Modeling and Optimizing the Hardness of the Melted Zone in Submerged Arc Welding Process Using Taguchi Method

机译：用TAGUCHI方法建模和优化淹没电弧焊接过程中熔化区的硬度

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One of the important characteristics of weld quality, which is influenced by welding parameters, is the hardness of the melted zone (HMZ). In this paper, experiments were conducted by Taguchi experimental design and Minitab 14 statistical software, and the interaction of input parameters was not taken into account. After collecting data, the signal to noise ratio (S/N) was calculated to obtain optimal levels for all input parameters. Then, using analysis of variance (ANOVA), the significance level of (P) for each input parameter was determined and validated for the hardness of the melted area. The results show that current intensity, welding speed, arc voltage, nozzle distance from work piece and thickness of magnesium oxide nanoparticles had respectively the highest impact on the hardness of melted zone.

机译：焊接质量的重要特征之一，受焊接参数的影响，是熔化区（HMZ）的硬度。在本文中，通过Taguchi实验设计和Minitab 14统计软件进行了实验，并未考虑输入参数的相互作用。收集数据后，计算信噪比（S / N）以获得所有输入参数的最佳级别。然后，使用变异性分析（ANOVA），确定每个输入参数的（P）的显着性水平并验证熔化区域的硬度。结果表明，电流强度，焊接速度，电弧电压，从工件和氧化镁纳米粒子的厚度的喷嘴距离分别对熔化区硬度的最高影响。

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《International Conference on Mechanical Engineering, Industrial Materials and Industrial Electronics》|2015年||共5页
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作者
Hamed Shahverdi Shahraki; Hamid Mozafari;
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中图分类 TH16-53;
关键词
Submerged arc welding; Hardness of melted zone; Taguchi method; Analysis of variance; And optimization;

机译：淹没电弧焊接;熔化区的硬度;TAGUCHI方法;方差分析;和优化;

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1. Predicting the combined effect of TiO_2 nano-particles and welding input parameters on the hardness of melted zone in submerged arc welding by fuzzy logic [J] . Masood Aghakhani, Mohammad Reza Ghaderi, Maziar Mahdipour Jalilian, Journal of Mechanical Science and Technology . 2013,第7期

机译：用模糊逻辑预测TiO_2纳米粒子和焊接参数对埋弧焊熔区硬度的综合影响
2. Optimization of process parameters of submerged arc welding by using grey-fuzzy-based Taguchi method for AISI 1518 grade steel [J] . Abhijit Sarkar, Arindam Majumder, Martand Pawar, Proceedings of the Institution of Mechanical Engineers, Part B. Journal of engineering manufacture . 2014,第11期

机译：基于灰色模糊Taguchi方法的AISI 1518级钢埋弧焊工艺参数优化
3. Application of the Taguchi method to the optimization of the submerged arc welding process [J] . Y.S. Tarng, W.H. Yang Materials and Manufacturing Processes . 1998,第3期

机译：Taguchi方法在埋弧焊工艺优化中的应用
4. Modeling and Optimizing the Hardness of the Melted Zone in Submerged Arc Welding Process Using Taguchi Method [C] . Hamed Shahverdi Shahraki, Hamid Mozafari International Conference on Mechanical Engineering, Industrial Materials and Industrial Electronics . 2015

机译：用TAGUCHI方法建模和优化淹没电弧焊接过程中熔化区的硬度
5. Model analysis and predictive control of double electrode submerged arc welding process for fillet joints with root opening. [D] . Lu, Yi. 2014

机译：带有根部开口的角焊缝双电极埋弧焊工艺的模型分析和预测控制。
6. Optimization and Modeling of Process Parameters in Multi-Hole Simultaneous Drilling Using Taguchi Method and Fuzzy Logic Approach [O] . Muhammad Aamir, Shanshan Tu, Majid Tolouei-Rad, 2020

机译：Taguchi法和模糊逻辑法在多孔同时钻井工艺参数的优化和建模中的应用
7. Modeling and Optimizing the Hardness of the Melted Zone in Submerged Arc Welding Process Using Taguchi Method [O] . Hamed Shahverdi Shahraki, Hamid Mozafari 2016

机译：用Taguchi法建立和优化埋弧焊熔化区硬度

Modeling and Optimizing the Hardness of the Melted Zone in Submerged Arc Welding Process Using Taguchi Method

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