Structure Design of Multifunctional Supporting Bench in the Microgravity Combustion Science Experimental System ormalsize
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摘要: 微重力燃烧实验柜安装在载人空间站内,其用途是为研究燃烧提供良好的微重力环境,因而对燃烧理论和模型发展、空天推进动力技术突破、空间防火安全设计等具有重要价值.多功能支撑平板是燃烧实验系统中固定各种光学诊断设备、燃烧室以及辅助类组件的关键支撑结构.在考虑重量和尺寸约束的条件下,平板需保证足够的刚度和安装空间.通过分体式结构设计,使平板在满足安装空间需求的同时能够顺利通过舱门;通过有限元模态分析及优化设计,使平板在满足重量约束的条件下具有足够的刚度.Abstract: The microgravity Combustion Science Rack (CSR) in a manned space station can provide extended duration microgravity environment for combustion study. It thus has significant value for the development of combustion theories and models and the breakthrough of aerospace propulsion technology. In the CSR, the Multifunctional Supporting Bench (MSB) is a crucial structure because it is used to fix a variety of parts and units such as the combustion measuring devices, the combustor and the experimental control modules and so on. The MSB must have enough stiffness and installation space in view of the constraints of size and mass. In this paper, a split-body structure is designed to make the MSB smoothly pass through the hatch. According to the finite element method, structural optimization design as well as modal analysis is employed to satisfy the stiffness requirement without overweight.
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[1] TURNS S R. An Introduction to Combustion:Concepts and Applications 3rd ed.[M]. New York:McGraw-Hill Education, 2012 [2] ZHANG Xia. Research advances on microgravity combustion[J]. Adv. Mech., 2004, 34(4):507-528(张夏. 微重力燃烧研究进展[J]. 力学进展, 2004, 34(4):507-528) [3] ZHANG Hai, CHEN Jialun, ZHANG Pei, et al. Current status and future prospects on microgravity coal combustion[J]. Chin. J. Space Sci., 2016, 36(4):469-475(张海, 陈家伦, 张沛, 等. 微重力煤燃烧研究现状及发展趋势[J]. 空间科学学报, 2016, 36(4):469-475) [4] KONG Wenjun, ZHANG Xiaoqian. Opportunities and progress of research on combustion in microgravity[J]. J. Comb. Sci. Technol., 1997, 3(4):424-426(孔文俊, 张孝谦. 微重力环境下燃烧科学研究的机遇与进展[J]. 燃烧科学与技术, 1997, 3(4):424-426) [5] ROBINSON J A. Research Capabilities in Life & Physical Sciences Early Utilization Results[R]. Washington D C:NASA, 2009 [6] DIETRICH D L, FERKUL P V, BRYG V M, et al. Detailed Results from the Flame Extinguishment Experiment (FLEX) March 2009 to December 2011[R]. NASA/TP-2015-216046, E-18493, GRC-E-DAA-TN5314, Cleveland, OH:NASA, 2015 [7] FRANCISCO D R. Fluids and combustion facility-combustion integrated rack[C]//Proceedings of the 36th AIAA Aerospace Sciences Meeting and Exhibit. Reno NVUSA:AIAA [8] CORBAN R R. Fluids and combustion facility-fluids integrated rack[C]//Proceedings of the 38th Aerospace Sciences Meeting and Exhibit. Reno NVUSA:AIAA [9] Jordan M, Zell M. Possibilities for fluid-physics and combustion experiments on-board the International Space Station (ISS)[J]. Heat Mass Transf., 2001(37):533-542 [10] ZURAWSKI R. The ISS Fluids and Combustion Facility-Microgravity Combustion Science and Fluid Physics Research Capability[R]. Cape Canaveral, FL:AIAA-4925, 2001 [11] MCNELIS M E, SUAREZ V J, SULLIVAN T L, et al. Fluids and Combustion Facility:Combustion Integrated Rack Modal Model Correlation[R]. Cleveland, OH:NASA, 2005 [12] LIANG Xingpei, WANG Hui. Structural Optimization Design Based on the Finite Element Method:Principles and Applications[M]. Beijing:Tsinghua University Press, 2010(梁醒培, 王辉. 基于有限元法的结构优化设计:原理与工程应用[M]. 北京:清华大学出版社, 2010) [13] SHI Yiping, ZHOU Yurong. Case Explanations for ABAQUS[M]. Beijing:China Machine Press, 2006(石亦平, 周玉蓉. ABAQUS有限元分析实例详解[M]. 北京:机械工业出版社, 2006) -
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