J
Javad Gholipour
Researcher at National Research Council
Publications - 62
Citations - 866
Javad Gholipour is an academic researcher from National Research Council. The author has contributed to research in topics: Ultimate tensile strength & Welding. The author has an hindex of 14, co-authored 49 publications receiving 632 citations. Previous affiliations of Javad Gholipour include University of Waterloo & Université de Montréal.
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Linear friction welding of a near-β titanium alloy
TL;DR: In this article, the linear friction welding (LFW) behavior of near-β titanium alloy Ti-5Al-5V-5Mo-3Cr (Ti-5553) was investigated by varying the processing conditions of frequency and axial pressure.
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Mechanical Property and Microstructure of Linear Friction Welded WASPALOY
TL;DR: In this paper, the mechanical properties and microstructural evolution of WASPALOY joined by linear friction welding (LFW) were investigated in the presence of a temperature of at least 1400 K (1126 °C).
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Effect of Postweld Heat Treatment on Microstructure, Hardness, and Tensile Properties of Laser-Welded Ti-6Al-4V
Abu Syed Humaun Kabir,Abu Syed Humaun Kabir,Xinjin Cao,Javad Gholipour,P. Wanjara,Jonathan Cuddy,A. Birur,Mamoun Medraj +7 more
TL;DR: In this paper, the effects of postweld heat treatment (PWHT) on 3.2mm and 5.1mm-thick Ti-6Al-4V butt joints welded using a continuous wave (CW) 4-kW Nd:YAG laser welding machine were investigated in terms of microstructural transformations, welding defects, and hardness, as well as global and local tensile properties.
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Titanium Alloy Repair with Wire-Feed Electron Beam Additive Manufacturing Technology
Priti Wanjara,Watanabe Kosuke,C. de Formanoir,Q. Yang,C. Bescond,Stéphane Godet,Mathieu Brochu,Koji Nezaki,Javad Gholipour,P. Patnaik +9 more
TL;DR: In this paper, the feasibility of developing a repair process that emulates refurbishing an “extensively eroded” fan blade leading edge using wire-feed electron beam additive manufacturing technology was examined.
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Prediction of Necking in Tubular Hydroforming Using an Extended Stress-Based Forming Limit Curve
TL;DR: In this article, an extended stress-based forming limit curve (XSFLC) was used to predict the onset of necking in sheet metal loaded under non-proportional load paths, as well as under three-dimensional stress states.