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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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Journal ArticleDOI
A method for force reduction in heavy duty bending
TL;DR: In this article, a dynamic contact method has been chosen: the steel is heated by being put in contact with preheated "contact elements", which is experimentally tested on low carbon steel plates with a prototype setup.
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On the complexity of solid-state diffusion in highly concentrated alloys and the sluggish diffusion core-effect
TL;DR: In this paper, the authors used the Cluster Variation Method (CVM) to simulate the diffusion path of high entropy alloys in the highly concentrated region of V − Nb − W − Al.
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Austenite Reconstruction Elucidates Prior Grain Size Dependence of Toughness in a Low Alloy Steel
TL;DR: In this article, an algorithm was developed to reconstruct the parent austenite at high temperature from martensite microstructure at room temperature, demonstrating differences in texture, grain orientation spread, and grain size that could account for the differences in mechanical properties.
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Effects of Cyclic Heat Treatment on Microstructure and Mechanical Properties of 13%Cr-4%Ni Martensitic Stainless Steel
Jai Singh,S. K. Nath +1 more
TL;DR: In this paper, the effects of thermal cycling heat treatment (TCHT) on microstructure and mechanical properties of 13%Cr-4%Ni martensitic stainless steel (13-4MSS) were investigated.
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Prediction of microstructural changes during hot rod rolling
TL;DR: In this article, a mathematical model is presented for predicting temperature and velocity fields together with dynamic and static microstructural changes during hot rod rolling utilizing a finite element model, and a comparison is made between the measured surface temperature during rod rolling and the predicted data that confirms the validity of the model.