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Investigation on Effect of Strain Rate and Heat Generation on Traverse Force in FSW of Dissimilar Aerospace Grade Aluminium Alloys

机译：应变速率和热量产生对异种航空级铝合金FSW横向力的影响研究

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The emergence of the aerospace sector requires efficient joining of aerospace grade aluminium alloys. For large-scale industrial practices, achievement of optimum friction stir welding (FSW) parameters is chiefly aimed at obtaining maximum strain rate in deforming material with least application of traverse force on the tool pin. Exact computation of strain rate is not possible due to complex and unexposed material flow kinematics. Estimation using micro-structural evolution serves as one of the very few methods applicable to analyze the yet unmapped interdependence of strain rate and traverse force. Therefore, the present work assessed strain rate in the stir zone using Zener Holloman parameter. The maximum and minimum strain rates of 6.95 and 0.31 s⁻¹ were obtained for highest and least traverse force, respectively.

机译：航空航天业的兴起要求航空级铝合金的有效连接。对于大规模的工业实践，实现最佳搅拌摩擦焊（FSW）参数的目的主要是在最小化工具销上施加横向力的情况下，获得变形材料中的最大应变率。由于复杂且未暴露的物料流运动学，因此无法精确计算应变率。使用微结构演化进行估算是极少数可用于分析应变率和横向力相互映射关系的方法之一。因此，目前的工作使用齐纳霍洛曼参数评估了搅拌区的应变率。对于最大和最小横向力，最大应变速率和最小应变速率分别为6.95和0.31 s ^{-1 ^。}

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期刊名称 Materials
作者
Noor Zaman Khan; Dhruv Bajaj; Arshad Noor Siddiquee; Zahid A. Khan; Mustufa Haider Abidi; Usama Umer; Hisham Alkhalefah;
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作者单位

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年(卷),期 2019(12),10
年度 2019
页码 1641
总页数 11
原文格式 PDF
正文语种
中图分类外科学;
关键词
aluminium alloys friction stir welding strain rate traverse force;

机译：铝合金;搅拌摩擦焊;应变率;横向力;
入库时间 2022-08-17 11:42:54

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专利

1. Numerical prediction and experimental investigation of aerospace-grade dissimilar aluminium alloy by friction stir welding [J] . Pandian Vasanthakumar, Kannan Sekar Journal of Manufacturing Processes . 2020,第Juna期

机译：摩擦搅拌焊接航空级异种铝合金的数值预测及实验研究
2. EXPERIMENTAL INVESTIGATIONS ON THE INFLUENCE OF THE POSITION OF PLATES IN FSW FOR DISSIMILAR ALUMINIUM ALLOYS [J] . J. Kandasamy, M. Govindaraju, M. Manzoor Hussain, MTT: Manufacturing Technology Today . 2010,第7a8期

机译：FSW中板的位置对异种铝合金影响的实验研究
3. A comparison of fatigue crack growth performance of two aerospace grade aluminium alloys reinforced with bonded crack retarders [J] . A.K. Syed, X.Zhang, M.E. Fitzpatrick Fatigue & Fracture of Engineering Materials & Structures . 2018,第5期

机译：两种粘结缓凝剂增强的航空级铝合金疲劳裂纹扩展性能的比较。
4. In-Plane Plane-Strain Formability Investigation of Friction Stir Welded Sheets Made of Dissimilar Aluminium Alloys [C] . Mukesh Kumar, Satish V. Kailas, R. Ganesh Narayanan International Conference on Mechanics and Control Engineering . 2014

机译：由不同铝合金制成的摩擦搅拌焊接板的平面平面 - 应变成形性研究
5. Fundamental studies of friction-stir welding (FSW) of magnesium alloys to 6061-T6 aluminum and FSW of dissimilar magnesium alloys. [D] . Somasekharan, Anand Chandrika. 2005

机译：镁合金与6061-T6铝的搅拌摩擦焊（FSW）和异种镁合金的FSW的基础研究。
6. Morphological investigation and mechanical behaviour of agrowaste reinforced aluminium alloy 8011 for service life improvement [O] . K.O. Babaremu, O.O. Joseph, E.T. Akinlabi, 2020

机译：Agrowaste加强铝合金8011为使用寿命改进的形态学调查与力学行为
7. Assessment of the Advantages of Static Shoulder FSW for Joining Aluminium Aerospace Alloys [O] . Hao Wu, Ying Chun Chen, David Strong, 2014

机译：评估静态肩部FSW加入铝航空航天合金的优点

Investigation on Effect of Strain Rate and Heat Generation on Traverse Force in FSW of Dissimilar Aerospace Grade Aluminium Alloys

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