Researchers identify best algorithms to optimize performance of functionally graded materials

Celebrity Gig
Credit: CC0 Public Domain

A study from Japan published in the International Journal of Computer Aided Engineering and Technology reveals a way to optimize the composition of functionally graded materials (FGMs). FGMs are advanced composite materials with a gradual variation in composition and properties across their volume, designed to optimize performance under specific loading conditions.

The work could be used to mitigate residual thermal stress in uniformly cooled, multi-layered FGM plates, allowing them to cope better with the significant thermal cycles found in aerospace applications and in the power generation industry.

Ryoichi Chiba of the Department of Mechanical Engineering at Sanyo-Onoda City University has used what are referred to as black-box optimization (BBO) techniques within the open-source framework Optuna to carry out the investigation. Optuna is known as a user-friendly interface, ideal for complex optimization tasks.

READ ALSO:  Next-generation solar cells become more powerful with silver-doping technology

Chiba has used three Optuna algorithms: the tree-structured Parzen estimator (TPE), the covariance matrix adaptation evolutionary strategy (CMA-ES), and the non-dominated sorting genetic algorithm II (NSGA-II). Each of these algorithms offers a unique approach to optimization, with TPE focusing on rapid convergence, and CMA-ES and NSGA-II on evolutionary strategies.

The optimization of FGMs has always proved a tough task as there are so many variables at play in their design and production, any one of which might have a significant positive or negative impact on their properties.

READ ALSO:  Walter Isaacson biography of Elon Musk excerpt

Chiba explains that the CMA-ES algorithm worked best. While TPE converged quickly on a solution, its optimization quality was not as high as the more thorough evolutionary approaches of CMA-ES and NSGA-II. There were, the work shows, problems that can arise in attempting to account for interactions between design variables that were sometimes counterproductive, leading to a more complicated optimization rather than an enhanced process.

READ ALSO:  Experts warn against hype for deriving green hydrogen from direct seawater electrolysis

More information:
Ryoichi Chiba, Comparing open-source optimisation algorithms for functionally graded material design: a thermoelastic case study, International Journal of Computer Aided Engineering and Technology (2024). DOI: 10.1504/IJCAET.2024.138652

Citation:
Researchers identify best algorithms to optimize performance of functionally graded materials (2024, May 24)
retrieved 25 May 2024
from

This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no
part may be reproduced without the written permission. The content is provided for information purposes only.

Categories

Share This Article
Leave a comment