Additive manufacturing of metallic components – Process, structure and properties T DebRoy, HL Wei, JS Zuback, T Mukherjee, JW Elmer, JO Milewski, ... Progress in Materials Science 92, 112 - 224, 2018 | 7272 | 2018 |
Friction stir welding tools R Rai, A De, H Bhadeshia, T DebRoy Science and Technology of welding and Joining 16 (4), 325-342, 2011 | 960 | 2011 |
Printability of alloys for additive manufacturing T Mukherjee, JS Zuback, A De, T DebRoy Scientific Reports, 6, 19717-1 - 19717-8, 2016 | 531 | 2016 |
Mechanistic models for additive manufacturing of metallic components HL Wei, T Mukherjee, W Zhang, JS Zuback, GL Knapp, A De, T DebRoy Progress in Materials Science, 2020 | 422 | 2020 |
Building blocks for a digital twin of additive manufacturing GL Knapp, T Mukherjee, J Zuback, H Wei, TA Palmer, A De, T DebRoy Acta Materialia, 2017 | 417 | 2017 |
Heat transfer and material flow during laser assisted multi-layer additive manufacturing V Manvatkar, A De, T DebRoy Journal of Applied physics 116 (12), 2014 | 348 | 2014 |
Toward optimum friction stir welding tool shoulder diameter A Arora, A De, T DebRoy Scripta materialia 64 (1), 9-12, 2011 | 335 | 2011 |
Spatial variation of melt pool geometry, peak temperature and solidification parameters during laser assisted additive manufacturing process V Manvatkar, A De, T DebRoy Materials Science and Technology 31 (8), 924-930, 2015 | 302 | 2015 |
Heat and fluid flow in additive manufacturing – Part II: Powder bed fusion of stainless steel, and titanium, nickel and aluminum base alloys T Mukherjee, H Wei, A De, T DebRoy Computational Materials Science 150, 369 - 380, 2018 | 246 | 2018 |
Mitigation of thermal distortion during additive manufacturing T Mukherjee, V Manvatkar, A De, T DebRoy Scripta Materialia 127 (C), 79 - 83, 2017 | 246 | 2017 |
Strains and strain rates during friction stir welding A Arora, Z Zhang, A De, T DebRoy Scripta Materialia 61 (9), 863-866, 2009 | 238 | 2009 |
Dimensionless numbers in additive manufacturing T Mukherjee, V Manvatkar, A De, T DebRoy Journal of Applied Physics 121, DoI: 10.1063/1.4976006, 2017 | 187 | 2017 |
Heat and fluid flow in additive manufacturing—Part I: Modeling of powder bed fusion T Mukherjee, H Wei, A De, T DebRoy Computational Materials Science 150, 304 - 313, 2018 | 180 | 2018 |
Heat and fluid flow in additive manufacturing—Part I: Modeling of powder bed fusion T Mukkherjee, H Wei, A De, DR Tarashankar Computational Materials Science 150, 304 - 313, 2008 | 180* | 2008 |
Tool geometry for friction stir welding—optimum shoulder diameter M Mehta, A Arora, A De, T DebRoy Metallurgical and Materials Transactions A 42, 2716-2722, 2011 | 143 | 2011 |
A smart model to estimate effective thermal conductivity and viscosity in the weld pool A De, T DebRoy Journal of Applied Physics 95 (9), 5230-5240, 2004 | 136 | 2004 |
Load bearing capacity of tool pin during friction stir welding A Arora, M Mehta, A De, T Debroy The International Journal of Advanced Manufacturing Technology 61, 911-920, 2012 | 134 | 2012 |
Estimation of melt pool dimensions, thermal cycle, and hardness distribution in the laser-engineered net shaping process of austenitic stainless steel VD Manvatkar, AA Gokhale, G Jagan Reddy, A Venkataramana, A De Metallurgical and materials transactions A 42, 4080-4087, 2011 | 127 | 2011 |
Residual stresses in wire-arc additive manufacturing – Hierarchy of influential variables Q Wu, T Mukherjee, A De, T DebRoy Additive Manufacturing, https://doi.org/10.1016/j.addma.2020.101, 2020 | 115 | 2020 |
Development of a finite element based heat transfer model for conduction mode laser spot welding process using an adaptive volumetric heat source S Bag, A Trivedi, A De International Journal of Thermal Sciences 48 (10), 1923-1931, 2009 | 113 | 2009 |