1 Jenney, C. L, "Welding Handbook, Vol 1: Welding Science and Technology" Woodhead Publishing Ltd 297-357, 2001
2 Sysweld, "Visual-Environment Version 15.5"
3 Ren, K., "Thermo-mechanical analyses for optimized path planning in laser aided additive manufacturing processes" 162 : 80-93, 2019
4 Reike, D., "The Circular Economy : New or Refurbished as CE 3. 0? Exploring — Controversies in the Conceptualization of the Circular Economy through a Focus on History and Resource Value Retention Options" 135 : 246-264, 2018
5 Hung, T. P., "Temperature Modeling of AISI 1045 Steel during Surface Hardening Processes" 11 (11): 1815-, 2018
6 Lu, X., "Substrate design to minimize residual stresses in Directed Energy Deposition AM processes" 202 : 2021
7 Song, L., "Repair of 304 stainless steel by laser cladding with 316L stainless steel powders followed by laser surface alloying with WC powders" 24 : 116-124, 2016
8 Wilson, J. M., "Remanufacturing of turbine blades by laser direct deposition with its energy and environmental impact analysis" 80 : 170-178, 2014
9 Song, J., "Rebuilding of metal components with laser cladding forming" 252 : 7934-7940, 2006
10 JmatPro, "JmatPro version 12.0"
1 Jenney, C. L, "Welding Handbook, Vol 1: Welding Science and Technology" Woodhead Publishing Ltd 297-357, 2001
2 Sysweld, "Visual-Environment Version 15.5"
3 Ren, K., "Thermo-mechanical analyses for optimized path planning in laser aided additive manufacturing processes" 162 : 80-93, 2019
4 Reike, D., "The Circular Economy : New or Refurbished as CE 3. 0? Exploring — Controversies in the Conceptualization of the Circular Economy through a Focus on History and Resource Value Retention Options" 135 : 246-264, 2018
5 Hung, T. P., "Temperature Modeling of AISI 1045 Steel during Surface Hardening Processes" 11 (11): 1815-, 2018
6 Lu, X., "Substrate design to minimize residual stresses in Directed Energy Deposition AM processes" 202 : 2021
7 Song, L., "Repair of 304 stainless steel by laser cladding with 316L stainless steel powders followed by laser surface alloying with WC powders" 24 : 116-124, 2016
8 Wilson, J. M., "Remanufacturing of turbine blades by laser direct deposition with its energy and environmental impact analysis" 80 : 170-178, 2014
9 Song, J., "Rebuilding of metal components with laser cladding forming" 252 : 7934-7940, 2006
10 JmatPro, "JmatPro version 12.0"
11 Chua, B. L., "Estimation Method of Interpass Time for the Control of Temperature during a Directed Energy Deposition Process of a Ti–6Al–4V Planar Layer" 13 (13): 2020
12 Kim, H., "Effects of Deposition Strategy and Preheating Temperature on Thermo-Mechanical Characteristics of Inconel 718 Super-Alloy Deposited on AISI 1045 Substrate Using a DED Process" 14 (14): 2021
13 Zhang, X., "Damage reconstruction from tri-dexel data for laser-aided repairing of metallic components" 96 : 3377-3390, 2018
14 Pinkerton, A., "Component repair using laser direct metal deposition" 222 : 827-836, 2008
15 Rahito, "Additive Manufacturing for Repair and Restoration in Remanufacturing : An Overview from Object Design and Systems Perspectives" 7 (7): 802-, 2019
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