Active Vibration Control of 'Smart' Bridge Model Using Shape Memory Alloy
Shape memory TiNi wire reinforced/acrylic matrix smart composite has been studied by the authors to enhance the strength and fracture toughness of the machinery components by using a shape recovery force associated with inverse phase transformation of shape memory alloy (SMA) . It is also well known...
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| Published in | Transactions of the Japan Society of Mechanical Engineers Series A Vol. 67; no. 654; pp. 294 - 299 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | Japanese |
| Published |
The Japan Society of Mechanical Engineers
2001
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0387-5008 1884-8338 |
| DOI | 10.1299/kikaia.67.294 |
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| Abstract | Shape memory TiNi wire reinforced/acrylic matrix smart composite has been studied by the authors to enhance the strength and fracture toughness of the machinery components by using a shape recovery force associated with inverse phase transformation of shape memory alloy (SMA) . It is also well known that SMA shows the remarkable changes of stiffness and damping between lower temperature martensite and upper temperature austenite phases. Therefore, in the present paper, the authors try to study the active control of deflection and vibration of the base floor plate of the smart bridge model by using direct heating method for the embedded TiNi wires in the composite. The effect of heating time and prestrain of SMA wire on the deflection and damping of the TiNi/acrylic composite structure are experimentally investigated. |
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| AbstractList | Shape memory TiNi wire reinforced/acrylic matrix smart composite has been studied by the authors to enhance the strength and fracture toughness of the machinery components by using a shape recovery force associated with inverse phase transformation of shape memory alloy (SMA) . It is also well known that SMA shows the remarkable changes of stiffness and damping between lower temperature martensite and upper temperature austenite phases. Therefore, in the present paper, the authors try to study the active control of deflection and vibration of the base floor plate of the smart bridge model by using direct heating method for the embedded TiNi wires in the composite. The effect of heating time and prestrain of SMA wire on the deflection and damping of the TiNi/acrylic composite structure are experimentally investigated. |
| Author | KUROSAWA, Nobuyuki ABE, Hiroyuki FURUYA, Yasubumi SHIMAMOTO, Akira |
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| DOI | 10.1299/kikaia.67.294 |
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| References | (8)島本聡•古屋泰文•田谷稔,形状記憶TiNi埋め込みファイバの収縮効果を利用した複合材料のき裂閉鎖作用(ドメイン寸法による効果),機論,65-634,A(1999),1282-1286. (2)島本聡•田谷稔,形状記憶TiNi埋め込みファイバの収縮効果を利用した複合材料のき裂閉鎖作用,機論63-605,A (1997),26-31. (4)Shimamoto, A., Furuya, Y. and Ab@/h10/@, H., Control of fatigue crack propagation in the TiNi shape memory fiber reinforced smart composite Experimental Mechanics, Advances in Design, Testing and Analysis, 2(1998),1085-1090. (1)Rogers, C. A,, Liang, C. and Lee, S., Proc. 32nd Strztctures, Structural Dynamics and Material Conference, (1991),1190. (7)島本聡•古屋泰文•黒沢信行,形状記憶TiNiファイバの収縮効果を利用した橋梁の制振効果に関する研究,日本機械学会 Dynamics and Design Conference'99 講演論文集,B(1999-3),510-512. (5)島本聡•古屋泰文•黒沢信行,形状記憶TiNiファイバの収縮力を利用した橋梁の制振効果について,日本機械学会平成10年度材料力学部門講演会講演論文集,A(1998-11),177-178. (6)Furuya, Y., Shimamoto, A., Tani J. and Qiu, J.,"Active Fracture Control of a composite Material System with SMA Actuator and AE Sensor"AD-Vol.52, Proceedings of the ASME Aerospace Division ASME,(1996), 529-533. (3)島本聡•古屋泰文•田谷稔,形状記憶TiNi埋め込みファイバの収縮効果を利用した複合材料のき裂閉鎖作用(き裂深さによる効果),日本機械学会平成8年度材料力学講演論文集,B(1996-10),363-364. |
| References_xml | – reference: (6)Furuya, Y., Shimamoto, A., Tani J. and Qiu, J.,"Active Fracture Control of a composite Material System with SMA Actuator and AE Sensor"AD-Vol.52, Proceedings of the ASME Aerospace Division ASME,(1996), 529-533. – reference: (1)Rogers, C. A,, Liang, C. and Lee, S., Proc. 32nd Strztctures, Structural Dynamics and Material Conference, (1991),1190. – reference: (7)島本聡•古屋泰文•黒沢信行,形状記憶TiNiファイバの収縮効果を利用した橋梁の制振効果に関する研究,日本機械学会 Dynamics and Design Conference'99 講演論文集,B(1999-3),510-512. – reference: (4)Shimamoto, A., Furuya, Y. and Ab@/h10/@, H., Control of fatigue crack propagation in the TiNi shape memory fiber reinforced smart composite Experimental Mechanics, Advances in Design, Testing and Analysis, 2(1998),1085-1090. – reference: (8)島本聡•古屋泰文•田谷稔,形状記憶TiNi埋め込みファイバの収縮効果を利用した複合材料のき裂閉鎖作用(ドメイン寸法による効果),機論,65-634,A(1999),1282-1286. – reference: (2)島本聡•田谷稔,形状記憶TiNi埋め込みファイバの収縮効果を利用した複合材料のき裂閉鎖作用,機論63-605,A (1997),26-31. – reference: (3)島本聡•古屋泰文•田谷稔,形状記憶TiNi埋め込みファイバの収縮効果を利用した複合材料のき裂閉鎖作用(き裂深さによる効果),日本機械学会平成8年度材料力学講演論文集,B(1996-10),363-364. – reference: (5)島本聡•古屋泰文•黒沢信行,形状記憶TiNiファイバの収縮力を利用した橋梁の制振効果について,日本機械学会平成10年度材料力学部門講演会講演論文集,A(1998-11),177-178. |
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| Snippet | Shape memory TiNi wire reinforced/acrylic matrix smart composite has been studied by the authors to enhance the strength and fracture toughness of the... |
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| StartPage | 294 |
| SubjectTerms | Active Vibration Control Prestrain Shape Memory Alloy Shrinkage Force Smart Bridge Smart Material System TiNi Alloy |
| Title | Active Vibration Control of 'Smart' Bridge Model Using Shape Memory Alloy |
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