Journal ArticleDOI
Influence of aging temperature on strength and toughness of laser-welded T-250 maraging steel joint
TLDR
In this article, the effect of aging temperature on microstructures and mechanical properties of laser-welded T-250 maraging steel joints was investigated, and it was shown that the Ni 3 (Ti, Mo) precipitate and reverted austenite are the critical factors influencing the strength and toughness of welded joints.Abstract:
This paper presents an investigation on the strength and toughness of laser-welded T-250 maraging steel joint, aimed at elucidating the influence mechanism of aging temperature on microstructures and mechanical properties of the joints. The results showed that as the aging temperature increased, the ultimate tensile strength of welded joints increased, reaching a maximum of 1640.5 MPa at 520 °C, and then decreased. The static toughness of welded joints decreased at first and increased later with the aging temperature increasing. The minimum of 38.8 MJ m −3 for the static toughness was obtained at 560 °C. There were two types of reverted austenite respectively distributing in grain boundaries and in the matrix of martensite, due to the change of aging temperatures. This study underscores that the Ni 3 (Ti, Mo) precipitate and reverted austenite are the critical factors influencing the strength and toughness of welded joints. The Ni 3 (Ti, Mo) precipitate in the weld metal improves the strength of welded joints remarkably as its volume fraction increases. The reverted austenite in grain boundaries is harmful to the toughness of welded joints, while the reverted austenite in the matrix is beneficial to the toughness of welded joints because of its finely dispersive distribution and its ability to prevent crack propagation. Increasing the amount of reverted austenite in the matrix is an effective way to improve mechanical properties of laser-welded maraging steel joints.read more
Citations
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Journal ArticleDOI
Tuning process parameters to optimize microstructure and mechanical properties of novel maraging steel fabricated by selective laser melting
Yanan Wang,Liangshun Luo,Liu Tong,Binbin Wang,Luo Lei,Junhao Zhao,Liang Wang,Yanqing Su,Jingjie Guo,Hengzhi Fu +9 more
TL;DR: In this paper, a new composition of maraging steel Fe-18.3Ni-9Co-4.84Mo-0.92Ti- 0.27Al-0., 0.13Cr-0, 0.01C (wt.%), whose strength and ductility can be simultaneously improved by selective laser melting has been studied.
Journal ArticleDOI
Microstructure and mechanical properties of similar and dissimilar metal gas tungsten constricted arc welds: Maraging steel to 13-8 Mo stainless steel
TL;DR: In this article, the same and dissimilar metal welds made in solutionized condition were subjected to standard post weld hardening treatments direct ageing at 485 °C, soaking for 3½ hours followed by air cooling (ageing treatment of maraging steel) and direct aging at 510′°C.
Journal ArticleDOI
On the origin and contribution of extended kinks and jogs and stacking fault ribbons to deformation behavior in an ultrahigh strength cobalt-free maraging steel with high density of low lattice misfit precipitates
TL;DR: In this article, the deformation mechanisms and underlying reasons that contributed to high ductility (10.2%) and high static toughness (112.5) in an ultrahigh strength (1860 MPa) cobalt-free 19Ni3Mo1.5Ti maraging steel characterized by high density (2.3 × 1024 m−3) of η-Ni3(Ti,Mo) and B2-Ni(Mo,Fe) nanoscale precipitates with low lattice misfit of <1% with the martens
Journal ArticleDOI
A critical review on susceptibility of stress corrosion cracking in maraging steel weldments
TL;DR: In this article, the effect of different filler materials and composition of the filler material were also investigated to understand the SCC behavior for the weldment of 18 Ni maraging steel.
Journal ArticleDOI
Influence of last stage heat treatment on microstructure and mechanical properties of laser additive manufactured AF1410 steel
TL;DR: In this paper, two temperatures of 505°C and 515°C were selected for the last stage tempering treatment to optimize the mechanical properties of laser additive manufactured (LAM) AF1410 steels.
References
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Journal ArticleDOI
Precipitation hardening in metals
TL;DR: Precipitation hardening has long been used to increase the strength of commercial alloys, such as quenched and tempered steels and the duralumin type aluminium alloys as discussed by the authors.
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Reversion Mechanism from Deformation Induced Martensite to Austenite in Metastable Austenitic Stainless Steels.
TL;DR: In this article, the authors investigated the reversion mechanism from deformation induced martensite (α') to austenite (γ) by means of magnetic analysis and transmission electron microscopy.
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Precipitation reactions and strengthening behavior in 18 wt pct nickel maraging steels
TL;DR: In this article, the Johnson-Mehl-Avarami equation was used to describe the kinetics of precipitate nucleation in maraging steels C-250 and T-250, and the crystallography, structure and composition of the strengthening precipitates were studied utilizing analytical electron microscopy and computersimulated electron diffraction patterns.
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Precipitation hardening in 350 grade maraging steel
TL;DR: In this paper, the evolution of microstructure in a 350 grade commercial maraging steel has been examined, and the formation of austenite of different morphologies identified in detail.
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Phase chemistry and precipitation reactions in maraging steels: Part I. Introduction and study of Co–containing C–300 steel
TL;DR: In this paper, a series of studies of phase transformations in maraging steels were conducted using APFIM and transmission electron microscopy (TEM) and thermochemical calculations.