The structural health monitoring of a mechanically attached thermal protection system

被引:15
|
作者
Derriso, M [1 ]
Braisted, W
Rosenstengel, J
DeSimio, M
机构
[1] VASA, USAF, Res Lab, Wright Patterson AFB, OH 45433 USA
[2] Univ Dayton, Dayton, OH 45469 USA
[3] iCAD Inc, Nashua, NH USA
来源
JOM | 2004年 / 56卷 / 03期
关键词
Mode Shape; Damage Condition; Structural Health Monitoring; Test Article; Thermal Protection System;
D O I
10.1007/s11837-004-0030-9
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Research and development efforts are underway to provide structural health monitoring systems for future high-speed aerospace vehicles. A critical element of these vehicles is the thermal protection system (TPS). This article presents analytical and empirical results to demonstrate the feasibility of detecting loose fasteners in a TPS consisting of a carbon-carbon panel and a metallic backing structure. Analytical results show that mode shapes and resonant frequencies of the panel are functions of the fastener torque values. Empirical results from the TPS show that measured vibrational responses are useful for determining fastener failures.
引用
收藏
页码:36 / 39
页数:4
相关论文
共 50 条
  • [1] The structural health monitoring of a mechanically attached thermal protection system
    Mark Derriso
    William Braisted
    John Rosenstengel
    Martin DeSimio
    JOM, 2004, 56 : 36 - 39
  • [2] Structural Health Monitoring of Space Vehicle Thermal Protection Systems
    Hoschke, N.
    Price, D. C.
    Scott, D. A.
    Richards, W. L.
    STRUCTURAL HEALTH MONITORING: RESEARCH AND APPLICATIONS, 2013, 558 : 268 - +
  • [3] Impedance-based structural health monitoring of thermal protection systems
    Grisso, Benjamin L.
    Inman, Daniel J.
    NONDESTRUCTIVE EVALUATION AND HEALTH MONITORING OF AEROSPACE MATERIALS, COMPOSITES, AND CIVIL INFRASTRUCTURE V, 2006, 6176
  • [4] Decision uncertainty in a structural health monitoring system
    DeSimio, M
    Olson, S
    Derriso, M
    SMART STRUCTURES AND MATERIALS 2005: SMART STRUCTURES AND INTEGRATED SYSTEMS, 2005, 5764 : 530 - 541
  • [5] Verification of a built-in health monitoring system for bolted thermal protection panels
    Yang, JY
    Chang, FK
    SMART STRUCTURES AND MATERIALS 2005: SENSORS AND SMART STRUCTURES TECHNOLOGIES FOR CIVIL, MECHANICAL, AND AEROSPACE, PTS 1 AND 2, 2005, 5765 : 769 - 780
  • [6] The value of monitoring a structural health monitoring system
    Giordano, Pier Francesco
    Quqa, Said
    Limongelli, Maria Pina
    STRUCTURAL SAFETY, 2023, 100
  • [7] A neural system for structural health monitoring
    Sundaresan, MJ
    Schulz, MJ
    Ghoshal, A
    Martin, WN
    Pratap, PR
    SMART STRUCTURES AND MATERIALS 2001: SENSORY PHENOMENA AND MEASUREMENT INSTRUMENTATION FOR SMART STRUCTURES AND MATERIALS, 2001, 4328 : 130 - 141
  • [8] Sustainable structural health monitoring system
    Sumitro, S
    Wang, ML
    STRUCTURAL CONTROL & HEALTH MONITORING, 2005, 12 (3-4) : 445 - 467
  • [9] Thermal compensation of Bragg grating for structural health monitoring
    Suresh, R
    Tjin, SC
    Moyo, P
    Brownjohn, JMW
    SMART MATERIALS II, 2002, 4934 : 150 - 157
  • [10] Force Sensor System for Structural Health Monitoring using Passive RFID Tags for Structural Health Monitoring
    Ikemoto, Yusuke
    Suzuki, Shingo
    Okamoto, Hiroyuki
    Murakami, Hiroki
    Lin, Xin
    Itoh, Hideo
    Asama, Hajime
    2008 IEEE CONFERENCE ON POLYMERS AND ADHESIVES IN MICROELECTRONICS AND PHOTONICS AND 2008 IEEE INTERDISCIPLINARY CONFERENCE ON PORTABLE INFORMATION DEVICES, 2008, : 31 - +
12345