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Materials Science and Technology Volume 32, 2016 - Issue 4: Wear Resistant Steel/Microstructure Development
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Thematic Issue on Microstructurally driven materials development

Optimised recrystallisation model using multiobjective evolutionary and genetic algorithms and k-optimality approach

C. HalderDepartment of Metallurgical and Materials Engineering, Indian Institute of Technology, Kharagpur, India
,
M. SitkoDepartment of Applied Computer Science and Modelling, AGH University of Science and Technology, Krakow, Poland
,
L. MadejDepartment of Applied Computer Science and Modelling, AGH University of Science and Technology, Krakow, Poland
,
M. PietrzykDepartment of Applied Computer Science and Modelling, AGH University of Science and Technology, Krakow, Poland
&
N. ChakrabortiDepartment of Metallurgical and Materials Engineering, Indian Institute of Technology, Kharagpur, IndiaCorrespondence[email protected]
Pages 366-374 | Received 25 Feb 2015, Accepted 23 Apr 2015, Published online: 05 Jun 2015
 
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Abstract

The meta-models are constructed for static recrystallisation of dual phase steels using evolutionary neural nets (EvoNN). Four mutually conflicting objectives—(i) overall kinetics, (ii) grain size, (iii) the amount of strain and (iv) the precipitate volume fraction—are optimised simultaneously using an emerging k-optimal approach incorporated in the EvoNN, using a predator–prey genetic algorithm. The first objective involved minimisation of error with respect to experimental observation. The grain size and the amount of strain were minimised, whereas the precipitate volume fraction was maximised. The aim is to control the recrystallisation process in order to achieve desired material properties of dual phase steel during the final stages of heat treatment.

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