM和AFM。
AHP-WASPAS Approach for Choice of Non-Conventional Manufacturing Process
Titanium, ceramics, composite materials, and stainless steel are just a few examples of the high-strength, high-hardness materials that are increasingly being used in industries like aerospace, nuclear power, and steam turbines, and these materials are typically processed using a wide range of NTM techniques. However, these NTM methods require a single ideal NTM procedure for a specific material for cost-effective machining because to their excessive power requirements and high costs. Choosing the best method, however, may be a time-consuming ordeal. There are several different components that go into deciding which machining technique to use. To choose the best non-traditional approach, it is recommended to use a combination of "the Weighted aggregated sum product assessment" (WASPAS) and an "Analytical Hierarchy Process" (AHP). Using a combined approach, we determined that PAM is the best possible NTM process out of the following options: AJM, CM, EDM, EBM, USM, ECM, LBM, WJM, PAM, WEDM and AFM.
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