Journal ArticleDOI
Strengthening of cobalt-free 19Ni3Mo1.5Ti maraging steel through high-density and low lattice misfit nanoscale precipitates
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In this paper, the concept of low lattice misfit and high-density of nanoscale precipitates obtained through solution treatment was adopted to obtain ultrahigh strength maraging steel without compromising elongation.Abstract:
The concept of low lattice misfit and high-density of nanoscale precipitates obtained through solution treatment was adopted to obtain ultrahigh strength maraging steel without compromising elongation. An “ultrahigh strength-high toughness” combination was successfully obtained in 19Ni3Mo1.5Ti maraging steel with ultimate strength of ~1858 MPa and static toughness of ~110 MJ m−3. Maraging steel had extremely high density (2.3 × 1024 m−3) of nanoscale precipitates with minimum lattice misfit of less than 1% at the solutionization temperature of 820 °C. Two kinds of nanoscale precipitates, namely, η-Ni3(Ti,Mo) and B2-Ni(Mo,Fe) contributed to ultrahigh strength. The size of nanoscale precipitates governed the movement of dislocations, cutting versus by-passing. Theoretical estimate of ordering and modulus contribution to strengthening suggested that ordering had a dominant influence on strength. The toughness was closely related to the characteristic evolution of nanoscale precipitates such that the high density of nanoscale precipitates contributed to increase of elastic deformation and low lattice misfit contributed to increase of uniform deformation. The nanoscale size and low lattice misfit of precipitates were the underlying reasons for the high-performance of maraging steel. Moreover, the combination of high-density of nanoscale precipitates and low lattice misfit is envisaged to facilitate the futuristic design and development of next generation of structural alloys.read more
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Aging phenomenon in low lattice-misfit cobalt-free maraging steel: Microstructural evolution and strengthening behavior
TL;DR: In this paper, the impact of aging temperature on microstructural evolution and strengthening behavior on low lattice misfit cobalt-free maraging steel was elucidated, and the best combination of high strength (1850 MPa) and high-toughness (125.4 MJm−3) was obtained at the optimal aging temperature of 520°C, without sacrificing ductility.
Journal ArticleDOI
A novel strengthening and toughening strategy for T250 maraging steel: Cluster-orientation governed higher strength-ductility combination induced by electropulsing
TL;DR: In this article, a high-energy and instantaneous electropulsing is devised to improve the ductility of T250 steel, and the substructure evolution and aging behavior of T 250 steel was systematically investigated by Transmission Electron Microscope (TEM) characterization, APT, Finite Element Modelling (FEM) simulation and Electron Back-Scattered Diffraction (EBSD) technology.
Journal ArticleDOI
Effect of aging temperature on the precipitation behavior and mechanical properties of Fe–Cr–Ni maraging stainless steel
TL;DR: In this paper, the effect of aging temperature on the precipitation behavior and mechanical properties of Fe-Cr-Ni maraging stainless steel was studied by means of a threedimensional atom probe (3DAP) and high-resolution transmission electron microscopy (HRTEM).
Journal ArticleDOI
Microstructure characteristics, strengthening and toughening mechanism of rolled and aged multilayer TWIP/maraging steels
TL;DR: In this paper, a multilayer TWIP/Maraging steel with high strength, high toughness and interfacial shear strength of 564 MPa is obtained by vacuum hot rolling, subsequent cold rolling and aging treatment.
Journal ArticleDOI
Elucidating the role of secondary cryogenic treatment on mechanical properties of a martensitic ultra-high strength stainless steel
TL;DR: In this paper, the role of secondary cryogenic treatment on the mechanical properties and corresponding microstructure of Ferrium S53 ultra-high strength stainless steel was investigated, and the results indicated that a superior combination of strength and impact toughness was achieved in double cryogenically treated secondary aged samples (DC-SAT).
References
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TL;DR: In this metastability-engineering strategy, a transformation-induced plasticity-assisted, dual-phase high-entropy alloy (TRIP-DP-HEA) is designed, which combines the best of two worlds: extensive hardening due to the decreased phase stability known from advanced steels and massive solid-solution strengthening of high-ENTropy alloys.
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Physical and mechanical properties of the B2 compound NiAl
TL;DR: In this article, the authors summarize all available mechanical and pertinent physical properties on NiAl, stressing the most recent investigations, in an attempt to understand the behavior of NiAl and its alloys over a broad temperature range.
Journal ArticleDOI
Dependence of tensile deformation behavior of TWIP steels on stacking fault energy, temperature and strain rate
S. Curtze,V.-T. Kuokkala +1 more
TL;DR: In this paper, three experimental high manganese twinning induced plasticity (TWIP) steels were produced based on thermodynamic stacking fault energy (SFE) calculations, following the thermodynamic modeling approach originally proposed by Olson and Cohen (Metall Trans 7A (1976) 1897).
Journal ArticleDOI
Work hardening of dispersion-hardened crystals
TL;DR: In this article, a new theory of work hardening in dispersion-hardened single crystals is described, which is based on the fact that, if the particles do not deform plastically, and the interface between particle and matrix does not fracture, then secondary slip must occur locally round each particle when the crystal is deformed, even though the crystal may appear to deform by single slip.