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Steels, Microstructure and Properties
TLDR
In this article, the authors studied the effects of alloying elements in iron-carbon alloys and the formation of martensite, bainite reaction and acicular ferrite reaction.Abstract:
Iron and its interstitial solid solutions * The strengthening of iron and its alloys * The iron-carbon equilibrium diagram and plain carbon steels * The effects of alloying elements in iron-carbon alloys * Formation of martensite * The bainite reaction * Acicular ferrite * The heat treatment of steels - hardenability * The tempering of martensite * Commercial Steels: New material to include Nanostructured Steels, Steels for the Energy and Automobile Industries * The embrittlement and fracture of steels * Stainless steel * Weld microstructures * Modelling of microstructure and properties *read more
Citations
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Microstructure and hardness characterization of mechanically alloyed Fe–C elemental powder mixture
TL;DR: In this paper, mechanical alloying of iron-carbon mixture powders was performed at various milling duration (2, 4, 6 and 8 h) and with different carbon content (1, 2, 3 and 4 h).
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Primary carbide transformation in a high performance micro-alloy at 1000 °C
TL;DR: In this article, the authors studied the transformation from M7C3 → M23C6 in a high performance micro alloy (HP-MA) using different techniques, and showed that the M23c6 shell thickness agrees reasonably well with the estimated diffusion distance of carbon in M7c3 based on Zener's relation.
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Evaluation of Dark Etching Regions for Standard Bearing Steel under Accelerated Rolling Contact Fatigue
TL;DR: In this paper, the authors employed a modified high-speed microprocessor rotary tribometer to conduct systematic rolling contact fatigue (RCF) study under accelerated testing conditions with variable temperatures and contact pressures.
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The resistance of 9 Cr-1 MoVNb and 12 Cr-1 MoVW steels to helium embrittlement☆
TL;DR: In this paper, the effect of helium on ferritic steels of interest for fusion reactor applications was evaluated in the High Flux Isotope Reactor (HFIR) at − 55°C.
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Predicting the deformation behavior of ferrite–pearlite steels using micro mechanical modeling of cells
TL;DR: In this article, a model based on micromechanical modeling of cells is developed to capture the mechanical behavior of the dual phase pearlitic steels, which can be used to predict the material behavior at low cost.