Optimizing Gas Injection Stir Casting Process Parameters for Improving the Ultimate Tensile Strength of Hybrid Mg/(SiC_p + Al_2O_(3p) + Gr_p) Through Taguchi Technique

机译：优化气体注入搅拌铸造工艺参数，通过TAGUCHI技术改善杂交MG /（SIC_P + AL_2O_（3P）+ GR_P）的极限拉伸强度

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In this experimental research work Taguchi technique has been utilized for finding out the optimal parameter combinations that result for better ultimate tensile strength of hybrid Mg/(SiC_p + Al_2O_(3p) + Gr_p) MMC. The process parameters that are used for the analysis are the furnace temperature (°C), stirring speed (rpm) and stirring time (min). Also considering significant process parameters mathematical models related to the ultimate tensile strength (MPa) has been established. An L_27(3~(13)) orthogonal array has been utilized for finding out the optimum conditions. The optimal parametric combination where maximum ultimate tensile strength has been achieved are A3B2C3, respectively. The results of this investigation result in selecting suitable casting process parameters in fabricating hybrid Mg-MMC of desired strength and longer durability.

机译：在该实验研究中，工作TAGUCHI技术已经用于找出结果，以确定混合MG /（SIC_P + AL_2O_（3P）+ GR_P）MMC的更好的最终拉伸强度。用于分析的过程参数是炉温（℃），搅拌速度（RPM）和搅拌时间（分钟）。还考虑了与最终拉伸强度（MPa）相关的数学模型的重要过程参数。 L_27（3〜（13））正交阵列已用于找出最佳条件。已经实现了最大抗拉强度的最佳参数组合分别是A3B2C3。该研究的结果导致在制造所需强度和更长的耐久性的制造中选择合适的铸造工艺参数。

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来源
《International Conference on Emerging Trends in Mechanical and Industrial Engineering》|2021年|467p|共11页
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Jaspreet Hira; Alakesh Manna; Pushpinder Kumar; Rohit Singla;
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中图分类 TH16-53;
关键词
Magnesium; Metal matrix composite; Taguchi; Orthogonal array; Mathematical model;

机译：镁;金属基质复合;Taguchi;正交阵列;数学模型;

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1. Influence of hybrid ratio and friction stir processing parameters on ultimate tensile strength of 5083 aluminum matrix hybrid composites [J] . Kurt Halil Ibrahim Composites . 2016,第may期

机译：混合比和搅拌摩擦参数对5083铝基杂化复合材料极限抗拉强度的影响
2. Role of hybrid ratio in microstructural, mechanical and sliding wear properties of the A15083/Graphitep/Al_2O_(3p) a surface hybrid nanocomposite fabricated via friction stir processing method [J] . A. Mostafapour Asl, S.T. Khandani Materials Science and Engineering . 2013,第JANa1期

机译：杂化比在摩擦搅拌法制备的表面杂化纳米复合材料A15083 / Graphitep / Al_2O_（3p）的微观结构，机械和滑动磨损性能中的作用
3. Optimization of stir-squeeze casting parameters for production of metal matrix composites using a hybrid analytical hierarchy process-Taguchi-Grey approach [J] . Arunachalam Ramanathan, Piya Sujan, Krishnan Pradeep Kumar, Engineering Optimization . 2020,第7a9期

机译：用杂交分析层次工艺 - Taguchi-Try-Gray方法优化金属基质复合材料的搅拌挤压参数
4. Optimizing Gas Injection Stir Casting Process Parameters for Improving the Ultimate Tensile Strength of Hybrid Mg/(SiC_p + Al_2O_(3p) + Gr_p) Through Taguchi Technique [C] . Jaspreet Hira, Alakesh Manna, Pushpinder Kumar, International Conference on Emerging Trends in Mechanical and Industrial Engineering . 2021

机译：优化气体注入搅拌铸造工艺参数，通过TAGUCHI技术改善杂交MG /（SIC_P + AL_2O_（3P）+ GR_P）的极限拉伸强度
5. Optimization of steam/solvent injection methods: Application of hybrid techniques with improved algorithm configuration. [D] . Algosayir, Muhammad Mugren. 2012

机译：蒸汽/溶剂注入方法的优化：具有改进算法配置的混合技术的应用。
6. Optimization and Prediction of Ultimate Tensile Strength in Metal Active Gas Welding [O] . Anusit Ampaiboon, On-Uma Lasunon, Bopit Bubphachot 2015

机译：金属活性气体保护焊极限抗拉强度的优化与预测
7. Optimization of Process Parameters in Stir Casting of Hybrid Metal Matrix (LM25/SiC/B4C) Composite Using Taguchi Method [O] . M. Arulra, P.K. Palani, L. Venkatesh 2017

机译：用TAGUCHI方法优化杂交金属基质（LM25 / SiC / B4C）复合材料搅拌铸造的过程参数

Optimizing Gas Injection Stir Casting Process Parameters for Improving the Ultimate Tensile Strength of Hybrid Mg/(SiC_p + Al_2O_(3p) + Gr_p) Through Taguchi Technique

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