作者:顾泽凌, 孟令军, 任楷飞, 白杰
作者单位:中北大学 电子测试技术国防科技重点实验室, 山西 太原 030051
关键词:爆炸桶;含能破片;冲击波超压;隔离噪声;测试
摘要:
为准确测试含能破片在密闭容器中的爆炸冲击波超压,设计一种高效的压力测试方法。该方法采用粘土、硬橡胶垫、钢垫片来避免压力传感器与爆炸桶桶壁的硬接触,基本消除传统测试方法带来的桶壁振动噪声干扰。通过靶场实测结果表明:改进后的传感器测试结构可有效隔离振动噪声,大大减弱桶壁振动对传感器压力测试的影响,获得爆炸桶内壁上有效的含能破片冲击波超压压力数据,满足测试要求。
Study on the method of shock wave overpressure test in explosion bucket
GU Zeling, MENG Lingjun, REN Kaifei, BAI Jie
National Key Laboratory for Electronic Measurement Technology, North University of China, Taiyuan 030051, China
Abstract: In order to accurately test the energetic fragment explosive shock wave overpressure in a closed container, an efficient pressure test method was designed. The method avoids the hard contact between the pressure sensor and the explosion bucket wall through using clay, hard rubber pad and steel gasket. Noise interference caused by vibration of bucket wall existing in previous measurement method, was mostly eliminated. The results of experiment in shooting range suggested that the improved sensor test structure can effectively isolate the vibration noise, greatly weakened the influence of the vibration of the bucket wall and obtained the effective shock wave overpressure data of the energetic fragment on the explosive bucket inner wall. They all met the test requirements.
Keywords: explosion bucket;energetic fragment;shock wave overpressure;isolate noise;test
2018, 44(2): 31-35 收稿日期: 2017-06-15;收到修改稿日期: 2017-07-18
基金项目:
作者简介: 顾泽凌(1992-),男,硕士研究生,专业方向为动态测试存储技术、基于FPGA的数字图像处理。
参考文献
[1] 黄晓敏,石晓丹,张晋文,等. 基于FPGA软核的爆炸场压力测试系统设计与实现[J]. 弹箭与制导学报,2015,35(1):73-76.
[2] 姬建荣,苏健军,孔德仁,等. 爆炸冲击波参数薄膜测试法研究[J]. 中国测试,2016,42(10):22-24,62.
[3] ANDREOPOULOS Y. Shock waves impacting composite material plates:The mutual interaction[J]. Journal of Metals,2013,65(2):185-202.
[4] 杨帆. 框架结构房间内爆炸冲击波传播规律及荷载分布研究[D]. 绵阳:西南科技大学,2014.
[5] LAPPA M, DRIKAKIS D, KOKKINAKIS I. On the propagation and multiple reflections of a blast wave travelling through a dusty gas in a closed box[J]. Physics of Fluids,2017,29(3):19.
[6] HADJADJ A, SADOT O. Shock and blast waves mitigation[J]. Shock Waves,2013,23(1):1-4.
[7] 姬文苏,丁玉奎,谢全民,等. 超临界环境下梯恩梯和黑索金的溶解度参数计算[J]. 应用化工,2014,43(1):53-56.
[8] 郭士旭,余尚江,陈晋央,等. 压电式压力传感器动态特性补偿技术研究[J]. 振动与冲击,2016,35(2):136-140.
[9] 蒋飞,韩峰,王建中,等. 反恐破门弹爆炸冲击波超压试验研究[J]. 北京理工大学学报,2012,32(7):665-668.
[10] ARORA R, SHARMA A. Similarity solutions of cylindrical shock waves in magnetogasdynamics with thermal radiation[J]. Journal of Computational and Nonlinear Dynamics,2015,11(3):1-12.
[11] KNOCK C. Shock waves from Hollow cylinders[J]. Proceedings-29th International Symposium on Ballistics,2016(2):1341-1349.
[12] 程和平,但加坤,黄智蒙,等. 黑索金电子结构和光学性质的第一性原理研究[J]. 物理学报,2013,62(16):21-27.
[13] 成凤生. 密闭空间内爆炸冲击波压力测试及内壁超压分布研究[D]. 南京:南京理工大学,2012.
[14] ELETI A A, ZEREK A R. FIR digital filter design by using windows method with Matlab[C]//14th International Conference on Sciences and Techniques of Automatic Control and Computer Engineering. STA, 2014.
[15] 吴晓娜,侯小兵. 扩展压电传感器频率响应范围的方法研究[J]. 电子测量技术,2015,38(6):100-103.
