多层侵彻过载存储测试技术研究
摘要
多层侵彻过载参数对于武器战斗部设计和防护工程设计具有非常重要的意义。本文针对多层过载存储测试技术进行了以下几个方面的研究:
(1)通过数值模拟的方法使用LS-DYNA软件对弹丸侵彻三层钢板过程进行了仿真,从中分析了多层侵彻过程及侵彻过载的特点;通过对加速度传感器等效模型分析,明确了侵彻实测过载信号中的信息成分和特点,为过载信号采集系统设计和数据处理提供了理论依据;结合对测试环境的分析,提出了测试系统的设计指标和设计原则,确定了总体测试方案。
(2)根据所确定的测试方案设计了多层侵彻过载测试系统的硬件电路;
(3)从机械结构设计、电路模块灌封技术、缓冲隔离技术三个方面研究了多层侵彻环境下弹载测试仪的抗高过载技术。在对电路模块的缓冲保护中,设计了一种泡沫铝外套钢壳的缓冲结构,使用空气炮加载装置对其多次缓冲性能进行了动态考核,验证了其可用于多层侵彻环境下电路模块的缓冲保护;
(4)基于LabVIEW设计了测试系统的上位机软件,实现了与过载测试仪通信和对测试数据处理与分析等功能。
最后,对测试系统进行了整体测试,验证了其可靠性,并在某靶场进行了多层侵彻实弹试验,成功的测得了某弹丸侵彻多层混凝土靶的全弹道过载数据,并使用本文开发的上位机软件完成了实测数据的处理与分析,所得到的测试结果与实际情况吻合较好。由此表明,本文对于多层侵彻过载存储测试所进行的研究可用于多层侵彻过载的实弹测试。
It is of great significance for weapons warhead design and protection engineering design.to acquire the multi-layer penetration overload. In this paper, multi-layer overload memorytesting techniques have been studied from the following aspects.
(1) A projectile penetrating three-layer plate is simulate based on numerical simulationmethod by LS-DYNA, from which analysis of the penetration process and the characteristicsof multi-layer penetration overload is given; By analysis of equivalent model of theacceleration sensor, the composition and characteristics of the measured overload signal wereexplicated,which provides a theoretical basis for the signal acquisition system design anddata processing. Combined analysis of the measuring environment, test system designspecifications and design principles were given to determine the overall design.
(2) According to the identified test program, the hardware circuits of the multi-layerpenetration test system is designed.
(3) From the aspects of the mechanical structure design, circuit module encapsulationtechnology, the buffer isolation technology to study the restraint-high overloads technologyunder the environment of multi-layer penetration. A buffer structure that combinedthin-walled steel pipe with aluminum foam is designed for the buffer protection of on-boardcircuit module, and the air gun is employed to verify the multi-cushioning properties ofdesigned buffer structure, and it’s proved that the designed buffer can protect the circuitmodule under the environment of multi-layer penetration.
(4) The host computer software of the test system is programmed based on LabVIEW,which accomplish the tasks that communicate with the overload measuring equipment, dataprocessing and analysis.
Finally, a overall test is accomplished to verify the reliability of the test system. And thewhole trajectory overload data of the penetration of multi-layered concrete is successfullymeasured in a range, and the measured data is processed on the host computer softwaredeveloped in this paper. It shows that the overload measured by the measurement systemagrees well with the actual cases. It is demonstrated that the storage measurement technologyof multi-layer penetration overloads studied in this paper can be applied for multi-layerpenetration live-fire test.
(1)通过数值模拟的方法使用LS-DYNA软件对弹丸侵彻三层钢板过程进行了仿真,从中分析了多层侵彻过程及侵彻过载的特点;通过对加速度传感器等效模型分析,明确了侵彻实测过载信号中的信息成分和特点,为过载信号采集系统设计和数据处理提供了理论依据;结合对测试环境的分析,提出了测试系统的设计指标和设计原则,确定了总体测试方案。
(2)根据所确定的测试方案设计了多层侵彻过载测试系统的硬件电路;
(3)从机械结构设计、电路模块灌封技术、缓冲隔离技术三个方面研究了多层侵彻环境下弹载测试仪的抗高过载技术。在对电路模块的缓冲保护中,设计了一种泡沫铝外套钢壳的缓冲结构,使用空气炮加载装置对其多次缓冲性能进行了动态考核,验证了其可用于多层侵彻环境下电路模块的缓冲保护;
(4)基于LabVIEW设计了测试系统的上位机软件,实现了与过载测试仪通信和对测试数据处理与分析等功能。
最后,对测试系统进行了整体测试,验证了其可靠性,并在某靶场进行了多层侵彻实弹试验,成功的测得了某弹丸侵彻多层混凝土靶的全弹道过载数据,并使用本文开发的上位机软件完成了实测数据的处理与分析,所得到的测试结果与实际情况吻合较好。由此表明,本文对于多层侵彻过载存储测试所进行的研究可用于多层侵彻过载的实弹测试。
It is of great significance for weapons warhead design and protection engineering design.to acquire the multi-layer penetration overload. In this paper, multi-layer overload memorytesting techniques have been studied from the following aspects.
(1) A projectile penetrating three-layer plate is simulate based on numerical simulationmethod by LS-DYNA, from which analysis of the penetration process and the characteristicsof multi-layer penetration overload is given; By analysis of equivalent model of theacceleration sensor, the composition and characteristics of the measured overload signal wereexplicated,which provides a theoretical basis for the signal acquisition system design anddata processing. Combined analysis of the measuring environment, test system designspecifications and design principles were given to determine the overall design.
(2) According to the identified test program, the hardware circuits of the multi-layerpenetration test system is designed.
(3) From the aspects of the mechanical structure design, circuit module encapsulationtechnology, the buffer isolation technology to study the restraint-high overloads technologyunder the environment of multi-layer penetration. A buffer structure that combinedthin-walled steel pipe with aluminum foam is designed for the buffer protection of on-boardcircuit module, and the air gun is employed to verify the multi-cushioning properties ofdesigned buffer structure, and it’s proved that the designed buffer can protect the circuitmodule under the environment of multi-layer penetration.
(4) The host computer software of the test system is programmed based on LabVIEW,which accomplish the tasks that communicate with the overload measuring equipment, dataprocessing and analysis.
Finally, a overall test is accomplished to verify the reliability of the test system. And thewhole trajectory overload data of the penetration of multi-layered concrete is successfullymeasured in a range, and the measured data is processed on the host computer softwaredeveloped in this paper. It shows that the overload measured by the measurement systemagrees well with the actual cases. It is demonstrated that the storage measurement technologyof multi-layer penetration overloads studied in this paper can be applied for multi-layerpenetration live-fire test.
引文
[1]王政.弹靶侵彻动态响应的理论及数值分析[D].上海:复旦大学,2005.
[2]何翔,刘瑞朝,孙桂娟等.弹体侵彻多层介质的运动规律研究[C].第一届全国工程安全与防护学术会议,2008:92~98.
[3]秦元岗.带末端多约束的航空侵彻炸弹制导规律研究[D].长沙:国防科技大学,2010.
[4]《大型钻地弹的思考》,摘自百度文库:http://wenku.baidu.com/view/da0e8fb269dc5022aaea00f3.html.
[5]吴三灵,李科杰,张振海等.强冲击试验与测试技术[M].北京:国防工业出版社,2010:243~280.
[6]Gary H. Parsons, Joseph Gregory Glenn. Hard target penetrator with multi-segmentingcasing cutter[P]. The United States:5698814,1997-12-06.
[7]张文栋.存储测试系统的设计理论及其应用[M].北京:高等教育出版社,2002:1~2.
[8]Szabo L R,Glass L H. Applications of recoverable digital memory telemeters in artilleryprojectiles[J]. Proceedings of International telemetering conference.1982,18:217~235.
[9]Szabo L R. Digital memory telemeters for artillery projectiles[J]. Proceedings ofInternational telemetering conference.1987,23:653~664.
[10]Szabo L R, Osborne W I. Advances in digital memory telemeters for artillery projectiles[J].Proceedings of International telemetering conference,1983:321~345.
[11]Franco R A,Ingram J K.A very high shock data recorder[M].IEEE.1991:503~507.
[12]宋萍,李科杰.硬目标侵彻武器高冲击试验和高过载传感器技术国外发展概况[J].测控技术.2002,21(zl):30~32.
[13]Booker P M,Cargile J D, Kistler B L. Investigation on the response of segmented concretetargets to projectile impacts[J].International Journal of Impact Engineering.2009,36(7):926~939.
[14]张文栋.存储测试系统的设计理论及其在导弹动态数据测试中的应用[D].北京:北京理工大学,1995.
[15]徐鹏.高g值冲击测试及弹载存储测试装置本征特性研究[D].太原:中北大学,2006.
[16]申湘南,祖静.兵器存储测试技术的若干理论问题与实践[C].中国兵工学会第六届测试技术学会论文集,1992.
[17]祖静,申湘南,张文栋.存储测试技术[J].测试技术学报.1994,8(2):25~30.
[18]范锦彪,徐鹏,李东红等.硬目标侵彻动态参数记录仪[J].仪器仪表学报.2004,25(zl):197~199.
[19]范锦彪,徐鹏,王燕等.高速动能弹侵彻钢板加速度测试技术研究[J].弹箭与制导学报.2008,28(2):121~126.
[20]沙龙.多层侵彻加速度及弹底压力测试技术研究[D].太原:中北大学,2010.
[21]刘立军.多层复合介质侵彻测试技术研究[D].太原:中北大学,2010.
[22]文丰,任勇峰,王强.高冲击随弹测试固态记录器的设计与应用[J].爆炸与冲击.2009,29(2):221~224.
[23]江小华,李豪杰,张河等.小型弹内存储测试系统研究[J].弹道学报.2002,14(2):57~61.
[24]吴俊.多功能弹对目标的侵彻过载存储测试技术研究[D].南京:南京理工大学,2008.
[25]李雪,许加堂,陶文圣.弹丸侵彻双层钢板的三维数值模拟[J].四川兵工学报.2009,30(1):120~122.
[26]袁希光.传感器技术手册[M].北京:国防工业出版社,1986.562~563.
[27]杨明,杨志刚,林祖森等.加速度计输出信号的信息组成[J].华北工学院学报.2000,21(1):44~46.
[28]张国伟,冯顺山,俞为民.高冲击过载加速度传感器零漂分析[J].华北工学院学报.2004,25(1):64~67.
[29]王成华,陈佩银,徐孝诚.侵彻过载实测数据的滤波及弹体侵彻刚体过载的确定[J].爆炸与冲击.2007,27(5):416~419.
[30]刘鑫.膛内强化过载弹体三维加速度测试系统研究[D].南京:南京理工大学,2011.
[31]张兵,石庚辰.侵彻硬目标识别技术中的机械滤波[J].探测与控制学报.2010,32(4):25~29.
[32]景鹏.高g值冲击测试关键技术研究[D].太原:中北大学,2009.
[33]Bonnie C B.数据采集系统中滤波器的选择[J].电子设计应用.2004,(11):115~117.
[34]Bonnie C B.为传感器信号路径设计二阶抗混叠滤波器[J].电子设计应用.2010,(1):56~58.
[35]李刚,程立君.高精度数据采集中抗混叠滤波器的设计[J].国外电子元器件.2007,(8):30~33.
[36]杜红.抗高冲击高稳定性无晶振高频源研究[D].太原:中北大学,2004.
[37]徐鹏.高g值加速度作用下晶振的失效机理分析[J].中北大学学报.2010,31(4):424~428.
[38]李乐,祖静,徐鹏.晶振芯片在高g值冲击下的失效机理分析[J].仪器仪表学报.2006,27(z1):2589~2590.
[39]徐鹏. CPLD芯片抗高g值冲击性能分析[J].振动与冲击.2007,26(1):148~150.
[40]张毅,申川.铁电存储器在存储测试系统中的应用[J].电子设计工程.2011,19(21):17~20.
[41]尚凤晗.基于可编程器件的存储测试系统设计[D].太原:中北大学,2009.
[42]刘吉名.存储测试系统中USB2.0接口的设计[D].太原:中北大学,2008.
[43]申伟. USB数据传输技术研究及其应用[D].太原:中北大学,2009.
[44]徐鹏.高g值冲击下存储测试电路模块缓冲保护研究[J].实验力学.2005,20(4):610~614.
[45]钱立志.弹载任务设备抗高过载方法研究[J].兵工学报.2007,28(8):1017~1020.
[46]马游春.微型高过载存储测试系统研究[D].太原:中北大学,2003.
[47]吕彩琴,翟成瑞.高过载测试中的电子线路灌封技术研究[J].机械工程与自动化.2009,(5):90~92.
[48]吴晓莉,张河.高冲击下电子线路灌封材料的缓冲机理及措施研究[J].机包装工程.2004,25(1):44~46.
[49]哈恩华,寇开昌,陈立新.环氧灌封材料的研究进展[J].化工进展.2003,22(10):1057~1060.
[50]孙曼灵.环氧树脂应用原理与技术[M].北京:机械工业出版社.2002:435~439.
[51]宋宏伟,虞钢,范子杰等.多孔材料填充薄壁结构吸能的相互作用效应[J].力学学报.2005,37(6):697~703.
[52]富裕.泡沫铝静动态压缩力学行为、吸能性能及压缩破坏机理的实验研究[D].成都:西南石油大学,2006.
[53]王玉伟.基于LabVIEW的测试软件设计[D].太原:中北大学,2009.
[54]陈锡辉,张银鸿.LabVIEW8.20程序设计从入门到精通[M].北京:清华大学出版社.2007:203~204.
[2]何翔,刘瑞朝,孙桂娟等.弹体侵彻多层介质的运动规律研究[C].第一届全国工程安全与防护学术会议,2008:92~98.
[3]秦元岗.带末端多约束的航空侵彻炸弹制导规律研究[D].长沙:国防科技大学,2010.
[4]《大型钻地弹的思考》,摘自百度文库:http://wenku.baidu.com/view/da0e8fb269dc5022aaea00f3.html.
[5]吴三灵,李科杰,张振海等.强冲击试验与测试技术[M].北京:国防工业出版社,2010:243~280.
[6]Gary H. Parsons, Joseph Gregory Glenn. Hard target penetrator with multi-segmentingcasing cutter[P]. The United States:5698814,1997-12-06.
[7]张文栋.存储测试系统的设计理论及其应用[M].北京:高等教育出版社,2002:1~2.
[8]Szabo L R,Glass L H. Applications of recoverable digital memory telemeters in artilleryprojectiles[J]. Proceedings of International telemetering conference.1982,18:217~235.
[9]Szabo L R. Digital memory telemeters for artillery projectiles[J]. Proceedings ofInternational telemetering conference.1987,23:653~664.
[10]Szabo L R, Osborne W I. Advances in digital memory telemeters for artillery projectiles[J].Proceedings of International telemetering conference,1983:321~345.
[11]Franco R A,Ingram J K.A very high shock data recorder[M].IEEE.1991:503~507.
[12]宋萍,李科杰.硬目标侵彻武器高冲击试验和高过载传感器技术国外发展概况[J].测控技术.2002,21(zl):30~32.
[13]Booker P M,Cargile J D, Kistler B L. Investigation on the response of segmented concretetargets to projectile impacts[J].International Journal of Impact Engineering.2009,36(7):926~939.
[14]张文栋.存储测试系统的设计理论及其在导弹动态数据测试中的应用[D].北京:北京理工大学,1995.
[15]徐鹏.高g值冲击测试及弹载存储测试装置本征特性研究[D].太原:中北大学,2006.
[16]申湘南,祖静.兵器存储测试技术的若干理论问题与实践[C].中国兵工学会第六届测试技术学会论文集,1992.
[17]祖静,申湘南,张文栋.存储测试技术[J].测试技术学报.1994,8(2):25~30.
[18]范锦彪,徐鹏,李东红等.硬目标侵彻动态参数记录仪[J].仪器仪表学报.2004,25(zl):197~199.
[19]范锦彪,徐鹏,王燕等.高速动能弹侵彻钢板加速度测试技术研究[J].弹箭与制导学报.2008,28(2):121~126.
[20]沙龙.多层侵彻加速度及弹底压力测试技术研究[D].太原:中北大学,2010.
[21]刘立军.多层复合介质侵彻测试技术研究[D].太原:中北大学,2010.
[22]文丰,任勇峰,王强.高冲击随弹测试固态记录器的设计与应用[J].爆炸与冲击.2009,29(2):221~224.
[23]江小华,李豪杰,张河等.小型弹内存储测试系统研究[J].弹道学报.2002,14(2):57~61.
[24]吴俊.多功能弹对目标的侵彻过载存储测试技术研究[D].南京:南京理工大学,2008.
[25]李雪,许加堂,陶文圣.弹丸侵彻双层钢板的三维数值模拟[J].四川兵工学报.2009,30(1):120~122.
[26]袁希光.传感器技术手册[M].北京:国防工业出版社,1986.562~563.
[27]杨明,杨志刚,林祖森等.加速度计输出信号的信息组成[J].华北工学院学报.2000,21(1):44~46.
[28]张国伟,冯顺山,俞为民.高冲击过载加速度传感器零漂分析[J].华北工学院学报.2004,25(1):64~67.
[29]王成华,陈佩银,徐孝诚.侵彻过载实测数据的滤波及弹体侵彻刚体过载的确定[J].爆炸与冲击.2007,27(5):416~419.
[30]刘鑫.膛内强化过载弹体三维加速度测试系统研究[D].南京:南京理工大学,2011.
[31]张兵,石庚辰.侵彻硬目标识别技术中的机械滤波[J].探测与控制学报.2010,32(4):25~29.
[32]景鹏.高g值冲击测试关键技术研究[D].太原:中北大学,2009.
[33]Bonnie C B.数据采集系统中滤波器的选择[J].电子设计应用.2004,(11):115~117.
[34]Bonnie C B.为传感器信号路径设计二阶抗混叠滤波器[J].电子设计应用.2010,(1):56~58.
[35]李刚,程立君.高精度数据采集中抗混叠滤波器的设计[J].国外电子元器件.2007,(8):30~33.
[36]杜红.抗高冲击高稳定性无晶振高频源研究[D].太原:中北大学,2004.
[37]徐鹏.高g值加速度作用下晶振的失效机理分析[J].中北大学学报.2010,31(4):424~428.
[38]李乐,祖静,徐鹏.晶振芯片在高g值冲击下的失效机理分析[J].仪器仪表学报.2006,27(z1):2589~2590.
[39]徐鹏. CPLD芯片抗高g值冲击性能分析[J].振动与冲击.2007,26(1):148~150.
[40]张毅,申川.铁电存储器在存储测试系统中的应用[J].电子设计工程.2011,19(21):17~20.
[41]尚凤晗.基于可编程器件的存储测试系统设计[D].太原:中北大学,2009.
[42]刘吉名.存储测试系统中USB2.0接口的设计[D].太原:中北大学,2008.
[43]申伟. USB数据传输技术研究及其应用[D].太原:中北大学,2009.
[44]徐鹏.高g值冲击下存储测试电路模块缓冲保护研究[J].实验力学.2005,20(4):610~614.
[45]钱立志.弹载任务设备抗高过载方法研究[J].兵工学报.2007,28(8):1017~1020.
[46]马游春.微型高过载存储测试系统研究[D].太原:中北大学,2003.
[47]吕彩琴,翟成瑞.高过载测试中的电子线路灌封技术研究[J].机械工程与自动化.2009,(5):90~92.
[48]吴晓莉,张河.高冲击下电子线路灌封材料的缓冲机理及措施研究[J].机包装工程.2004,25(1):44~46.
[49]哈恩华,寇开昌,陈立新.环氧灌封材料的研究进展[J].化工进展.2003,22(10):1057~1060.
[50]孙曼灵.环氧树脂应用原理与技术[M].北京:机械工业出版社.2002:435~439.
[51]宋宏伟,虞钢,范子杰等.多孔材料填充薄壁结构吸能的相互作用效应[J].力学学报.2005,37(6):697~703.
[52]富裕.泡沫铝静动态压缩力学行为、吸能性能及压缩破坏机理的实验研究[D].成都:西南石油大学,2006.
[53]王玉伟.基于LabVIEW的测试软件设计[D].太原:中北大学,2009.
[54]陈锡辉,张银鸿.LabVIEW8.20程序设计从入门到精通[M].北京:清华大学出版社.2007:203~204.