Progress and Perspectives on Heat Transfer Design Optimization of Functionally Graded Materials Under Large Temperature Gradients
Fang Zhang, Yifu Shen, Haiou Yang

TL;DR
This review summarizes recent advances in optimizing heat transfer in functionally graded materials under extreme temperature conditions for aerospace, energy, and electronics.
Contribution
The paper systematically reviews methodological and application advancements in FGM heat transfer optimization and outlines future research directions.
Findings
Advances in structural, compositional, and multi-objective optimization methods for FGMs are reviewed.
Numerical techniques like peridynamics and isogeometric analysis are highlighted for multiphysics modeling.
Applications in thermal management and challenges like modeling assumptions and reliability evaluation are identified.
Abstract
Large temperature gradients encountered in aerospace, energy, and microelectronics systems impose stringent requirements on material thermal performance. Functionally graded materials (FGMs), characterized by a continuous variation in composition and properties, offer significant advantages in regulating heat transfer and mitigating thermal stresses. This review provides a systematic summary of recent progress in heat transfer design optimization of FGMs under large temperature gradient conditions. From a methodological perspective, advancements in structural and compositional optimization, topology optimization, and multi-objective optimization are reviewed. Numerical simulation techniques, including conventional finite element and finite volume methods, as well as emerging approaches such as peridynamics, isogeometric analysis, and meshfree methods, are discussed with an emphasis on…
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Taxonomy
TopicsComposite Material Mechanics · Thermal properties of materials · Topology Optimization in Engineering
