@article{López_Hernández_Solorio_Vergara_Vázquez_Garnica_2013, title={Mathematical model of heat transfer to predict distribution of hardness through the Jominy bar}, volume={49}, url={https://revistademetalurgia.revistas.csic.es/index.php/revistademetalurgia/article/view/1273}, DOI={10.3989/revmetalm.1233}, abstractNote={The heat transfer coefficient was estimated at the bottom surface at Jominy bar end quench specimen by solution of the heat inverse conduction problem. A mathematical model based on the finite-difference method was developed to predict thermal paths and volume fraction of transformed phases. The mathematical model was codified in the commercial package Microsoft Visual Basic v. 6. The calculated thermal path and final phase distribution were used to evaluate the hardness distribution along the AISI 4140 Jominy bar.}, number={2}, journal={Revista de Metalurgia}, author={López, E. and Hernández, J. B. and Solorio, G. and Vergara, H. J. and Vázquez, O. and Garnica, P.}, year={2013}, month={Apr.}, pages={111–121} }