A Generalized Presentation of Multi-caloric Effects Based on Exterior Derivative Theory and its Applications

Jun Yin
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Abstract

The emerging concept of multicaloric effects, introduced in 2010, entails the application of multiple interplay fields to a thermodynamic system. While multicaloric effects are main focus of experimental endeavors, theoretical considerations fall short of providing a thorough understanding. This paper introduces a comprehensive presentation on multicaloric effects, employing the method and theory of exterior derivative formations. It addresses every aspects of thermodynamic systems, showcasing its applicability to multicaloric materials (both single-phase and multi-phase materials), and its adaptability to different scenarios (either a single or multiple force fields). The formulation of Maxwell relationships, characterized by their generality and universality, enables a clear prediction in entropy and temperature, facilitating a distinct identification between independent and interdependent contributions from multicaloric effects.These insights hold significant importance in designing and developing specialized thermodynamic materials, optimizing functional performances and exploring innovative mechanisms.
基于外差理论的多热量效应通用表述及其应用
多热效应这一新兴概念于 2010 年提出,它是指在热力学系统中应用多个相互作用场。虽然多热效应是实验研究的重点,但理论研究还不足以提供透彻的理解。本文采用外部导数形成的方法和理论,全面介绍了多热效应。它涉及热力学系统的方方面面,展示了其对多热材料(单相和多相材料)的适用性,以及对不同情况(单个或多个力场)的适应性。麦克斯韦关系的表述具有通用性和普遍性的特点,能够清晰地预测熵和温度,有助于明确识别多热效应的独立贡献和相互依赖贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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