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| 1-M. A. Mohamad Pour، P. Esmailzadeha، R. Abdi Behnagh، A. Ghaffarigharehbaghb، and R. Brighenti، Phase-field simulation of fracture in Polymethyl Methacrylate،Mechanics of Advanced Materials and Structures، 2023، DOI: 10.1080/15376494.2023.2285423. |
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| 2-PM Keshtiban، R Abdi Behnagh، F Bashirzadeh، Rasol Javadzadeh، Abolfazl Mohsenzadeh، Investigation on the anisotropy behavior of copper strips processed by a combination of FSP and ECAP،Proceedings of the Institution of Mechanical Engineers، Part L: Journal of Materials: Design and Applications، 2021، 1890-1900، 235. |
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| 3-M. Akbari، P. Asadi، R. Abdi Behnagh، Modeling of material flow in dissimilar friction stir lap welding of aluminum and brass using coupled Eulerian and Lagrangian method،International Journal of Advanced Manufacturing Technology، 2021، DOI:10.1007/S00170-020-06541-X. |
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| 4-R. Abdi Behnagh، H. Abdollahi، M. A. Mohammad Pour، B. Shahbazi، Microstructure، mechanical properties، and electrical conductivity of the solid-state recycled pure copper machining chips،Proc IMechE Part L: J Materials: Design and Applications، 2021، 235 issue: 1، page(s): 195-201. |
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| 5-1.P. Esmaeilzadeh، .R. Abdi Behnagh، .M. A. Mohammad Pour، .X. Xhang، .Y. Liao، Phase-Field Modeling of Fracture and Crack Growth in Friction Stir Processed Pure Copper،The International Journal of Advanced Manufacturing Technology، 2020، 219. |
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| 6-M. A. Ansari، R. Abdi Behnagh، A. Salvadori، Numerical Analysis of High-Speed Water Jet Spot Welding using Arbitrary Lagrangian-Eulerian (ALE) Method،The International Journal of Advanced Manufacturing Technology، 2021، 112، pages491–504. |
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| 7-B. Chang، P. Parandoush، X. Li، S. Ruan، C. Shen، R. Abdi behnagh، Y. Liu، Y. Liao، Ultrafast printing of continuous fiber-reinforced thermoplastic composites with ultrahigh mechanical performance by ultrasonic-assisted laminated object manufacturing،Polymer Composites، 2020. |
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| 8-R. Abdi Behnagh، F. Fathi، M. Yeganeh، M. Paydar، M. Aghamohammadpour، Y. Liao، Production of seamless tube from aluminum machining chips via double-step friction stir consolidation،The International Journal of Advanced Manufacturing Technology، 2019، https://link.springer.com/article/10.1007/s00170-019-04326-5. |
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| 9-R. Abdi Behnagh، A. Samanta، M. Aghamohammadpour، P. Esmaielzadeh، H. Ding، Predicting Microstructure Evolution for Friction Stir Extrusion using a Cellular Automaton Method،Modelling and Simulation in Materials Science and Engineering، 2019، 27. |
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| 10-R. Abdi Behnagh، P. Mashhadi Keshtiban، H. Abdollahi، Recycling of Magnesium Machining Chips via Shear Consolidation Processing،International Journal of Advanced Designed and Manufacturing Technology، 2019، 12. |
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| 11-M. A. Ansari، R. Abdi Behnagh، (Numerical study of friction stir welding (FSW) plunging phase using smoothed particle hydrodynamics (SPH،Modelling and Simulation in Materials Science and Engineering، 2019، https://iopscience.iop.org/article/10.1088/1361-651X/ab1ca7/meta. |
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| 12-P. Mashhadi Kashtiban، R. Abdi Behnagh، V. Alimirzalou، Routes investigation in equal channel multi-angular pressing process of UFG Al−3% Mg alloy strips،Transactions of the Indian Institute of Metals، 2018، 72. |
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| 13-M. A. Ansari، A. Samanta، R. Abdi Behnagh، H. Ding ، An Efficient Coupled Eulerian-Lagrangian Finite Element Model for Friction Stir Processing،International Journal of Advanced Manufacturing Technology، 2018، 18. |
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| 14-M. Narvan، R. Abdi Behnagh، N. Shen، M. K. Besharati Givi، H. Ding، Shear Compaction Processing of SiC Nanoparticles Reinforced Magnesium Composites Directly from Magnesium Chips،Journal of Manufacturing Processes، 2016، 22. |