摘要
加载速率是影响裂解质量的重要因素,合理的加载速率可以提高材料的脆性。应用ABAQUS/Explicit动态有限元软件对捷达轿车四缸发动机箱体轴承座(材料HT150)裂解时加载速率对应力、应变的影响进行了模拟分析。确定了裂解时采用6.4 mm/s的加载速率可以达到最佳裂解质量。并且在CSS-88300材料试验机上进行了试验,试验速度:静态、6.4mm/s、8.3 mm/s。根据试验,以速度6.4 mm/s裂解的试件的轴承孔变形量0.06 mm,而其它两件的轴承孔变形量分别为0.29 mm和0.32 mm,这为实际液压系统和裂解设备的楔形推杆设计提供了理论基础。
Loading speed is a key factor affecting the fracture splitting quality, and proper loading speed can increase the brittleness of material. In this paper, the effect of loading speed on the stress and strain was simulated and analyzed by using ABAQUS/Explicit FEA software when the cylinder block bearing seat(material HT150) of the four-cylinder engine of Jetta car splited. The result shows that the loading speed of 6.4 mm/s could achieve the best splitting quality. The tests with static loading, speed of 6.4mm/s and 8. 3 mm/s were performed on the CSS-88300 testing machine. The test results show that the distortion of the bearing hole is 0.06 mm when the loading speed is 6.4 mm/s, but the distortions of other two bearing holes are 0.29mm and 0.32 mm. This paper provides theoretical basis for the design of hydraulic system and splitting equipment wedge push-bar.
出处
《内燃机工程》
EI
CAS
CSCD
北大核心
2008年第3期64-67,共4页
Chinese Internal Combustion Engine Engineering
基金
国家自然科学基金课题(50375066)
关键词
内燃机
曲轴箱
轴承座
裂解
加载速率
IC engine
crankcase
bearing block
fracture splitting
loading speed