形状记忆合金在结构振动控制中的应用
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摘要
形状记忆合金是一种在结构振动控制领域具有广阔应用前景的智能材料。本文结合形状记忆合金的形状记忆效应、超弹性效应和高阻尼特性等特点,分别从结构的被动控制、主动控制及智能控制三个方面系统总结了形状记忆合金的研究现状,最后指出了需进一步研究的方向。
Shape Memory Alloy (SMA) is one class of smart material which has been shown of broad application prospects in structural vibration control. In this paper, based on the special features of shape memory alloy in shape memory effect, superelastic property and high damping capacity,etc., the state-of-the-art researches of SMA on structural vibration control are summarized in three aspects of passive control, active control, and intelligent control, respectively. Finally, the prospects for further research are recommended.
Shape Memory Alloy (SMA) is one class of smart material which has been shown of broad application prospects in structural vibration control. In this paper, based on the special features of shape memory alloy in shape memory effect, superelastic property and high damping capacity,etc., the state-of-the-art researches of SMA on structural vibration control are summarized in three aspects of passive control, active control, and intelligent control, respectively. Finally, the prospects for further research are recommended.
引文
[1] Yao J T P. Concept of structure control[J]. J. of the structural division, ASCE, 1972, 98(7):1567-1574.
[2]周福霖.工程结构减震控制[M].北京:地震出版社,1997.
[3] Soong T T, Dargush G F. Passive energy dissipation systems in structural engineering[M]. New York,1997.
[4]瞿伟廉,姜德生.智能材料-结构系统在土木工程中的应用[J].地震工程与工程振动,1999,19(3):87-95.
[5]姜德生,Richard O Clause.智能材料器件、结构与应用[M].武汉:武汉工业大学出版社,2000.
[6]杨大智.智能材料与智能系统[M].天津:天津大学出版社,2000.
[7]杜善义,冷劲松,王殿富.智能材料系统和结构[M].北京:科学技术出版社,2001.
[8]赵连城,蔡伟,郑玉峰.合金的形状记忆效应与超弹性[M].北京:国防工业出版社,2002.
[9]陶宝祺.智能材料结构[M].北京:国防工业出版社,1997.
[10]欧进萍,关新春.土木工程智能结构体系研究与进展[J].地震工程与工程振动,1999,19(2):21-28.
[11]李惠,吴波,孙科学.形状记忆合金及其在结构控制中的应用[A].中国结构控制新进展,第一届全国结构控制会议论文集[C],1999,164-173.
[12]王社良.形状记忆合金在结构控制中的应用[M].陕西:陕西科学技术出版社,2000.
[13]韩玉林,李爱群.基于形状记忆合金的结构振动控制研究与展望[J].东南大学学报,2000,30(1):146-154.、
[14]任勇生.形状记忆合金在结构主被动振动控制中的应用[J].力学进展,1999,29(1):19-33.
[15]高山,沈亚鹏,许德刚.形状记忆合金及其工程应用中的力学分析[J].力学进展,1997,27(3):301-312.
[16]吴轶,周云,杨春.形状记忆合金减震控制技术的研究与应用[J].世界地震工程,1999,15(2):41-48.
[17]吴波,李惠,孙科学.形状记忆合金在土木工程中的应用[J].世界地震工程,1999,15(3):1-11.
[18] Lin H C,Wu S K. Damping characteristics of NiTi shape memory alloys[J]. Meta. Trans. A, 1993, 24(A):2189-2193.
[19]刘玉东.形状记忆合金阻尼特性及形状记忆合金[A].中国材料研讨会论文集[C],北京:化学工业出版社,1996,668-671.
[20] Feng Z C, Li D Z. Dynamics of a mechanical system with a shape memory alloy bar[J]. J of Intelligent Material System and Structures, 1996, 7:399-410.
[21] Victor Birman. Effects of SMA dampers on nonlinear vibrations of elastic structures[A]. Proc. of SPIE[C], 2000, Vol.3039, 268-276.
[22] DesRoches R. Shape memory alloy-based response modification of simply supported bridge[A]. Advances in structural dynamics[C],2000, Vol.I:267-274.
[23] Adachi Y, Unjoy S. Experimental study on seismic response control of bridge by damper devices using shape memory alloys[A]. Proc.of the second World Conference on Structral Control[C] .Japan, 1998, 1861-1870.
[24] Attanasio M, Faraveli L, Mationi A. Exploiting SMA bars in energy dissipation[A]. Proceedings of the second International Workshop on Structure Control[C], Hong Kong. 1996, 40-50.
[25] Clark P W, Aiken I D, Higashino M, Aizawa A, Whittaker A S, Krumme R C. Experimental and analytical studies of shape memory alloy dampers for structure control[A]. Proc. of SPIE [C], 1995, 2445, 241-251.
[26] Higashino M, Aizawa A, Clark P W, Whittaker A S, Aiken I D, Kelly J M. Experimental and analytical studies of structural control system using shape memory alloy[A]. Proceedings of the second International Workshop on Structure Control[C]. Hong Kong, 1996, 221-229.
[27]王社良,巨生国,苏三庆.形状记忆合金的动力响应特性及振动控制[J].西安建筑技大学报,1999,31(1):14-17.
[28]王社良,苏三庆,沈亚鹏.形状记忆合金拉索被动控制结构地震响应分析[J].土木工程学报,2000,23(1):47-51.
[39]韩玉林,李爱群.林萍华.基于形状记忆合金耗能器的框架振动控制试验研究[J].东南大学学报(自然科学版),2000,30(4):16-20.
[30] Witting P R, Cozzarelli F A. Shape memory structure dampers: material properties, design and seismic testing[R]. TechnicalReport NCEER-92-0013, 1992.
[31] Mauro D, Donatello C. SMA Re-centering devices for seismic isolation of civil structures[A]. Proc. of SPIE[C], 2001, 4330, 238-249.
[32] Mauro D, Donatello C, Roberto M. Implementation and testing of passive control devices based on shape memory alloy[J].Earthquake Engineering and Structural Dynamics, 2000, 29(2):945-968.
[33] Robert K. Jack H, Steve S. Structure damping with shape memory alloys: a class of devices[A]. Proc. of SPIE[C],1995,2445. 225-249.
[34] Maria G C,Maurizio I, Alessandro M. Progress of application, research, development and design guidelines for Shape MemoryAlloy devices for cultural heritage structures in Italy[A]. Proc. of SPIE[C], 2001, 4330, 250-261.
[35] Maurizio I, Maria G C, Paolo C, Alessandro M. Demo -application of Shape Memory Alloy devices: the rehabilitation ofthe S. Giorgio Church Bell Tower[A]. Proc. of SPIE[C],2001, 4330, 262-272.
[36] Rogers C A. Active vibration and structure acoustic control of shape memory alloy hybrid composites: experimental re-sults[J]. J Acoustical Society of America, 1990, 2803-2811.
[37] Rogers C A. Behavior of shape memory alloy reinforced composite plates[J]. AIAA, 1989, 1380-1389.
[38] Liang C. Jia J, Rogers C A. Behavior of shape memory alloy reinforced composite plates, part 2: results. AIAA. 1989,1320-1331.
[39] Rogers C A. Novel design concepts utilizing shape memory alloy reinforced composites[A]. Proc. Am. Soc. of CompositesMaterials[C]. Technomic Publishing Co., 1988, 719-731.
[40] Rogers C A, Bobertshaw H H. Development of a novel smart material[J]. ASME Paper, 1988.
[41] Rogers C A, Bobertshaw H H. Shape memory alloy reinforced composites[J]. Eng. Sci. Prepreints, 1988, 6:20-22.
[42] Epps J, Chandra R. Shape memory alloy actuation for active tuning of composite beams[J]. Smart Materials and Structures,1997, 6(3):251-258.
[43] Bidaux J E, Manson J A, Gotthardt R. Active stiffening of composite materials by embedded shape memory alloy fibers[A].Materials Research Society Symposium[C]. 1997, 107-117.
[44]王吉军,崔立山,杨大智.NiTi形状记忆合金的振动主动控制研究[J].大连理大学学报.1997,37(4):484-489.
[45]霍永忠.NiTi丝拉伸的物理模型及数值模拟[A].功能材料会议论文集[C].1996
[46]霍永忠.形状记忆合金的主动控振研究[A].功能材料会议论文集[C].1996.
[47]陈健.NiTi形状记忆合金电流加热时的力学行为及其复合结构振动特性[D].南京:东南大学,1999.
[48]陈健,林萍华,王寅岗.SMA树脂复合结构梁振动特性的研究[J].东南大学学报,1999,29(5):151-155.
[49] Shahin A R, Mecklpeter H J, James D. Modeling of SMA tendons for active control of structures[J] . J of Intel. Mater. Sys. and Struct., 1997, 8(1):51-70.
[50]梅胜敏,秦太验,陶宝祺.用于振动主动控制的方法初探[J].力学实践,1995,17(4):16-19.
[51] Baz A, Iman K, McCoy J. Active vibration control of using shape memory acutators[J]. J of Sound and Vibration, 1990, 140(3):437-456.
[52] Motogi S,Tanaka M, Fukuda T. Stiffness change with temperature in glass fiber reinforced composite laminates embedded with SMA wires[J]. Transactions of the Japan Society of Mechanical Engineering, Part C, 1997, 63(5):3772- 3777.
[53] Liang C, Rogers C A. Design of shape memory alloy spring with applications in vibration control[J]. J of Intel. Mater Sys. and Struct., 1997, 8(4):314-322.
[54] Chen Q, Levy C. Active vibration control of an elastic beam by means of shape memory alloy layers[A]. Proc. of SPIE[C],1995, 2443, 579-587.
[55] Chen Q, Levy C. Active vibration control of elastic beam by means of shape memory alloy layers[J]. Smart Materials andStructures, 1996, 5(4):400-406.
[56] Lagoudas D C,Boyd.J G, Bo B. Analysis of a coupling model of shape memory alloy and its dynamic response due to im-pacts[J]. J. of Vibration & Acoustics, 1992, 11 (4):297-304.
[57] Berman.J B, White S R. Theoretical modeling of residual and transformational stresses in SMA composites[J].Smart Mater.Struct. 1996, 5:731-743.
[58]吴波,毛晨曦,李惠.形状记忆合金与温度有关的滞回性能试验研究[J].世界地震工程,2001,17(3):21-26.
[59] Baz A, Imam K, Mccoy J. Active vibration control of flexible beams using shape memory actuators[J]. J. Sound and Vibration, 1990, 140(3):431-456.
[60]汪劲松.用于微系统驱动的形状记忆合金弹簧特性试验研究[J].机械工程学报,1994,30(5):87-93.
[61] Lagoudas D C, Kinra C K. Design of high frequency SMA actuators[A]. Disclosures of Invention TAMUS 803[C]. TexasA&M UNIVERSITY, 1993.
[62] Bhattacharyya A. On the role of thermoelectric heat transfer in the design of SMA actuators: theoretical modeling and ex-periments[J]. Smart Mater. Struct, 1995, 4:252-263
[63]任勇生,王世文,李俊宝,沈亚鹏.形状记忆合金在结构主被动控制中的应用[J].力学进展,1999,29(1):19-33.
[64]何思龙,黄先应,祖小涛.形状记忆合金增强钢筋混凝土自诊断与自适应智能结构系统的研究[A].96中国材料研讨会论文集[C].北 京:化学工业出版社,1996,622-625.
[65] Keith W, George C, Robert B. Passive-adaptive vibration absorbers using shape memory alloy[A]. Proc. of SPIE [C], 1999, 3668,630-641.
[66] DesRoches R. Seismic mitigation of bridges using smart restrainers[A]. Proc.of SPIE [C], 1999. 3325, 11-20.
[67] Yukio A, Shigeki U. Development of shape memory alloy damper for intelligent bridge systems[A]. Proc. of SPIE [C],1999, 3671, 31-42.
[2]周福霖.工程结构减震控制[M].北京:地震出版社,1997.
[3] Soong T T, Dargush G F. Passive energy dissipation systems in structural engineering[M]. New York,1997.
[4]瞿伟廉,姜德生.智能材料-结构系统在土木工程中的应用[J].地震工程与工程振动,1999,19(3):87-95.
[5]姜德生,Richard O Clause.智能材料器件、结构与应用[M].武汉:武汉工业大学出版社,2000.
[6]杨大智.智能材料与智能系统[M].天津:天津大学出版社,2000.
[7]杜善义,冷劲松,王殿富.智能材料系统和结构[M].北京:科学技术出版社,2001.
[8]赵连城,蔡伟,郑玉峰.合金的形状记忆效应与超弹性[M].北京:国防工业出版社,2002.
[9]陶宝祺.智能材料结构[M].北京:国防工业出版社,1997.
[10]欧进萍,关新春.土木工程智能结构体系研究与进展[J].地震工程与工程振动,1999,19(2):21-28.
[11]李惠,吴波,孙科学.形状记忆合金及其在结构控制中的应用[A].中国结构控制新进展,第一届全国结构控制会议论文集[C],1999,164-173.
[12]王社良.形状记忆合金在结构控制中的应用[M].陕西:陕西科学技术出版社,2000.
[13]韩玉林,李爱群.基于形状记忆合金的结构振动控制研究与展望[J].东南大学学报,2000,30(1):146-154.、
[14]任勇生.形状记忆合金在结构主被动振动控制中的应用[J].力学进展,1999,29(1):19-33.
[15]高山,沈亚鹏,许德刚.形状记忆合金及其工程应用中的力学分析[J].力学进展,1997,27(3):301-312.
[16]吴轶,周云,杨春.形状记忆合金减震控制技术的研究与应用[J].世界地震工程,1999,15(2):41-48.
[17]吴波,李惠,孙科学.形状记忆合金在土木工程中的应用[J].世界地震工程,1999,15(3):1-11.
[18] Lin H C,Wu S K. Damping characteristics of NiTi shape memory alloys[J]. Meta. Trans. A, 1993, 24(A):2189-2193.
[19]刘玉东.形状记忆合金阻尼特性及形状记忆合金[A].中国材料研讨会论文集[C],北京:化学工业出版社,1996,668-671.
[20] Feng Z C, Li D Z. Dynamics of a mechanical system with a shape memory alloy bar[J]. J of Intelligent Material System and Structures, 1996, 7:399-410.
[21] Victor Birman. Effects of SMA dampers on nonlinear vibrations of elastic structures[A]. Proc. of SPIE[C], 2000, Vol.3039, 268-276.
[22] DesRoches R. Shape memory alloy-based response modification of simply supported bridge[A]. Advances in structural dynamics[C],2000, Vol.I:267-274.
[23] Adachi Y, Unjoy S. Experimental study on seismic response control of bridge by damper devices using shape memory alloys[A]. Proc.of the second World Conference on Structral Control[C] .Japan, 1998, 1861-1870.
[24] Attanasio M, Faraveli L, Mationi A. Exploiting SMA bars in energy dissipation[A]. Proceedings of the second International Workshop on Structure Control[C], Hong Kong. 1996, 40-50.
[25] Clark P W, Aiken I D, Higashino M, Aizawa A, Whittaker A S, Krumme R C. Experimental and analytical studies of shape memory alloy dampers for structure control[A]. Proc. of SPIE [C], 1995, 2445, 241-251.
[26] Higashino M, Aizawa A, Clark P W, Whittaker A S, Aiken I D, Kelly J M. Experimental and analytical studies of structural control system using shape memory alloy[A]. Proceedings of the second International Workshop on Structure Control[C]. Hong Kong, 1996, 221-229.
[27]王社良,巨生国,苏三庆.形状记忆合金的动力响应特性及振动控制[J].西安建筑技大学报,1999,31(1):14-17.
[28]王社良,苏三庆,沈亚鹏.形状记忆合金拉索被动控制结构地震响应分析[J].土木工程学报,2000,23(1):47-51.
[39]韩玉林,李爱群.林萍华.基于形状记忆合金耗能器的框架振动控制试验研究[J].东南大学学报(自然科学版),2000,30(4):16-20.
[30] Witting P R, Cozzarelli F A. Shape memory structure dampers: material properties, design and seismic testing[R]. TechnicalReport NCEER-92-0013, 1992.
[31] Mauro D, Donatello C. SMA Re-centering devices for seismic isolation of civil structures[A]. Proc. of SPIE[C], 2001, 4330, 238-249.
[32] Mauro D, Donatello C, Roberto M. Implementation and testing of passive control devices based on shape memory alloy[J].Earthquake Engineering and Structural Dynamics, 2000, 29(2):945-968.
[33] Robert K. Jack H, Steve S. Structure damping with shape memory alloys: a class of devices[A]. Proc. of SPIE[C],1995,2445. 225-249.
[34] Maria G C,Maurizio I, Alessandro M. Progress of application, research, development and design guidelines for Shape MemoryAlloy devices for cultural heritage structures in Italy[A]. Proc. of SPIE[C], 2001, 4330, 250-261.
[35] Maurizio I, Maria G C, Paolo C, Alessandro M. Demo -application of Shape Memory Alloy devices: the rehabilitation ofthe S. Giorgio Church Bell Tower[A]. Proc. of SPIE[C],2001, 4330, 262-272.
[36] Rogers C A. Active vibration and structure acoustic control of shape memory alloy hybrid composites: experimental re-sults[J]. J Acoustical Society of America, 1990, 2803-2811.
[37] Rogers C A. Behavior of shape memory alloy reinforced composite plates[J]. AIAA, 1989, 1380-1389.
[38] Liang C. Jia J, Rogers C A. Behavior of shape memory alloy reinforced composite plates, part 2: results. AIAA. 1989,1320-1331.
[39] Rogers C A. Novel design concepts utilizing shape memory alloy reinforced composites[A]. Proc. Am. Soc. of CompositesMaterials[C]. Technomic Publishing Co., 1988, 719-731.
[40] Rogers C A, Bobertshaw H H. Development of a novel smart material[J]. ASME Paper, 1988.
[41] Rogers C A, Bobertshaw H H. Shape memory alloy reinforced composites[J]. Eng. Sci. Prepreints, 1988, 6:20-22.
[42] Epps J, Chandra R. Shape memory alloy actuation for active tuning of composite beams[J]. Smart Materials and Structures,1997, 6(3):251-258.
[43] Bidaux J E, Manson J A, Gotthardt R. Active stiffening of composite materials by embedded shape memory alloy fibers[A].Materials Research Society Symposium[C]. 1997, 107-117.
[44]王吉军,崔立山,杨大智.NiTi形状记忆合金的振动主动控制研究[J].大连理大学学报.1997,37(4):484-489.
[45]霍永忠.NiTi丝拉伸的物理模型及数值模拟[A].功能材料会议论文集[C].1996
[46]霍永忠.形状记忆合金的主动控振研究[A].功能材料会议论文集[C].1996.
[47]陈健.NiTi形状记忆合金电流加热时的力学行为及其复合结构振动特性[D].南京:东南大学,1999.
[48]陈健,林萍华,王寅岗.SMA树脂复合结构梁振动特性的研究[J].东南大学学报,1999,29(5):151-155.
[49] Shahin A R, Mecklpeter H J, James D. Modeling of SMA tendons for active control of structures[J] . J of Intel. Mater. Sys. and Struct., 1997, 8(1):51-70.
[50]梅胜敏,秦太验,陶宝祺.用于振动主动控制的方法初探[J].力学实践,1995,17(4):16-19.
[51] Baz A, Iman K, McCoy J. Active vibration control of using shape memory acutators[J]. J of Sound and Vibration, 1990, 140(3):437-456.
[52] Motogi S,Tanaka M, Fukuda T. Stiffness change with temperature in glass fiber reinforced composite laminates embedded with SMA wires[J]. Transactions of the Japan Society of Mechanical Engineering, Part C, 1997, 63(5):3772- 3777.
[53] Liang C, Rogers C A. Design of shape memory alloy spring with applications in vibration control[J]. J of Intel. Mater Sys. and Struct., 1997, 8(4):314-322.
[54] Chen Q, Levy C. Active vibration control of an elastic beam by means of shape memory alloy layers[A]. Proc. of SPIE[C],1995, 2443, 579-587.
[55] Chen Q, Levy C. Active vibration control of elastic beam by means of shape memory alloy layers[J]. Smart Materials andStructures, 1996, 5(4):400-406.
[56] Lagoudas D C,Boyd.J G, Bo B. Analysis of a coupling model of shape memory alloy and its dynamic response due to im-pacts[J]. J. of Vibration & Acoustics, 1992, 11 (4):297-304.
[57] Berman.J B, White S R. Theoretical modeling of residual and transformational stresses in SMA composites[J].Smart Mater.Struct. 1996, 5:731-743.
[58]吴波,毛晨曦,李惠.形状记忆合金与温度有关的滞回性能试验研究[J].世界地震工程,2001,17(3):21-26.
[59] Baz A, Imam K, Mccoy J. Active vibration control of flexible beams using shape memory actuators[J]. J. Sound and Vibration, 1990, 140(3):431-456.
[60]汪劲松.用于微系统驱动的形状记忆合金弹簧特性试验研究[J].机械工程学报,1994,30(5):87-93.
[61] Lagoudas D C, Kinra C K. Design of high frequency SMA actuators[A]. Disclosures of Invention TAMUS 803[C]. TexasA&M UNIVERSITY, 1993.
[62] Bhattacharyya A. On the role of thermoelectric heat transfer in the design of SMA actuators: theoretical modeling and ex-periments[J]. Smart Mater. Struct, 1995, 4:252-263
[63]任勇生,王世文,李俊宝,沈亚鹏.形状记忆合金在结构主被动控制中的应用[J].力学进展,1999,29(1):19-33.
[64]何思龙,黄先应,祖小涛.形状记忆合金增强钢筋混凝土自诊断与自适应智能结构系统的研究[A].96中国材料研讨会论文集[C].北 京:化学工业出版社,1996,622-625.
[65] Keith W, George C, Robert B. Passive-adaptive vibration absorbers using shape memory alloy[A]. Proc. of SPIE [C], 1999, 3668,630-641.
[66] DesRoches R. Seismic mitigation of bridges using smart restrainers[A]. Proc.of SPIE [C], 1999. 3325, 11-20.
[67] Yukio A, Shigeki U. Development of shape memory alloy damper for intelligent bridge systems[A]. Proc. of SPIE [C],1999, 3671, 31-42.
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