Integrated Analysis Of Thermal And Mechanical Performance In Advance Engineering Materials: A Comprehensive Review
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Abstract
This comprehensive review explores the integrated analysis of thermal and mechanical performance in advanced engineering materials, recognizing the critical role of such analyses in optimizing material design and application. The paper begins by elucidating the significance of advanced materials in contemporary engineering and introduces the rationale behind simultaneously assessing thermal and mechanical properties. It provides an overview of existing research in the field, emphasizing the need for a holistic understanding of material behavior.
The thermal performance analysis section delves into key thermal properties, including thermal conductivity, specific heat, and thermal expansion, elucidating their relevance across various applications. Experimental techniques for thermal analysis are discussed, incorporating recent advancements in measurement methodologies. The mechanical performance analysis section explores essential mechanical properties such as tensile strength, hardness, and modulus of elasticity, elucidating their influence on material behavior. Experimental techniques for mechanical analysis are outlined, with an emphasis on recent developments in testing methodologies.
The integrated analysis approaches section investigates methods for coupling thermal and mechanical analyses, highlighting the advantages of simultaneous investigations. Furthermore, it explores the utilization of multi-physics simulations in achieving a comprehensive understanding of material behavior, discussing challenges and recent advancements in this area.