激光与光电子学进展, 2020, 57 (1): 010005, 网络出版: 2020-01-03   

超快激光加热技术传热理论研究进展 下载: 2069次

Research Progress on Heat Transfer Theory in Ultra-Fast Laser Heating Technology
作者单位
山东建筑大学热能工程学院, 山东 济南 250101
摘要
超快激光加热技术逐渐应用于诸多领域,其中涉及到的导热机制受到了广泛关注。传统的傅里叶传热定律不足以正确描述超快速过程的导热机制,因此结合本课题组在超快激光加热技术传热理论领域的研究成果,综述了超快激光加热技术的传热理论研究概况,对近年来受到关注的格子Boltzmann方法、蒙特卡罗方法和分子动力学方法在超快激光加热传热理论研究中的应用也进行了介绍,并展望了超快激光加热技术传热理论的研究方向。
Abstract
Ultra-fast laser heating technology has been gradually applied in many fields, and the thermal conduction mechanism has received significant attention. The traditional Fourier heat-transfer law is insufficient for correctly describing the thermal conduction mechanism in the ultra-fast process. Therefore, based on the results of the previous researches on heat-transfer theory of ultra-fast laser heating technology, this paper summarizes an overview of the heat transfer of ultra-fast laser heating technology. Simultaneously, applications of the lattice Boltzmann, Monte Carlo, and molecular dynamics methods in ultra-fast laser heating heat-transfer theory research, which have attracted considerable attention in recent years, are briefly introduced. Finally, future prospects for heat transfer theory in ultra-fast laser heating technology are examined in this paper.

吕慧丽, 毛煜东, 于明志, 杨开敏, 刘芳, 王远成. 超快激光加热技术传热理论研究进展[J]. 激光与光电子学进展, 2020, 57(1): 010005. Huili Lü, Yudong Mao, Mingzhi Yu, Kaimin Yang, Fang Liu, Yuancheng Wang. Research Progress on Heat Transfer Theory in Ultra-Fast Laser Heating Technology[J]. Laser & Optoelectronics Progress, 2020, 57(1): 010005.

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