二级炮加载条件下高分辨激光瞬态光谱技术及液态苯的冲击稳定性研究

doi:10.3964/j.issn.1000-0593(2013)10-2603-04

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摘要：报道了二级轻气炮加载条件下高分辨瞬态激光拉曼测试技术，并应用于苯的冲击拉曼光谱研究。实验观测到苯的C—C伸缩振动峰(992 cm^-1)和C—H伸缩振动峰(3 061 cm^-1)在较低的压力区间(8 GPa以内)其频移随压力呈线性变化。并利用拉曼光谱技术澄清了在13 GPa左右液态苯的结构变化问题;在压力为9.7 GPa时，液态苯已经发生结构变化，并不是文献报道的13 GPa，但变化后的产物成分还不清楚。该测量系统为研究透明及半透明物质在动态加载实验中物质微观结构的变化提供一种有效手段。

关键词：拉曼光谱;冲击加载;苯;结构变化

Abstract：The present paper reports the high resolution transient Raman laser testing technology under two-stage light gas-gun loading experiment, and its application to studying the Raman spectroscopy of shocked benzene. In the experiments, the frequency shift of C—C stretching vibration (992 cm^-1) and C—H stretching vibration peak (3 061 cm^-1) in the low pressure section (less than 8 GPa) varies linearly with the pressure, and the results agree well with reported data in the literature. The structural changes in liquid benzene about 13 GPa were clarified firstly by the Raman spectral technique; the experimental results show that at a pressure of 9.7 GPa, the structural change of liquid benzene has taken place, not reported in the literature about 13 GPa. But the composition in the production is not clear. The measurement system provides an effective means to study the microstructure changes of transparent and translucent material under dynamic loading experiment.

Key words：Raman spectroscopy;Shock loading;Benzene;Structural change

收稿日期: 2012-12-14 修订日期: 2013-03-18

中图分类号:

O521.3

通讯作者: 刘福生 E-mail: fusheng_l@sohu.com

引用本文:

赵北京，刘福生^*，王文鹏，张宁超，冯立鹏，张明建，薛学东 . 二级炮加载条件下高分辨激光瞬态光谱技术及液态苯的冲击稳定性研究 [J]. 光谱学与光谱分析, 2013, 33(10): 2603-2606.
ZHAO Bei-jing, LIU Fu-sheng^*, WANG Wen-peng, ZHANG Ning-chao, FENG Li-peng, ZHANG Ming-jian, XUE Xue-dong . High Resolution Laser Transient Spectroscopic Technology under Two-Stage Light Gas-Gun Loading Condition and Stability Study of Shocked Benzene. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2013, 33(10): 2603-2606.

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