TY - BOOK ID - 133768817 TI - Advances in Low-carbon and Stainless Steels AU - Haghdadi, Nima AU - Somani, Mahesh PY - 2020 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - History of engineering & technology KW - pitting KW - sigma phase KW - 2205 KW - duplex stainless steel KW - austenitic stainless steel KW - cold deformation KW - microstructures KW - mechanical properties KW - austenite KW - steel KW - thermomechanical processing KW - phase transformation KW - nucleation KW - ferrite KW - CCT KW - TTT KW - incubation KW - transformation start KW - FAC KW - LBE KW - turbulent flow KW - dissolution KW - modelling KW - low-carbon AHSS KW - Q& KW - P KW - toughness KW - precipitation KW - martensite packet KW - mechanical characterization KW - martensitic transformations KW - dynamic transformation KW - Nb-microalloyed steel KW - roughing passes KW - hot forming KW - multiphase steel KW - quenching and partitioning KW - austempering KW - Gleeble simulation KW - press hardening KW - martensite KW - quenching KW - partitioning KW - dilatometry KW - EBSD-IQ KW - fast heating rate KW - formation of austenite KW - initial microstructure KW - PAGS KW - transformation behavior KW - tensile properties KW - metastability KW - LCF KW - HCF KW - VHCF KW - ambient and elevated temperatures KW - carbon steel KW - rotationally accelerated shot peening KW - nanocrystalline KW - corrosion resistance KW - transformation kinetics KW - local equilibrium KW - para equilibrium KW - Cr-rich precipitate KW - interphase boundary KW - type 430 stainless steel KW - HSLA steel KW - alloy design KW - grain refinement of austenite KW - Zener pinning force KW - recrystallization KW - Niobium Nb UR - https://www.unicat.be/uniCat?func=search&query=sysid:133768817 AB - This Special Issue of Metals was dedicated to recent advances in low-carbon and stainless steels. Although these types of steels are not new, they are still receiving considerable attention from both research and industry sectors due to their wide range of applications and their complex microstructure and behavior under different conditions. The microstructure of low-carbon and stainless steels resulting from solidification, phase transformation, and hot working is complex, which, in turn, affect their performance under different working conditions. A detailed understanding of the microstructure, properties, and performance for these steels has been the aim of steel scientists for a long time. This Issue received quality papers on different aspects of these steels including their solidification, thermomechanical processing, phase transformation, texture, etc., and their mechanical and corrosion behaviors. ER -