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Understanding Nanoscale Thermal Conduction an Mechanical Strength Correlation in High Temperature Ceramics with Improved Thermal Shock Resistance for Aerospace Applications.

机译：理解纳米级热传导与高温陶瓷的机械强度相关性，具有改善的抗热震性，适用于航空航天应用。

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This research focused on obtaining an understanding of the nanoscale physical mechanisms that govern interfacial interactions and heat transfer in materials at elevated temperatures. The underlying strategy was to understand how thermal conduction at nano

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作者
Tomar, V.;
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年度 2012
页码 1-44
总页数 44
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Aerospace systems; Ceramic materials; Correlation; Thermal conductivity; Heat transfer; Interactions; Interfaces; Phase transformations; Ab initio simulations; Biomimetic materials; High temperature interfacial thermal measurements; Mechanical strength; Molecular sim;

机译：航空航天系统;陶瓷材料;相关性;导热系数;传热;相互作用;界面;相变;从头算模拟;仿生材料;高温界面热测量;机械强度;分子模拟;

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专利

1. Characterization models for thermal shock resistance and fracture strength of ultra-high temperature ceramics at high temperatures [J] . Wang Ruzhuan, Li Weiguo Theoretical and Applied Fracture Mechanics . 2017,第期

机译：高温超高温陶瓷热抗冲击性和断裂强度的特征模型
2. A protective ceramic coating to improve oxidation and thermal shock resistance on CrMn alloy at elevated temperatures [J] . Shan X., Wei L. Q., Zhang X. M., CERAMICS INTERNATIONAL . 2015,第3aPta2期

机译：一种保护性陶瓷涂层，可提高高温下CrMn合金的抗氧化性和抗热震性
3. Investigating the effect of andalusite on mechanical strength and thermal shock resistance of cordierite-spodumene composite ceramics [J] . Cheng Hu, Jianfeng Wu, Xiaohong Xu, CERAMICS INTERNATIONAL . 2018,第3期

机译：堇青石对堇青石 - 跨丁烯复合陶瓷机械强度和热抗冲击性的影响
4. Thermal shock criteria of refractory ceramics: limitations of conventional analyses and some numerical approaches to improve the prediction of the resistance to thermal shock [C] . Nicolas SCHMITT International ceramics congress . 2011

机译：耐火陶瓷的热冲击准则：常规分析的局限性和一些改进对热冲击性能的预测的数值方法
5. Improving the thermal shock resistance of zirconium diboride ceramics. [D] . Zimmermann, James William. 2007

机译：提高二硼化锆陶瓷的耐热冲击性。
6. Theoretical Research on Thermal Shock Resistance of Ultra-High Temperature Ceramics Focusing on the Adjustment of Stress Reduction Factor [O] . Dengjian Li, Weiguo Li, Dingyu Li, 2013

机译：调整应力减小因子的超高温陶瓷抗热震性理论研究
7. Mechanical properties of various concrete after high temperature exposure Mechanical property of various types of concrete after high temperature exposure is investigated. Considering compressive strength requirement for a vertical element in high rise building, concrete specimens with various design strengths of 35, 80, 100, and 150 MPa were tested. Particularly, the influence of incorporated steel fiber on fire resistance is of interest in this study. Experimental results show that the fire resistance depends on the design strength and steel fiber content. Normal strength concrete (NSC) of a design strength of 35 MPa or high performance concrete (HPC) of 80-100 MPa does not spall when exposed to 100-400 °C of temperature. However, an explosive spalling occurs at 300 °C when the HPCs contain 1 vol. of steel fiber. Ultra-high performance concrete (UHPC) of a design strength of 150 MPa and 1.5 vol. of steel fiber also shows dramatic spalling at 300 °C. The experimental results found in this study can contribute to a better understanding of the behaviors of HPC and UHPC under fire and the role of steel fiber on the fire resistance. [O] . 2017

机译：研究了高温暴露后各种混凝土高温曝光机械性能各种混凝土的机械性能。考虑到高层建筑中垂直元件的抗压强度要求，测试了35,80,100和150MPa各种设计强度的混凝土试样。特别是，在这项研究中，掺入钢纤维对耐火性的影响。实验结果表明，耐火性取决于设计强度和钢纤维含量。在暴露于100-400°C的温度时，80-100MPa的设计强度为35MPa或高性能混凝土（HPC）的正常强度混凝土（NSC）不会击落。然而，当HPC含有1体积的钢纤维的百分比时，爆炸性剥落发生在300℃。超高性能混凝土（UHPC）的设计强度为150 MPa和1.5 Vol。钢纤维的百分比也显示出300℃的剧烈剥落。本研究中发现的实验结果可以有助于更好地了解在火灾中的HPC和UHPC的行为以及钢纤维对耐火性的作用。
8. Understanding Nanoscale Thermal Conduction and Mechanical Strength Correlation in High Temperature Ceramics With Improved Thermal Shock Resistance for Aerospace Applications. [R] . Tomar, V., Renaud, J. E. 2010

机译：了解航空航天应用中具有改善的抗热震性的高温陶瓷中的纳米级热传导和机械强度相关性。

Understanding Nanoscale Thermal Conduction an Mechanical Strength Correlation in High Temperature Ceramics with Improved Thermal Shock Resistance for Aerospace Applications.

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