低强度间隙钢的烘烤硬化效应

A. Bui, M. Nguyen, C. Nguyen
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引用次数: 0

摘要

研究了预应变和温度对屈服强度为137mpa的低强度无间隙钢烘烤硬化效果的影响。拉伸试样在室温下预应变至2-4-6 %,然后在150-200-250℃下烘烤20分钟。根据烘烤试样的低屈服强度与初始试样的流动应力之间的差值,采用标准程序确定试样的BH强度。利用光学显微镜和扫描电镜对IF钢的微观组织进行了表征,以解释BH效应。所有初始钢和焙烧钢的显微组织都包括铁素体相,平均晶粒尺寸为45 μm。这一观察结果与初始钢的力学性能是一致的。在12 ~ 35 MPa范围内,预应变为6%,烘烤温度为200℃时达到最大值,随预应变的增加,强度增大,但在烘烤温度为250℃时略有下降,其机理与烘烤过程中碳溶质原子钉住位错有关,且与晶界偏析有关。
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Bake hardening effect of the low strength interstitial free steel
This paper investigates the influence of pre-strain and temperature on the bake hardening (BH) effect of the low strength interstitial free (IF) steel with the yield strength of 137 MPa. The tensile specimens were pre-strained to 2-4-6 % at room temperature followed by baking at temperatures of 150-200-250 C for 20 minutes. The BH strength was determined by a standard procedure based on the difference between the lower yield strength of the baked specimen and the flow stress of the initial one. The microstructure of the IF steels was characterized by optical microscopy and scanning electron microscopy for the purpose of explaining the BH effect. All the initial and baked steels show a microstructure that includes the ferrite phase, of an average grains size of 45 μm. This observation was consistent with the mechanical properties of the initial steel. The BH strengths have been achieved from 12 to 35 MPa, in which the maximum value was found for the specimen that pre-strained to 6 % and baked at 200 C. The BH strengths increased with increasing the pre-strain, but slightly decreased when the baking temperature was 250 C. This mechanism is attributed to pinning of dislocation by carbon solute atoms during the baking process, and the BH strength was correlated with grain boundary segregation.
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