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Numerical Heat Transfer, Part B: Fundamentals
An International Journal of Computation and Methodology
Volume 53, 2008 - Issue 3
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Original Articles

Three-Dimensional Conduction Heat Transfer Model for Laser Cladding Process

S. Kumar GE India Technology Center, Bangalore, India
,
S. Roy Mechanical Engineering Department, Indian Institute of Technology, Kharagpur, India
,
C. P. Paul Industrial CO2 Laser Section, Raja Ramanna Center for Advanced Technology, Indore, IndiaCorrespondence[email protected]
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&
A. K. Nath Mechanical Engineering Department, Indian Institute of Technology, Kharagpur, India
Pages 271-287 | Received 22 Dec 2006, Accepted 27 Jul 2007, Published online: 17 Jan 2008

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Sagar H. Nikam, Justin Quinn & Shaun McFadden. (2021) A simplified thermal approximation method to include the effects of Marangoni convection in the melt pools of processes that involve moving point heat sources. Numerical Heat Transfer, Part A: Applications 79:7, pages 537-552.
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Atul Kumar, C.P. Paul, A.S. Padiyar, P. Bhargava, G. Mundra & L.M. Kukreja. (2014) Numerical Simulation of Laser Rapid Manufacturing of Multi-Layer Thin Wall Using an Improved Mass Addition Approach. Numerical Heat Transfer, Part A: Applications 65:9, pages 885-910.
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Tien-Mo Shih, Martinus Arie & Derrick Ko. (2011) Literature Survey of Numerical Heat Transfer (2000–2009): Part II. Numerical Heat Transfer, Part A: Applications 60:11-12, pages 883-1096.
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Amitesh Kumar & Subhransu Roy. (2009) Development of a Theoretical Process Map for Laser Cladding Using a Three-Dimensional Conduction Heat Transfer Model. Numerical Heat Transfer, Part A: Applications 56:6, pages 478-496.
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Articles from other publishers (29)

Liang Ma, Xiangwei Kong, Jingjing Liang, Jinguo Li, He Feng, Shiwei Ci, Xue Zhang, Cong Sun & Zhibo Jin. (2023) Influence of pulsed laser scanning patterns on microstructural evolution and mechanical properties of Inconel 718 in direct laser deposition. Journal of Materials Research and Technology 25, pages 1231-1244.
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Liang Ma, Xiangwei Kong, Jingjing Liang, Jinguo Li, Cong Sun, Zhibo Jin & Zhidong Jiao. (2022) Thermal and Mechanical Variation Analysis on Multi-Layer Thin Wall during Continuous Laser Deposition, Continuous Pulsed Laser Deposition, and Interval Pulsed Laser Deposition. Materials 15:15, pages 5157.
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Chenghong Duan, Xiankun Cao & Xiangpeng Luo. (2022) Efficient distortion predictions of high-performance steel alloy parts fabricated by pragmatic deposition strategies in laser melting deposition. Journal of Laser Applications 34:1.
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Yilin Wang, Ping Jiang, Jintian Zhao, Shaoning Geng & Boan xu. (2021) Effects of energy density attenuation on the stability of keyhole and molten pool during deep penetration laser welding process: A combined numerical and experimental study. International Journal of Heat and Mass Transfer 176, pages 121410.
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Xiankun Cao, Chenghong Duan & Xiangpeng Luo. (2021) Efficient Simulation Methods for Thermal‐Mechanical Coupled Analysis and Rapid Residual Distortion Prediction of Laser Melting Deposition Process. steel research international 92:8, pages 2000615.
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HaoLu, HuLi, LidaZhu & Jikang Su. (2021) Research on Directional Forming Process of 316L Alloy Laser. Journal of Physics: Conference Series 1798:1, pages 012049.
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Yixuan Sun, Dongdong Gu, Donghua Dai, Meng Guo, Qing Ge, Xinyu Shi, Yanze Li, Guomin Le & Mingxuan Yao. (2020) Thermal behavior and microstructure evolution mechanism of W-20%Fe alloy fabricated by laser metal deposition. International Journal of Mechanical Sciences 183, pages 105772.
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Jiayu Tian, Peng Xu & Qibin Liu. (2020) Effects of stress-induced solid phase transformations on residual stress in laser cladding a Fe-Mn-Si-Cr-Ni alloy coating. Materials & Design 193, pages 108824.
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Chenghong Duan, Minghuang Zhao & Xiangpeng Luo. (2020) Thermal Behavior and Densification Mechanism during Selective Laser Melting Additive Manufacturing of Metal Powder. steel research international 91:8, pages 2000073.
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Xiangpeng Luo, Minghuang Zhao, Jiayi Li & Chenghong Duan. (2019) Numerical Study on Thermodynamic Behavior during Selective Laser Melting of 24CrNiMo Alloy Steel. Materials 13:1, pages 45.
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Jiayu Tian, Peng Xu, Jianhua Chen & Qibin Liu. (2019) Microstructure and phase transformation behaviour of a Fe/Mn/Si/Cr/Ni alloy coating by laser cladding. Optics and Lasers in Engineering 122, pages 97-104.
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Lei Du, Dongdong Gu, Donghua Dai, Qimin Shi, Chenglong Ma & Mujian Xia. (2018) Relation of thermal behavior and microstructure evolution during multi-track laser melting deposition of Ni-based material. Optics & Laser Technology 108, pages 207-217.
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Jiazhu Wu, Haiying Wei, Fengbo Yuan, Penghui Zhao & Yi Zhang. (2018) Effect of beam profile on heat and mass transfer in filler powder laser welding. Journal of Materials Processing Technology 258, pages 47-57.
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Jingxuan Ma, Yuxin Sun & Jialing Yang. (2018) Analytical solution of dual-phase-lag heat conduction in a finite medium subjected to a moving heat source. International Journal of Thermal Sciences 125, pages 34-43.
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M. Alimardani, C.P. Paul, E. Toyserkani & A. Khajepour. 2018. Advances in Laser Materials Processing. Advances in Laser Materials Processing 665 691 .
N. Yadaiah, S. Bag, C. P. Paul & L. M. Kukreja. (2015) Influence of self-protective atmosphere in fiber laser welding of austenitic stainless steel. The International Journal of Advanced Manufacturing Technology 86:1-4, pages 853-870.
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Yadaiah Nirsanametla, Swarup Bag, C. P. Paul & L. M. Kukreja. 2015. Lasers Based Manufacturing. Lasers Based Manufacturing 399 419 .
L. M. Kukreja, C. P. Paul, Atul Kumar, R. Kaul, P. Ganesh & B. T. Rao. 2015. Laser Physics and Technology. Laser Physics and Technology 253 299 .
Parisa Farahmand & Radovan Kovacevic. (2014) An experimental–numerical investigation of heat distribution and stress field in single- and multi-track laser cladding by a high-power direct diode laser. Optics & Laser Technology 63, pages 154-168.
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Leijun Li. 2014. Encyclopedia of Thermal Stresses. Encyclopedia of Thermal Stresses 6011 6017 .
C.P. Paul, S.K. Mishra, Atul Kumar & L.M. Kukreja. (2013) Laser rapid manufacturing on vertical surfaces: Analytical and experimental studies. Surface and Coatings Technology 224, pages 18-28.
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Christ P. Paul, Pankaj Bhargava, Atul Kumar, Ayukt K. Pathak & Lalit M. Kukreja. 2013. Lasers in Manufacturing. Lasers in Manufacturing 1 67 .
Atul Kumar, C.P. Paul, A.K. Pathak, P. Bhargava & L.M. Kukreja. (2012) A finer modeling approach for numerically predicting single track geometry in two dimensions during Laser Rapid Manufacturing. Optics & Laser Technology 44:3, pages 555-565.
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Wenda Tan, Shaoyi Wen, Neil Bailey & Yung C. Shin. (2011) Multiscale Modeling of Transport Phenomena and Dendritic Growth in Laser Cladding Processes. Metallurgical and Materials Transactions B 42:6, pages 1306-1318.
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Shaoyi Wen & Yung C. Shin. (2010) Modeling of transport phenomena during the coaxial laser direct deposition process. Journal of Applied Physics 108:4.
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M Zhong & W Liu. (2010) Laser surface cladding: The state of the art and challenges. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 224:5, pages 1041-1060.
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X He, G Yu & J Mazumder. (2010) Temperature and composition profile during double-track laser cladding of H13 tool steel. Journal of Physics D: Applied Physics 43:1, pages 015502.
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Shaoyi Wen & Yung C. Shin. (2010) Comprehensive predictive modeling and parametric analysis of multi-track direct laser deposition processes. Comprehensive predictive modeling and parametric analysis of multi-track direct laser deposition processes.
M. Alimardani, C.P. Paul, E. Toyserkani & A. Khajepour. 2010. Advances in Laser Materials Processing. Advances in Laser Materials Processing 765 791 .

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