Associated tolerance optimization approach using manufacturing difficulty coefficients and genetic algorithm

Purpose The purpose of this paper is to establish a tolerance optimization method based on manufacturing difficulty computation using the genetic algorithm (GA) method. This proposal is among the authors’ perspectives of accomplished previous research work to cooperative optimal tolerance allocation...

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Bibliographic Details
Published in:Assembly automation 2022-12, Vol.42 (6), p.782-795
Main Authors: Ghali, Maroua, Elghali, Sami, Aifaoui, Nizar
Format: Article
Language:English
Subjects:
Assembly
CAD
CAM
Coefficients
Comparative studies
Computation
Computer aided design
Computer aided manufacturing
Concurrent engineering
Failure analysis
Failure modes
Fuzzy sets
Genetic algorithms
Geometry
Heuristic
Literature reviews
Monte Carlo simulation
Optimization
Optimization algorithms
Product development
Production costs
Reliability analysis
Tolerances
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Summary:Purpose The purpose of this paper is to establish a tolerance optimization method based on manufacturing difficulty computation using the genetic algorithm (GA) method. This proposal is among the authors’ perspectives of accomplished previous research work to cooperative optimal tolerance allocation approach for concurrent engineering area. Design/methodology/approach This study introduces the proposed GA modeling. The objective function of the proposed GA is to minimize total cost constrained by the equation of functional requirements tolerances considering difficulty coefficients. The manufacturing difficulty computation is based on tools for the study and analysis of reliability of the design or the process, as the failure mode, effects and criticality analysis (FMECA) and Ishikawa diagram. Findings The proposed approach, based on difficulty coefficient computation and GA optimization method [genetic algorithm optimization using difficulty coefficient computation (GADCC)], has been applied to mechanical assembly taken from the literature and compared to previous methods regarding tolerance values and computed total cost. The total cost is the summation of manufacturing cost and quality loss. The proposed approach is economic and efficient that leads to facilitate the manufacturing of difficult dimensions by increasing their tolerances and reducing the rate of defect parts of the assembly. Originality/value The originality of this new optimal tolerance allocation method is to make a marriage between GA and manufacturing difficulty. The computation of part dimensions difficulty is based on incorporating FMECA tool and Ishikawa diagram This comparative study highlights the benefits of the proposed GADCC optimization method. The results lead to obtain optimal tolerances that minimize the total cost and respect the functional, quality and manufacturing requirements.
ISSN:0144-5154
2754-6969
1758-4078
0144-5154
2754-6977
DOI:10.1108/AA-02-2022-0024