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引用次数: 34
摘要
摘要采用Hall-Petch分析方法研究了不同铁素体-珠光体组织对C-Mn钢硬度和耐应力的影响。与之前的报道相反,当考虑到铁素体体积分数、奥氏体晶粒尺寸和计算出的渗碳体片层厚度时,平均珠光体片层间距最能量化微观组织。铁氧体中由简单混合定律描述的平均不间断距离与测量的硬度有很好的相关性。虽然这与强度参数给好的协议提出了一种改进的预测的数据考虑σy的方程形式C = o +σ[Kα+ (Kα−Kα)V p] d C−1/2,在复合的铁素体晶粒尺寸d C可以表示为d C p d p 1/2 + 1/2 = V dαα1/2,摩擦应力σo,和V p, Vα是珠光体和铁素体的体积分数,分别。同样,kp和K α是…的Hall-Petch参数。
Quantitative assessment of strengthening parameters in ferrite-pearlite steels from microstructural measurements
AbstractThe influence of various ferrite–pearlite microstructures on the hardness and proof stress of a range of C–Mn steels has been studied with respect to a Hall–Petch analysis. In contrast with previous reports, the average pearlite interlamellar spacing was best found to quantify the microstructure when account is also taken of the ferrite volume fraction, austenite grain size, and calculated cementite lamella thickness. The mean uninterrupted distance in the ferrite described by a simple law of mixtures was found to correlate well with measured hardness. Although this parameter gave good agreement with strength figures an improved prediction was suggested by considering an equation of the form σ ys C = σo + [K α + (K α − K α )V p ]d c −1/2, where the composite ferrite grain size d c can be expressed as d c 1/2 = V p d p 1/2 + V α d α 1/2, σo is the friction stress, and V p and V α are the volume fractions of pearlite and ferrite, respectively. Similarly, K p and K α are the Hall–Petch parameters for...
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