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seawater subcritical cracking of hy steel weldments

seawater subcritical cracking of hy steel weldments

seawater subcritical cracking of hy steel weldments

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Seawater Subcritical Cracking of HY-Steel WeldmentsSeawater Subcritical Cracking of HY-Steel Weldments Welding procedures that produce a refined, tempered microstructure are necessary for achieving the best seawater subcritical cracking resistance in HY-steel weld metals By C. A. ZANIS, P. W. HOLSBERG, AND E. C. DUNN, JR. ABSTRACT. The seawater subcritical cracking (SCC) resistance of HY-100

Weldability of Steels IspatGuru

Apr 13, 2016 · Steels with lower CE values generally show good weldability. When the CE of the steel is less than 0.45 %, weld cracking is unlikely, and no heat treatment is needed. When the CE of the steel is between 0.45 % and 0.60 %, weld cracking is likely to take place, and preheating in the range of around 100 deg C to 400 deg C is generally suggested.Threshold of corrosion-static crack resistance as a seawater subcritical cracking of hy steel weldmentsO. N. Romaniv and G. N. Nikiforchin, Kinetics and micromechanism of subcritical crack growth under stress corrosion cracking and corrosion fatigue of structural steels, in: Proceedings of the 9th International Congress Metal Corrosion, Toronto, 1984, Vol. 4, pp. 498505. Google ScholarThe correlation of microstructure and stress corrosion seawater subcritical cracking of hy steel weldmentsMicrostructure is among the most important factors known to affect the stress corrosion cracking (SCC) susceptibility of medium and high strength steels. Multipass welding can produce various microstructures in the weld and heat affected zone on quite a fine scale, so that intimately mixed fracture modes are observed on SCC specimens of such welds.

Stress corrosion cracking of structural steels immersed in seawater subcritical cracking of hy steel weldments

Stress corrosion cracking of HY-180 steel (Fe-10 Ni-2 Cr-1 Mo-8 Co-0.12 C) was studied in aqueous 3.5 pct NaCI (pH = 6.5) at 22 °C. The alloy was austenitized, water quenched and aged at 510 °C seawater subcritical cracking of hy steel weldmentsStress Corrosion Behavior of High Strength SteelsThe effect of stress and environment on the susceptibility to failure of HY-80, HY-130(T), 12Ni maraging, and 18Ni maraging steels has been evaluated by using both pre-notched and smooth specimens. Tests were conducted in sodium chloride solution, artificial sea water, and natural sea water, both with and without cathodic charging.Statistical behaviour of fatigue crack growth for HY-80 seawater subcritical cracking of hy steel weldmentsJan 01, 1989 · STATISTICAL BEHAVIOUR OF FATIGUE CRACK GROWTH FOR HY-80 STEEL PLATE AND ITS WELDMENTS UNDER CATHODIC PROTECTION IN SEAWATER AND IN AIR J. R. MATTHEWS,+ T. BETANCOURTf and M. ROBICHEAUf fDefence Research Establishment (Atlantic), P.O. Box 1012, Dartmouth, N.S. B2Y 3Z7 Canada tNova Scotia Research Foundation Corporation,

Seawater Subcritical Cracking of HY-Steel Weldments

Seawater Subcritical Cracking of HY-Steel Weldments Welding procedures that produce a refined, tempered microstructure are necessary for achieving the best seawater subcritical cracking resistance in HY-steel weld metals By C. A. ZANIS, P. W. HOLSBERG, AND E. C. DUNN, JR. ABSTRACT. The seawater subcritical cracking (SCC) resistance of HY-100SUBS' HULL PROBLEMS RESURFACING - Hartford CourantSep 08, 1991 · The hull of the Seawolf, the submarine that is supposed to lead the Navy into the 21st century, is being built with steel and welding techniques developed SUBS' HULL PROBLEMS RESURFACING - Hartford CourantSep 08, 1991 · Preheating the steel in the area of the weld, he said, allows hydrogen to escape and slows the cooling process of the weld. Preheating is essential, he said, in welding HY steels.

Microstructure and Properties of Friction Stir Processed seawater subcritical cracking of hy steel weldments

K. Masubuchi and D. C. Martin, Mechanisms of Cracking in HY-80 Steel Weldments, Welding Journal, vol. 41, pp. 375S-384S, 1962. Google ScholarMetallurgical Characteristics of High Strength Structural seawater subcritical cracking of hy steel weldmentsThe subcritical crack growth characteristics of the high strength metals are studied under conditions of low cycle fatigue. Environmental effects on subcritical crack growth and the application of fracture mechanics techniques for the spectrum of material under investigation are also being studied.Metallurgical Characteristics of High Strength Structural seawater subcritical cracking of hy steel weldmentsMetals Developed for Fabricating HY-130(T) Steel Weldments . .. .. * e * a * * * * * .105 Charpy V (Cv) Fracture Toughness of HY-130(T) Plates and seawater subcritical cracking of hy steel weldments The subcritical crack growth characteristics of the high strength metals are studied under conditions of low cycle fatigue. Environmental

Investigation of Residual Stresses h Steel Weldments

in weldments, 45 weldments in mild steel, HY-80 steel, a commercial high-strength structural steel, and SAE 4340 steel. Extensive cracks were found in weldments made in SAE 4340 steel (oil quenched and tempered at 500 F) after hydrogen chargingfor relatively short times. Systematic crack patterns that could be related to residual stress distri-Influence of seawater and residual stresses on fatigue seawater subcritical cracking of hy steel weldmentsNov 01, 1991 · Results are presented on fatigue crack growth of weld joints made of C Mn structural steel plates in both air and seawater. Tests were conducted to identify the behavior at different locations of the joints as the frequency, R-ratio and electrochemical potential are varied. Residual stresses in specimens with welds are evaluated to analyse the fatigue crack growth behavior.Hydrogen-Induced Cracking - an overview | ScienceDirect The weld residual stress and a weld area can be used instead of impact stress and deformed area from seismicity. The models for estimating opening area due to SCC are described in the following section for stainless steel canisters. This approach is equally applicable to the hydrogen-induced cracking of carbon steel.

Hydrogen Induced Cracking in HY-80 Steel Weldments

cracking is described. The testing de­ vice imposes an augmented strain on a transverse cross section of a bead-on-plate steel weldment. Results of cracking tests performed on four heats of HY-80 steel indicate that the device permits the quantitative evaluation of the susceptibility of dif­ ferent lots of the same material to hy­ drogen seawater subcritical cracking of hy steel weldmentsHydrogen Degradation of High Strength Steel Weldmentshydrogen cracking can occur later in service under unusual conditions. In one case the hydrogen concentration was found to be 1 cc/100 gram in a mild steel weldment, ten years after the welding process took place [9]. This form of cracking is also called cold cracking, delayed cracking or hydrogen assisted cracking.Fracture Toughness of HY-130 Steel Weld Metalson the seawater subcritical cracking behavior of HY-steel weldments. They found that welding parameters, which effectively reheat, refine, and temper the weld metal microstructure, also improve the resistance to susceptibility to subcriti­ cal cracking (SCC) in seawater. In particu­ lar, a weldment fabricated by the gas

Factors Influencing Stress-Corrosion Cracking of High seawater subcritical cracking of hy steel weldments

The stress-corrosion cracking (SCC) behavior of high-strength steel weld metals, as indexed by K<SUB>Iscc</SUB>, was examined with emphasis on the relative influences of yield strength, electrochemical potential, welding process, and weld metal composition. The weld metals were from weldments fabricated by the gas metal arc (GMA) or gas tungsten arc (GTA) process. Filler metals FATIGUE CRACK PROPAGATION IN A514 BASE PLATE part I Fatigue Crack Propagation in A514 Base Plate Procedure The materials used in this section met ASTM A514F and A514J specifi- cations. Composition and mechanical properti~s are shown in Table I. Plates, 24" x 25" x 5/8", were cut in half to 12 11 x 25" x 5/8" dimensions then cut into 12" x 3" x 5/8" strips. Three different specimen geometries were used in this investigation, Table II.Effect of synthetic sea-water on the crack growth seawater subcritical cracking of hy steel weldmentsSep 01, 1972 · A synthetic sea-water environment does not induce stress corrosion cracking in HY 140 steel weldments at applied stress intensity levels below 84 ksi Vin. 5. Test specimens larger than 1 in. thick are required to generate plane strain Kiscc data for H Y 140 steel weldments exposed to synthetic sea-water.

Effect of seawater on the fatigue life and crack growth seawater subcritical cracking of hy steel weldments

Sep 01, 1992 · The Q1N steel is identical to the HY-80 steel in terms of composition and strength, and the BIS 812 EMA steel is of higher strength than the Q1N steel. The seawater crack growth rate data obtained for BIS 812 EMA steel in this study falls within or close to the crack growth rate band obtained for Q1N steel under approximately similar test seawater subcritical cracking of hy steel weldmentsDTIC ADA136966: Characterizations of Preheated and Non seawater subcritical cracking of hy steel weldmentsPreheating HY-80 steel weldments is standard procedure, but it is an expensive and time consuming step in the fabrication of hull structures. The microstructures and hardness profiles of both a preheated (250 F--121 C) and a non-preheated (32 F--0 C) HY-80 steel weldment were studied to provide information and allow comparisons of the microstructural transformations that occur in the heat seawater subcritical cracking of hy steel weldmentsDTIC AD0817193: CRACK GROWTH PROPERTIES OF WELDS IN HY Initial experiments have been conducted on welded high strength steel plate type specimens subjected to the corrosive effects of sea water under cyclical and static loading. Butt welds in 1 inch thick HY-80 and HY-130/150 steel plates and a mechanically peened tee fillet weld in 1-1/2 inch HY-100 steel plate have shown high resistance to crack seawater subcritical cracking of hy steel weldments

Corrosion fatigue of a superduplex stainless steel weldment

Corrosion fatigue crack growth characteristics of duplex stainless steel weldment in synthetic seawater, (2003). Corrosion fatigue crack propagation of a duplex stainless steel X6 Cr Ni Mo Cu 25-6 in air and in artificial seawater,Corrosion Fatigue Crack-Growth Behavior of HY-130 Steel seawater subcritical cracking of hy steel weldmentsFatigue crack propagation was studied in HY-130 steel base plate, as-deposited shielded metal-arc weld metal, and gas metal-arc weld metal using compact specimens. The effects of seawater, cathodic protection, frequency and hold time were investigated.Corrosion Fatigue Crack Growth Characteristics of Several seawater subcritical cracking of hy steel weldmentsAbstract. The corrosion-fatigue crack growth properties of several types of HY-100 steel weldments were studied, primarily in an environment of seawater with cathodic protection by zinc anode. Shielded metal-arc (SMAW), gas metal-arc (GMAW) of both pulsed and spray are processes, and submerged-arc (SAW) weldments were included.

CREEP CRACKING OF SIMILAR AND DISSIMILAR T92

observed, including cracking in T92 base material (T92 BM), type IV cracking in fine-grained intercritical heat-affected zone (HAZ), type III cracking in the fusion zone at the interface between T92 steel and Ni-based weld metal (Ni WM), over-load cracking at T92/Ni WM interface and cracking in over-tempered T92 BM relating to subcritical HAZCORROSION FATIGUE OF A SUPERDUPLEX STAINLESS stainless steel, Proc. International Manufacturing Conference (IMC-19), Belfast, Northern Ireland, (August 2002). Comer A, Looney L, Corrosion fatigue crack propagation of a welded superduplex stainless steel, Poster presented at the 5th Sir Bernard Crossland Symposium, University of Ulster Jordanstown, Northern Ireland, (March 2002).Best Manufacturing Practices: TRAdeskbook: Technology seawater subcritical cracking of hy steel weldmentsThe results of low-cycle fatigue crack initiation tests of HSLA-100 steel and weldments and high-cycle fatigue tests in air and seawater showed properties equivalent to HY-100 steel in every case. The steels showed similar fatigue crack growth rate properties.

AA094 PROCESSING OF RARE EARTH MODIFIED HIGH

The susceptibility to hydrogen-induced cracking of HY-80 steel weldments was decreased by combined additions of cerium and lanthanum (approximately 60 percent cerium and 40 percent lanthanum) at levels of 0.05, 0.09, and 0.13 weight peff.lt2)with the maximum effect A Review of Fatigue Crack Growth for Pipeline Steels seawater subcritical cracking of hy steel weldmentsDec 01, 2010 · Fatigue crack growth rates for the HY-80 steel ranged from 2 to 40 times those for HY-130 in 0.34 MPa hydrogen, which was in turn roughly ten times faster than for either alloy in air. In addition, Nelson found that FCGR in 1020 steel ( y 207 MPa) at near-atmospheric hydrogen pressure increased in the low-cycle regime by more than an seawater subcritical cracking of hy steel weldmentsHY-industry superalloy expert.Your trusted professional seawater subcritical cracking of hy steel weldmentsAug 27, 2019 · Alloy 400, 500, 600,625,80A. 800&800HT,stellite series.HY has 20 years craftsman spirit, SpecialAlloy Solution expert, Qualified supplier for GE, Siemens.

Cracking mechanisms in HY-130 steel weldments. : Becker seawater subcritical cracking of hy steel weldments

Cracking mechanisms in HY-130 steel weldments. Item Preview remove-circle Share or Embed This Item. EMBED. EMBED (for wordpress seawater subcritical cracking of hy steel weldments hosted blogs and archive.org item <description> tags) Want more? Advanced embedding details, examples, and help! No_Favorite. share seawater subcritical cracking of hy steel weldmentsCrack Closure Effects on Fatigue Crack Growth Thresholds seawater subcritical cracking of hy steel weldmentsThe effects of crack closure on the near-threshold corrosion fatigue crack growth behavior of Mil S-24645 HSLA steel and its weld metal have been investigated in air, ASTM seawater at the free corrosion potential, and ASTM seawater at 0.8V and 1.0V (SCE) using frequencies of 10, 2, and 0.2 Hz, and a stress ratio, R = 0.1.Effect of synthetic sea-water on the crack growth seawater subcritical cracking of hy steel weldmentsSep 01, 1972 · A synthetic sea-water environment does not have a significant effect upon the fatigue crack growth rate properties of HY 140 steel weldments. 2. The fatigue crack growth rate properties of HY140 steel TIG process weld metal are superior to those of the base metal and HAZ material. 3. The fatigue crack growth rate properties of HY140 steel heat seawater subcritical cracking of hy steel weldments

seawater subcritical cracking of hy steel weldments seawater subcritical cracking of hy steel weldments

seawater subcritical cracking of hy steel weldments. Mobile evaporator corrosion test results (Technical Report . Localized corrosion resistance of stainless steel (Type 316L), a titanium based alloy (Ti 0.15Pd) and corrosion resistant nickel based alloys (a new alloy MAT 21 (Alloy T) and Alloy C 276) was evaluated in four simulated seawater seawater subcritical cracking of hy steel weldments'Weld Cracking In Ferrous Alloys' Will Be A Valuable seawater subcritical cracking of hy steel weldmentsOct 14, 2008 · Cracking mechanisms in stainless steel welds. Preventing weld cracking. References. Appendix of terms. Robust welding technologies for ferrous alloys A

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