Advances in Microalloyed Steels
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, boro...
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Year of Publication: | 2021 |
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Uranga, Pello edt Advances in Microalloyed Steels Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021 1 electronic resource (236 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier Open access Unrestricted online access star 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. English History of engineering & technology bicssc niobium microalloyed steel as-cast condition inclusion rare earth elements precipitation. steel thermomechanical processing microstructure characterisation mechanical properties molybdenum martensitic steel direct quenching microalloying hardenability toughness grain refinement Hall-Petch coefficient microalloy precipitates hydrogen embrittlement Ti-Mo steel hot deformation constitutive model microstructural evolution microalloyed steels processing microstructural and chemical composition micro-alloyed steels precipitations Zener pinning atomic force microscopy (AFM) precipitation-microstructure correlation EBSD reconstruction methods continuous casting energy absorption mechanical metallurgy niobium reheat process thermo-mechanical controlled processing plate rolling strengthening precipitation induction titanium advanced high strength steels HSLA steels precipitation strengthening tempering bainitic ferrite austenite-to-ferrite transformation hot-torsion test coiling simulation medium-carbon steel strength and toughness austenite abnormal grain growth cold-deformation precipitate 3-0365-0132-0 3-0365-0133-9 Uranga, Pello oth |
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Uranga, Pello |
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Uranga, Pello |
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Advances in Microalloyed Steels |
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Advances in Microalloyed Steels |
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Advances in Microalloyed Steels |
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Advances in Microalloyed Steels |
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Advances in Microalloyed Steels |
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Advances in Microalloyed Steels |
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Advances in Microalloyed Steels |
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advances in microalloyed steels |
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MDPI - Multidisciplinary Digital Publishing Institute |
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2021 |
physical |
1 electronic resource (236 p.) |
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3-0365-0132-0 3-0365-0133-9 |
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AT urangapello advancesinmicroalloyedsteels |
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(CKB)5400000000044382 (oapen)https://directory.doabooks.org/handle/20.500.12854/68438 (EXLCZ)995400000000044382 |
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Advances in Microalloyed Steels |
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