Papers on
tailoring weld attributes based on scientific principles
1. S. Mishra and T. DebRoy, Tailoring Gas Tungsten Arc Weld
Geometry using a Genetic Algorithm and a Neural Network Trained with Convective
Heat Flow Calculations, Materials Science and Engineering A, 2007, vol.
454–455, pp. 477–486 (pdf).
2. A. Kumar and T. DebRoy, Tailoring Fillet Weld Geometry using
a Genetic Algorithm and a Neural Network Trained with Convective Heat Transfer
Calculations, Welding Journal, 2007, vol. 86(1), pp. 26s-33s (pdf).
3. R. Rai and T. DebRoy, Tailoring Weld
Geometry during Keyhole Mode Laser Welding using a Genetic Algorithm and a Heat
Transfer Model, Journal of Physics, D: Applied Physics, 2006, vol. 39(6), pp.
1257-1266 (pdf).
4.
A. Kumar and T. DebRoy, Tailoring Complex Weld Geometry through Reliable Heat
Transfer and Fluid Flow Calculations and a Genetic Algorithm, Metallurgical and
Materials Transactions A, 2005, vol. 36A, pp. 2725-2735 (pdf).
5. S. Mishra and T. DebRoy, A
Computational Procedure for Finding Multiple Solutions of Convective Heat
Transfer Equation, Journal of Physics, D, 2005, vol. 38, pp. 2977-2985 (pdf).
6. S. Mishra and T. DebRoy, A Heat
Transfer and Fluid Flow Based Model to Obtain a Specific Weld Geometry Through
Multiple Paths, Journal of Applied Physics, 2005, vol. 98, 044902 (pdf).
7. A. Kumar, W.
Zhang, C.-H. Kim and T. DebRoy, A Smart Bi-directional Model of Heat Transfer
and Free Surface Flow in Gas Metal Arc Fillet Welding for Practicing Engineers,
Welding in the World, 2005, vol. 49, no. 9, pp. 32-48 (pdf).
8. A. Kumar and T. DebRoy,
Guaranteed Fillet Weld Geometry from Heat Transfer Model and Multivariable
Optimization, International Journal of Heat and Mass Transfer, 2004, vol.
47(26), pp. 5793-5806 (pdf).