Genetic algorithms in materials design and processing

Chakraborti, Nirupam

doi:10.1179/095066004225021909

Cited by 195 publications

(103 citation statements)

References 165 publications

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“…For costs a weighted summation model of the elemental constituent is developed with the recent cost of the alloying additions. In case of multi-objective optimization, unlike the single objective optimization, a set of non-dominated solutions, where each solution is better than other in at least one objective, evolve;this set of solutions is called Pareto solutions [38][39][40]. In the present study, the compositions of alloys selected from the evolved Pareto solutions are developed for experimental trials.…”

Section: Introductionmentioning

confidence: 99%

Imprecise knowledge based design and development of titanium alloys for prosthetic applications

Datta

Mahfouf

Zhang

et al. 2016

Journal of the Mechanical Behavior of Biomedical Materials

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Sultana, N. (2015) Imprecise knowledge based design and development of titanium alloys for prosthetic applications.Journal Abstract Imprecise knowledge on the composition-processing-microstructure-property correlation of titanium alloys combined with experimental data are used for developing rule based models for predicting the strength and elastic modulus of titanium alloys. The developed models are used for designing alloys suitable for orthopaedic and dental applications. Reduced Space Searching Algorithm is employed for the multi-objective optimization to find composition, processing and microstructure of titanium alloys suitable for orthopaedic applications. The conflicting requirements attributes of the alloys for this particular purpose are high strength with low elastic modulus, along with adequate biocompatibility and low costs. The 'Pareto' solutions developed through multi-objective optimization show that the preferred compositions for the fulfilling the above objectives lead to β or near β alloys. The concept of decision making employed on the solutions leads to some compositions, which should provide better combination of the required attributes. The experimental development of some of the alloys has been carried out as guided by the model-based design methodology ©2015. This manuscript version is made available under the CC-BY-NC-ND 4.0 license http://creativecommons.org/licenses/by-nc-nd/4.0/ 2 presented in this research. Primary characterizations of the alloys show encouraging results in terms of the mechanical properties.

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Section: Introductionmentioning

confidence: 99%

Imprecise knowledge based design and development of titanium alloys for prosthetic applications

Datta

Mahfouf

Zhang

et al. 2016

Journal of the Mechanical Behavior of Biomedical Materials

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“…Only a limited amount of Genetic Algorithms related studies have been conducted for the rolling process and in this context one really has a very limited amount of prior work to fall back upon [6]. Here we have attempted to solve the problem in two different forms as discussed below.…”

Section: The Modeling Detailsmentioning

confidence: 99%

Optimizing surface profiles during hot rolling: A genetic algorithms based multi-objective optimization

Chakraborti

Kumar

Babu

et al. 2006

Computational Materials Science

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Several variants of Genetic Algorithms have been used to study the surface profiles of hot rolled slabs, quantified in terms of crown, a major parameter related to their geometric tolerances. Two different models are presented, and simulations in a multi-objective mode are carried out to generate the relevant Pareto fronts, which, in turn, are tested against the operational data of an integrated steel plant.

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“…In addition, these algorithms are robust and are easily portable for one type of problem to another with no significant loss of accuracy. Traditionally, these types of algorithms have been widely used for solving the single objective optimisation problems in the materials domain, [15][16][17][18][19] and now their usage in the multi-objective problems is quite prominent. 20 Some of the significant materials related applications are now described.…”

Section: Why Genetic Algorithms?mentioning

confidence: 99%

“…Recently the genetic and evolutionary algorithms 2,3 based approaches have made some very significant contributions in this area. [15][16][17][18][19] These algorithms are non-traditional, in that they are of non-calculus type, and do not use gradient or derivative information, but are nature inspired, thus tend to mimic biological processes like crossover and mutation as well as the group behaviour of a flock of birds, a colony of ants, or the working principles of the immune systems in the developed species. In addition, these algorithms are robust and are easily portable for one type of problem to another with no significant loss of accuracy.…”

Section: Why Genetic Algorithms?mentioning

confidence: 99%

Critical Assessment 3: The unique contributions of multi-objective evolutionary and genetic algorithms in materials research

Chakraborti

2014

Materials Science and Technology

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The current state of the art of materials research using multi-objective genetic and evolutionary algorithms is briefly presented with critical analyses. The basic concepts of multi-objective optimisation and Pareto optimality are explained in simple terms and the advantages of an evolutionary approach are emphasised. Current materials related research in this area is summarised, focusing on the achievements to date and the specific needs for further improvement.

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Genetic algorithms in materials design and processing

Cited by 195 publications

References 165 publications

Imprecise knowledge based design and development of titanium alloys for prosthetic applications

Imprecise knowledge based design and development of titanium alloys for prosthetic applications

Optimizing surface profiles during hot rolling: A genetic algorithms based multi-objective optimization

Critical Assessment 3: The unique contributions of multi-objective evolutionary and genetic algorithms in materials research

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