摘要
针对长城2020汽车转向节法兰截面形状复杂、轴部过粗、杆部过细和前、后羊角间距过大等结构问题,通过对该锻件局部尺寸进行分析阐述,结合多年汽车转向节锻造经验,对预锻型腔、终锻型腔及飞边桥的关键部分分别进行设计、分析论证,并采用加热挤压的制坯工艺与模锻复合成形工艺进行批量生产,得出预锻工步是转向节锻造过程中最关键的工步,并且,优良的预锻设计不但能提高终锻模膛充填性能,而且还可以防止锻件产生折叠。2020汽车转向节经过现场生产验证可知,锻件材料利用率达到了78.2%,比同类转向节的材料利用率高出8.2%,合格率达到了99.3%,同时模具寿命亦可延长至40000件。研究结论对提高锻件合格率和锻模寿命具有重要的实际意义。
For the structural characteristics of Great Wall 2020 automobile steering knuckle flange with complex cross-sectional shape,too thick shaft,too thin rod,and large distance between front and rear horns,through the analysis and explanation of the local sizes for forgings,combined with years of experience in forging automotive steering knuckles,the key parts of pre-forging cavity,final forging cavity and flash bridge were designed,analyzed and demonstrated respectively,and the batch production was carried out by the heating extrusion of blank making and the die forging compound forming process to obtain that the pre-forging step was the most critical step in the forging process of steering knuckle.Therefore,the excellent pre-forging design not only improved the filling performance of final forging cavity,but also prevented folding of forgings.The on-site production verification of 2020 automobile steering knuckle shows that the material utilization of forgings reaches 78.2%,which is 8.2%higher than that of similar steering knuckle,and the qualification rate reaches 99.3%.Meanwhile,the die life extends 40000 pieces.Thus,the research conclusion has important practical significance to improve the qualification rate of forgings and the forging die life.
作者
徐皓
刘江
Xu Hao;Liu Jiang(School of Intelligent Manufacturing and Transportation,Chongqing Vocational Institute of Engineering,Chongqing 402246,China;School of Materials Science and Engineering,Chongqing University,Chongqing 400044,China;School of Management,University of Science and Technology of China,Heifei 230026,China)
出处
《锻压技术》
CAS
CSCD
北大核心
2021年第1期24-28,共5页
Forging & Stamping Technology
基金
重庆市教委科学技术研究项目(KJQN202003406)。
关键词
转向节
锻模型腔
热挤压
复合成形工艺
材料利用率
steering knuckle
forging die cavity
hot extrusion
composite forming process
material utilization
