High-Temperature Material Characterization for Multispectral Window

机译：多光谱窗口的高温材料表征

获取原文

获取原文并翻译 | 示例

页面导航

摘要
著录项
相似文献
相关主题

摘要

A microwave cylindrical cavity combined with a laser has been investigated to characterize the temperature dependence of widow materials in the Air Force Research Laboratory (AFRL). This paper discusses the requirements of high temperature RF material characterizations for transparent ceramic materials, such as ALON, that can potentially be used for multispectral windows. The RF cylindrical resonator was designed and the numerical model was studied to characterize the dielectric constant of materials. The dielectric constant can be extracted from the resonant frequency shift based on the cavity perturbation method (CPM), which is sensitive to the sample size and shape. Laser heating was applied to the material under test (MUT), which could easily be heated above 1000°C by the laser irradiation, in order to conduct CPM at high temperature. The temperature distribution in a material was also analyzed to investigate the impact of the thermal properties and the sample shape.

机译：在空军研究实验室（AFRL）中，已经研究了结合有激光器的微波圆柱形空腔来表征寡妇材料的温度依赖性。本文讨论了透明射频陶瓷材料（例如ALON）的高温射频材料特性要求，这些材料有可能用于多光谱窗口。设计了射频圆柱谐振器，并研究了数值模型来表征材料的介电常数。可以基于腔扰动方法（CPM）从谐振频率偏移中提取介电常数，该方法对样品的大小和形状敏感。对被测材料（MUT）进行激光加热，以便在高温下进行CPM，可以通过激光辐照将其轻松加热到1000°C以上。还分析了材料中的温度分布，以研究热性能和样品形状的影响。

著录项

来源
《Window and Dome Technologies and Materials XV》|2017年|101790E.1-101790E.7|共7页
会议地点 Anaheim(US)
作者
James Park; Marvin-Ray Arida; Zahyun Ku; Woo-Yong Jang; Augustine M. Urbas;
展开▼
作者单位

Sensors Directorate, Air Force Research Laboratory, Dayton, OH;

Air Force Institute of Technology, Dayton, OH;

Materials and Manufacturing Directorate, Air Force Research Laboratory, Dayton, OH;

Sensors Directorate, Air Force Research Laboratory, Dayton, OH,Sensor APEX, University of Dayton Research Institute, Dayton, OH;

Materials and Manufacturing Directorate, Air Force Research Laboratory, Dayton, OH;

展开▼
会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Cavity perturbation method; material characterization; multispectral window; high temperature;

机译：腔扰动法；材料表征；多光谱窗口高温;

相似文献

外文文献
中文文献
专利

1. Characterization and thermal properties of a shape-stable Na_2CO_3-K_2CO_3/ coal fly ash/expanded graphite composite phase change materials for high-temperature thermal energy storage [J] . Wang Tieying, Wang Kaichen, Ye Feng, Journal of Energy Storage . 2021,第Jana期

机译：形状稳定NA_2CO_3-K_2CO_3 /煤粉煤灰/膨胀石墨复合相变材料的表征和热性能用于高温热能储存
2. Characterization of Ln(4)Al(2)O(9) (Ln = Y, Sm, Eu, Gd, Tb) rare-earth aluminates as novel high-temperature barrier materials [J] . Moran-Ruiz Aroa, Vidal Karmele, Larranaga Aitor, CERAMICS INTERNATIONAL . 2018,第8期

机译：LN（4）Al（2）O（9）（LN = Y，SM，EU，Gd，TB）稀土铝酸盐的表征为新型高温屏障材料
3. Identification and Characterization of New Materials for Construction of Heating Plates for High-Temperature Guarded Hot Plates [J] . Hameury J., Koenen A., Hay B., International Journal of Thermophysics . 2018,第1期

机译：高温防护热板加热板施工新材料的识别与表征
4. High-Temperature Material Characterization for Multispectral Window [C] . James Park, Marvin-Ray Arida, Zahyun Ku, Conference on Window and Dome Technologies and Materials XV . 2017

机译：多光谱窗口的高温材料特性
5. Characterization of local response of random heterogeneous materials using moving-window GMC and finite element analysis. [D] . Siragy, Eman Farouk. 2002

机译：使用移动窗口GMC和有限元分析表征随机异质材料的局部响应。
6. Spectroscopic characterization of composite lithium materials irradiated with high-temperature plasma [O] . V.P. Budaev, S.D. Fedorovich, A.V. Lubenchenko, 2020

机译：高温等离子体照射复合锂材料的光谱表征
7. Characteristics of Window Materials in Terahertz Regime for the Application of High-Temperature Fusion Plasma Experiments [O] . K. Yamamoto, M. Tani, M. Hangyo, 100

机译：太赫兹体系中窗口材料特性在高温融合等离子体实验中的应用
8. HIGH-TEMPERATURE DIELECTRIC PROPERTIES OF CANDIDATE SPACE-SHUTTLE THERMAL-PROTECTION-SYSTEM ANDnANTENNA-WINDOW MATERIALS [R] . Melvin C. Gilreath, Stark L. Castellow 1974

机译：候选空间 - 隔热保温系统和室内 - 窗材料的高温介电性能

High-Temperature Material Characterization for Multispectral Window

摘要

著录项

相似文献

相关主题

期刊订阅