Thermo-Mechanical Drive Components and Exhaust System Test Bench for Fatigue Testing under Operational Loading.

被引:0
|
作者
Holzheimer, Hans-Georg
Kolitsch, Heinz Joerg
机构
来源
ATZ Automobiltechnische Zeitschrift | 1985年 / 87卷 / 05期
关键词
FATIGUE OF MATERIALS - MECHANICAL DRIVE - Components;
D O I
暂无
中图分类号
学科分类号
摘要
Due to the ever increasing demand for qualitative and quantitative testing, BMW developed a new engine driven exhaust system test bench. This test bench is designed for fatigue testing under operational load conditions and is capable of testing not only exhaust systems but also other drive components. The concept and constructive realisation of the test bench are presented in this report.
引用
收藏
页码:227 / 229
相关论文
共 50 条
  • [1] Thermo-mechanical drive components and exhaust system test, bench
    Schneider, R
    Tipkemper, U
    Heitmann, F
    MEASURING AND TESTING TECHNIQUES IN VEHICLE DEVELOPMENT: TESTING AND SIMULATION, 2003, 1755 : 395 - 402
  • [2] Prediction of Thermal Fatigue Life of Engine Exhaust Manifold under Thermo-mechanical Cyclic Loading
    Choi, Bok Lok
    Chang, Hoon
    TRANSACTIONS OF THE KOREAN SOCIETY OF MECHANICAL ENGINEERS A, 2010, 34 (07) : 911 - 917
  • [3] Development of test facilities for thermo-mechanical fatigue testing
    Palmer, J.
    Jones, J.
    Dyer, A.
    Smith, R.
    Lancaster, R.
    Whittaker, M.
    INTERNATIONAL JOURNAL OF FATIGUE, 2019, 121 : 208 - 218
  • [4] Lifetime Prediction of Steam Turbine Components under Multiaxial Thermo-mechanical Fatigue Loading
    Cui, Lu
    Wang, Peng
    NEW TRENDS IN MECHATRONICS AND MATERIALS ENGINEERING, 2012, 151 : 255 - +
  • [5] IMPLEMENTATION OF INTERACTING CREEP AND FATIGUE UNDER THERMO-MECHANICAL LOADING
    Had, J.
    ENGINEERING MECHANICS 2017, 2017, : 362 - 365
  • [6] Development of fatigue crack growth testing under thermo-mechanical fatigue conditions
    Jacques, S.
    Lynch, M.
    Wisbey, A.
    Stekovic, S.
    Williams, S.
    MATERIALS AT HIGH TEMPERATURES, 2013, 30 (01) : 49 - 61
  • [7] The effect of phase angle on crack growth mechanisms under thermo-mechanical fatigue loading
    Jones, J.
    Whittaker, M.
    Lancaster, R.
    Hyde, C.
    Rouse, J.
    Engel, B.
    Pattison, S.
    Stekovic, S.
    Jackson, C.
    Li, H. Y.
    INTERNATIONAL JOURNAL OF FATIGUE, 2020, 135
  • [8] Thermo-mechanical fatigue life prediction method under multiaxial variable amplitude loading
    Wang, Jin-Jie
    Shang, De-Guang
    Sun, Yu-Juan
    Li, Luo-Jin
    Li, Dao-Hang
    INTERNATIONAL JOURNAL OF FATIGUE, 2019, 127 : 382 - 394
  • [9] Feasibility study on smart coating for failure prevention under thermo-mechanical fatigue loading
    Toda, Hiroyuki
    Toyoda, Michihiro
    Kobayashi, Toshiro
    Akahori, Toshikazu
    Niinomi, Mitsuo
    JOURNAL OF INTELLIGENT MATERIAL SYSTEMS AND STRUCTURES, 2006, 17 (12) : 1099 - 1103
  • [10] Comparing and Benchmarking Fatigue Behaviours of Various SAC Solders under Thermo-Mechanical Loading
    Depiver, Joshua Adeniyi
    Mallik, Sabuj
    Amalu, Emeka H.
    2020 IEEE 8TH ELECTRONICS SYSTEM-INTEGRATION TECHNOLOGY CONFERENCE (ESTC), 2020,
12345