Computer simulation of the high temperature creep behaviour of Cr–Mo steels

Hore, S and Ghosh, R N (2011) Computer simulation of the high temperature creep behaviour of Cr–Mo steels. Materials Science and Engineering A, 528 (19-20). pp. 6095-6102.

[img]PDF
Restricted to NML users only. Others may use ->

842Kb

Abstract

Continuum damage mechanics (CDM) based model developed by Dyson and McLean has been used to simulate creep behaviour of 2.25Cr–1Mo steel having a large creep database. Material parameters evaluated for this steel were used as the initial set to estimate material parameters for 9CrMoVNb steel where only a limited creep database was available. A simple iteration scheme and optimisation procedure has been developed. The simulated plots were found to describe experimental data fairly well. Using an additional data on elastic modulus stress relaxation test was also simulated. The nature of such plots was quite similar to that of the experimental plots.

Item Type:Article
Official URL/DOI:http://dx.doi.org.scopeesprx.elsevier.com/10.1016/...
Uncontrolled Keywords:Creep; Cr–Mo steel; Coarsening; High temperature deformation; Creep constitutive equation; Creep curve prediction
Divisions:Business Development and Monitoring
ID Code:2954
Deposited By:Dr. A K Sahu
Deposited On:03 Jun 2011 11:23
Last Modified:21 Nov 2011 12:28
Related URLs:

Repository Staff Only: item control page