TY - BOOK ID - 137783395 TI - Advances in Microalloyed Steels PY - 2021 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - niobium microalloyed steel KW - as-cast condition KW - inclusion KW - rare earth elements KW - precipitation. KW - steel KW - thermomechanical processing KW - microstructure characterisation KW - mechanical properties KW - molybdenum KW - martensitic steel KW - direct quenching KW - microalloying KW - hardenability KW - toughness KW - grain refinement KW - Hall–Petch coefficient KW - microalloy precipitates KW - hydrogen embrittlement KW - Ti-Mo steel KW - hot deformation KW - constitutive model KW - microstructural evolution KW - microalloyed steels KW - processing KW - microstructural and chemical composition KW - micro-alloyed steels KW - precipitations KW - Zener pinning KW - atomic force microscopy (AFM) KW - precipitation-microstructure correlation KW - EBSD KW - reconstruction methods KW - continuous casting KW - energy absorption KW - mechanical metallurgy KW - niobium KW - reheat process KW - thermo-mechanical controlled processing KW - plate rolling KW - strengthening KW - precipitation KW - induction KW - titanium KW - advanced high strength steels KW - HSLA steels KW - precipitation strengthening KW - tempering KW - bainitic ferrite KW - austenite-to-ferrite transformation KW - hot-torsion test KW - coiling simulation KW - medium-carbon steel KW - strength and toughness KW - austenite KW - abnormal grain growth KW - cold-deformation KW - precipitate KW - n/a KW - Hall-Petch coefficient UR - https://www.unicat.be/uniCat?func=search&query=sysid:137783395 AB - In response to the demanding requirements of different sectors, such as construction, transportation, energy, manufacturing, and mining, new generations of microalloyed steels are being developed and brought to market. The addition of microalloying elements, such as niobium, vanadium, titanium, boron, and/or molybdenum, has become a key tool in the steel industry to reach economically-viable grades with increasingly higher mechanical strength, toughness, good formability, and weldable products. The challenges that microalloying steel production faces can be solved with a deeper understanding of the effects that these microalloying additions and combinations of them have during the different steps of the steelmaking process. ER -