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An Understanding of Stress and Pretension Behavior of Aero Engine Rotor Bolted Joint

螺栓连接 轮缘 结构工程 有限元法 工程类 转子(电动) 接头(建筑物) 刚度 机械接头 滑脱 压力(语言学) 机械工程 语言学 哲学
作者
Venkateshwarlu Mogullapally,Shine Jyoth,Sanju Kumar,Rashmi Rao,B.A. Rajeevalochanam
标识
DOI:10.1115/gt2021-59996
摘要

Abstract Bolted joints in gas turbines are used commonly to connect the parts of dissimilar materials to facilitate assembly, dis-assembly, and also to achieve modularity for advanced aero engines. In gas turbine engine, there are many rotating and stationary parts that are subjected to an extreme working environment. Bolted joints should have sufficient strength to support the mating parts such as safety critical fan/turbine discs, drums, and shaft assembly. Bolted joints are designed to avoid flange separation and slippage. This paper attempts to understand the challenges faced in designing a typical fan disc rotor plain flange type bolted assembly and structural integrity aspects under various thermo-mechanical operating loads. The understanding of stiffness of the bolt and joint members is necessary to evaluate the performance of the joint assembly. Based on literature, different approaches are used for estimating member stiffness to compare with finite element results. The effect of external loads such as thermo-mechanical loads on pretension behavior of bolted joint is studied with the help of standard commercial software platform ANSYS. Bolted joint preload loss has been assessed via the standard analytical method and validated with 3D finite element approach. This paper enables designer a quick understanding of rotor bolted joint behavior for finalization of gas turbine rotor layout, before going into complex and time consuming 3D finite element modelling and nonlinear stress analysis.
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