火炮身管无损检测方法
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摘要
为了延长火炮身管寿命,进一步提高射击精度。研究火炮身管缺陷检测技术,结合身管不同的损伤类型,通过比较不同的身管检测方法,讨论它们的优缺点和发展前景,并得出相控聚焦超声导波检测新技术的优越性,应用在火炮身管检测中,可占据优势地位,使其可以更好地投入到军队的实际应用中,提高作战效能。
To prolong the life-span of gun barrels and further improve the firing accuracy,this paper explores defect testing technologies of gun barrels. By comparing different testing methods of barrels and discussing their weaknesses,strengths and the prospects,It is concluded that phase-controlled ultrasonic guided wave testing is predominant among these testing technologies,which can be practically applied into armies to improve their combat skills.
To prolong the life-span of gun barrels and further improve the firing accuracy,this paper explores defect testing technologies of gun barrels. By comparing different testing methods of barrels and discussing their weaknesses,strengths and the prospects,It is concluded that phase-controlled ultrasonic guided wave testing is predominant among these testing technologies,which can be practically applied into armies to improve their combat skills.
引文
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[3]管怀建,唐亮,刘霞.火炮身管内膛烧蚀现象研究[J].火力与指挥控制,2013,38(3):131-133.
[4]Pavlopoulou S,Worden K,Soutis C.Structural Health Monitoring and Damage Prognosis in Composite Repaired Structures Through the Excitation Ofguided Ultrasonic Waves[J].Health Monitoring of Structural and Biological Systems2013,Proc.of SPIE:8695 869504.1-869504-15.
[5]林俊明.电磁(涡流)检测设备的研究现状及发展趋势[J].南昌航空大学学报,2007,21(增刊):59-62.
[6]金勇,苏志坚.常规无损检测方法的比较[J].科技资讯,2011(20):143.
[7]陈海英,李华桃.常用无损检测方法的特点及应用选择[J].无损探伤,2009,33(5):23-24.
[8]Cordell J L.In-line Inspection:What Technology is Best[J].Pipe Line Industry,1991(7):47-58.
[9]Donald E Y,Mark J M,Jack R R,et al.Ultrasonic Measurements of Bore Temperature in Large Caliber Guns[J].Industrial Measurement Systems,2008(7):512-520.
[10]王文浩.浅谈超声无损检测的发展趋势[J].化学工程与装备,2013(5):168-170.
[11]中国无损检测学会.超声波探伤[M].北京:机械工业出版社,1987.
[12]郝晓军,牛晓光,郝红卫,等.结合TOFD与脉冲反射法的符合超声检测系统的研制[J].无损检测,2010,32(1):63-65.
[13]熊超,吕建刚,张进秋,等.火炮身管超声波检测技术[J].无损检测,2003,25(2):43-45.
[14]李一博,靳世久,孙立瑛.超声导波在管道中的传播特性的研究[J].电子测量与仪器学报,2005,19(5):63-66.
[15]Bibi Intan Suraya Murat and Paul Fromme.Detection of Impact Damage in Composite Panels using Guided Ultrasonic Waves[J].Health Monitoring of Structural and Biological Systems 2013,Proc.of SPIE:8695 869506.1-869506.8.
[16]Nilesh K,Tribikram K.Material Hardness and Ageing Measurement Using Guided Ultrasonic Waves[J].Ultrasonice,2013(53):506–510.
[17]顾军.超声导波在管中的频散特性及实验研究[D].大连:大连理工大学,2009.
[18]武琳.超声导波在钢轨中传播特性的仿真方法研究[D].北京:北京交通大学,2013.
[19]孙学伟.复杂结构中导波的传播机理与结构损伤识别研究[D].上海:上海交通大学,2013.
[20]Sun Z Q,Zhang L,Rose J L.Flexural Torsional Guided Wave Mechanics and Focusing In Pipe[J].Journal of Pressure Vessel Technology,2005(127):471-478.
[21]吴斌,符浩,何存富.超声导波虚拟相控聚焦方法研究[J].仪器仪表学报,2013,34(3):509-516.
[2]王坚,苏建刚,任现君.身管内壁形貌检测技术研究[J].中国测试技术,2004,30(4):52-54.
[3]管怀建,唐亮,刘霞.火炮身管内膛烧蚀现象研究[J].火力与指挥控制,2013,38(3):131-133.
[4]Pavlopoulou S,Worden K,Soutis C.Structural Health Monitoring and Damage Prognosis in Composite Repaired Structures Through the Excitation Ofguided Ultrasonic Waves[J].Health Monitoring of Structural and Biological Systems2013,Proc.of SPIE:8695 869504.1-869504-15.
[5]林俊明.电磁(涡流)检测设备的研究现状及发展趋势[J].南昌航空大学学报,2007,21(增刊):59-62.
[6]金勇,苏志坚.常规无损检测方法的比较[J].科技资讯,2011(20):143.
[7]陈海英,李华桃.常用无损检测方法的特点及应用选择[J].无损探伤,2009,33(5):23-24.
[8]Cordell J L.In-line Inspection:What Technology is Best[J].Pipe Line Industry,1991(7):47-58.
[9]Donald E Y,Mark J M,Jack R R,et al.Ultrasonic Measurements of Bore Temperature in Large Caliber Guns[J].Industrial Measurement Systems,2008(7):512-520.
[10]王文浩.浅谈超声无损检测的发展趋势[J].化学工程与装备,2013(5):168-170.
[11]中国无损检测学会.超声波探伤[M].北京:机械工业出版社,1987.
[12]郝晓军,牛晓光,郝红卫,等.结合TOFD与脉冲反射法的符合超声检测系统的研制[J].无损检测,2010,32(1):63-65.
[13]熊超,吕建刚,张进秋,等.火炮身管超声波检测技术[J].无损检测,2003,25(2):43-45.
[14]李一博,靳世久,孙立瑛.超声导波在管道中的传播特性的研究[J].电子测量与仪器学报,2005,19(5):63-66.
[15]Bibi Intan Suraya Murat and Paul Fromme.Detection of Impact Damage in Composite Panels using Guided Ultrasonic Waves[J].Health Monitoring of Structural and Biological Systems 2013,Proc.of SPIE:8695 869506.1-869506.8.
[16]Nilesh K,Tribikram K.Material Hardness and Ageing Measurement Using Guided Ultrasonic Waves[J].Ultrasonice,2013(53):506–510.
[17]顾军.超声导波在管中的频散特性及实验研究[D].大连:大连理工大学,2009.
[18]武琳.超声导波在钢轨中传播特性的仿真方法研究[D].北京:北京交通大学,2013.
[19]孙学伟.复杂结构中导波的传播机理与结构损伤识别研究[D].上海:上海交通大学,2013.
[20]Sun Z Q,Zhang L,Rose J L.Flexural Torsional Guided Wave Mechanics and Focusing In Pipe[J].Journal of Pressure Vessel Technology,2005(127):471-478.
[21]吴斌,符浩,何存富.超声导波虚拟相控聚焦方法研究[J].仪器仪表学报,2013,34(3):509-516.