STRESS ANALYSIS OF GAS TURBINE BLADE UNDER DIFFERENT LOADS USING FINITE ELEMENT MODELING
There are numerous applications of gas turbine in the aerospace industry such as in liquid rocket engines.In this paper, stresses of gas turbine blade of turbopump unit used in liquid rocket engine are investigated using finite element (FE) analysis.Due to the complexity of the geometry, a threedimensional (3-D) solid modeling of the blade and a part of the disc was first created on CAD software and subsequently exported to a FE package for analysis.Stresses developed due to the real turbine operating conditions were analyzed, taking into consideration the material behavior at elevated temperatures.The FE results reveals that the greatest stresses in the blade result from thermal and rotational loads owing to the relatively high operating speed and temperature of the turbine, while bending stresses on the blade due to gas pressure are significantly lower than those due to rotation and thermal.Finally the stresses at the blade due to thermal load are shown to be higher than those for all the mechanical loads rotation and gas pressure.
Gas turbine blade Stress analysis 3-D solid modeling Finite element
AMR ELHEFNY LIANG GUOZHU
School of Astronautics,Beijing University of Aeronautics and Astronautics,Beijing 100191,China
国际会议
3rd International Conference on Mechanical and Electrical Technology(ICMET2011) (2011第三届机械与电气技术国际会议)
大连
英文
389-393
2011-08-26(万方平台首次上网日期,不代表论文的发表时间)