Determination LHP of axisymmetric transient Molybdenum steel-4037H quenched in sea water by developing 1-d mathematical model

Abdlmanam S. A. Elmaryami; Badrul Omar

doi:10.63278/10.63278/mme.v31.1

Determination LHP of axisymmetric transient Molybdenum steel-4037H quenched in sea water by developing 1-d mathematical model

Authors

Abdlmanam S. A. Elmaryami
Badrul Omar

DOI:

https://doi.org/10.63278/10.63278/mme.v31.1

Keywords:

Heat Treatment, Quenching, Axisymmetric Molybdenum Steel Bar, Finite Element, Mathematical Modeling, Unsteady State Heat Transfer

Abstract

The modelling of an axisymmetric industrial quenched molybdenum steel bar AISI-SAE 4037H quenched in sea water based on finite element method has been produced to investigate the impact of process history on metallurgical and material properties. Mathematical modelling of 1-dimensional line (radius) element axisymmetric model has been adopted to predict temperature history and consequently the hardness of the quenched steel bar at any point (node). The lowest hardness point (LHP) is determined. In this paper hardness in specimen points was calculated by the conversion of calculated characteristic cooling time for phase transformation t8/5 to hardness. The model can be employed as a guideline to design cooling approach to achieve desired microstructure and mechanical properties such as hardness. The developed mathematical model was converted to a computer program. This program can be used independently or incorporated into a temperature history calculator to continuously calculate and display temperature history of the industrially quenched steel bar and thereby calculate LHP. The developed program from the mathematical model has been verified and validated by comparing its hardness results with commercial finite element software results. The comparison indicates reliability of the proposed model.

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How to Cite

S. A. Elmaryami, Abdlmanam, and Badrul Omar. 2012. “Determination LHP of Axisymmetric Transient Molybdenum Steel-4037H Quenched in Sea Water by Developing 1-D Mathematical Model”. Metallurgical and Materials Engineering 18 (3):203-22. https://doi.org/10.63278/10.63278/mme.v31.1.

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Issue

Vol. 18 No. 3 (2012)

Section

Articles - archived

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