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通过化学成分检测、低倍和显微组织观察、断口形貌分析及力学性能测试等手段,对48MnV 非调质钢曲轴断裂的原因进行了分析。结果表明:曲轴的失效模式为典型的疲劳断裂,断裂源位于主轴颈与曲柄销之间的过渡圆角处,断裂主要原因是曲轴钢中夹杂物过多;裂纹源区条状硫化物较多,曲轴表面有类似锻造流线形状的疏松缺陷,易于产生疲劳裂纹;裂纹沿条状硫化物及带状组织扩展,最终导致疲劳断裂。

The fracture cause of the non-quenched and tempered 48MnV steel crankshaft was analyzed by the methods of chemical composition detection, macroscopic and microstructure observation,fracture morphology analysis and mechanical properties analysis.The results show that the failure mode of the crankshaft was a typical fatigue fracture.The crack source was located at the transition fillet between the main journal and the crank pin.Too many indusions in the crankshaft steel were the main reason for the fracture of the crankshaft.A lots of sulfides were observed at the crack source area and the porous defects with the shape similar to the forging streamline were found on the crankshaft surface,leading to an easy generation of fatigue cracks.The cracks propagated along the strip sulfides and banded structures,and eventually caused the fatigue failure.

参考文献

[1] 孙捷;王丽远;曹新鑫;卢锦德.汽车发动机曲轴断裂失效分析[J].金属热处理,2004(12):79-81.
[2] 刘彦国;孙先明;马进.条形微裂纹对16MnR钢解理断裂韧性的影响[J].机械工程材料,2012(12):28-32.
[3] 颜峰;杨伟宁;蒋鹏.非调质钢曲轴锻造热模拟试验分析[J].锻压技术,2010(4):16-21.
[4] 叶阳 .非调质钢曲轴模锻成形工艺研究[D].重庆理工大学,2012.
[5] 高绪涛;张明明;赵爱民;赵征志;陈永.控冷工艺对热轧TRIP钢组织和性能的影响[J].机械工程材料,2011(11):24-27.
[6] 赵阳;吕梦国;姜全会;陈礼清;刘相华.S38MnSiV非调质钢曲轴裂纹产生原因分析[J].金属热处理,2012(12):114-116.
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