Impact analysis of compressor rotor blades of an aircraft engine

被引:0
|
作者
Y B Sudhir Sastry
B G Kiros
F Hailu
P R Budarapu
机构
[1] Institute of Aeronautical Engineering,Department of Aeronautical Engineering
[2] Defense University,Department of Aeronautical Engineering, College of Engineering
[3] Indian Institute of Technology Bhubaneswar,School of Mechanical Sciences
来源
Frontiers of Structural and Civil Engineering | 2019年 / 13卷
关键词
axial flow compressor; rotor and stator blades; aircraft engine; stress and impact analysis; aluminum alloys;
D O I
暂无
中图分类号
学科分类号
摘要
Frequent failures due to foreign particle impacts are observed in compressor blades of the interceptor fighter MIG-23 aircraft engines in the Ethiopian air force, supplied by the Dejen Aviation Industry. In this paper, we made an attempt to identify the causes of failure and hence recommend the suitable materials to withstand the foreign particle impacts. Modal and stress analysis of one of the recently failed MIG-23 gas turbine compressor blades made up of the following Aluminum based alloys: 6061-T6, 7075-T6, and 2024-T4, has been performed, apart from the impact analysis of the rotor blades hit by a granite stone. The numerical results are correlated to the practical observations. Based on the modal, stress and impact analysis and the material properties of the three considered alloys, alloy 7075-T6 has been recommended as the blade material.
引用
收藏
页码:505 / 514
页数:9
相关论文
共 50 条
  • [1] Impact analysis of compressor rotor blades of an aircraft engine
    Sastry, Y. B. Sudhir
    Kiros, B. G.
    Hailu, F.
    Budarapu, P. R.
    [J]. FRONTIERS OF STRUCTURAL AND CIVIL ENGINEERING, 2019, 13 (03) : 505 - 514
  • [2] FREQUENCY EVALUATION FOR MECHANICAL INTEGRATION OF SHROUDED HP ROTOR BLADES IN AN AIRCRAFT ENGINE COMPRESSOR
    Vinayaka, N.
    Banerjee, Nilotpal
    Kumar, B. S. Ajay
    Gowda, Kumar K.
    Suresh, P. M.
    [J]. JOURNAL OF ENGINEERING SCIENCE AND TECHNOLOGY, 2018, 13 (10) : 3129 - 3148
  • [3] Computational Analysis of Swept Compressor Rotor Blades
    Xu, C.
    Amano, R. S.
    [J]. INTERNATIONAL JOURNAL FOR COMPUTATIONAL METHODS IN ENGINEERING SCIENCE & MECHANICS, 2008, 9 (06): : 374 - 382
  • [4] Experimental Modal Analysis of Compressor Rotor Blades
    Nirmalkumar, G.
    Kumar, C. Veera Sesha
    Venkatesh, S.
    [J]. 3RD INTERNATIONAL CONFERENCE ON FRONTIERS IN AUTOMOBILE AND MECHANICAL ENGINEERING (FAME 2020), 2020, 2311
  • [5] Failure analysis of compressor blades of a helicopter engine
    Infante, V
    Freitas, M.
    [J]. ENGINEERING FAILURE ANALYSIS, 2019, 104 : 67 - 74
  • [6] Impact of Defective Blades on Aerodynamic Performance of Transonic Compressor Rotor
    [J]. Ju, Ya-Ping (yapingju@mail.xjtu.edu.cn), 1600, Science Press (38):
  • [7] An improved method for risk evaluation in failure modes and effects analysis of aircraft engine rotor blades
    Su, Xiaoyan
    Deng, Yong
    Mahadevan, Sankaran
    Bao, Qilian
    [J]. ENGINEERING FAILURE ANALYSIS, 2012, 26 : 164 - 174
  • [8] MICROBEAM ANALYSIS OF AN AIRCRAFT ENGINE BLADES MATERIAL
    OLABANJI, SO
    CALVERT, JM
    [J]. NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONS WITH MATERIALS AND ATOMS, 1985, 10-1 (MAY): : 700 - 702
  • [9] Restoration of Aircraft Gas Turbine Engine Titanium Compressor Blades by Laser Surfacing
    Gorunov, A. I.
    [J]. METALLURGIST, 2017, 61 (5-6) : 498 - 504
  • [10] Vision-based damage detection of aircraft engine’s compressor blades
    Holak, Krzysztof
    Obrocki, Wojciech
    [J]. Diagnostyka, 2021, 22 (03): : 83 - 90
12345