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Microstructural evolution of AISI 4340 steel during Direct

Microstructural evolution of AISI 4340 steel during Direct ...Mechanical Properties, Microstructural Evolution, and the Effect of Friction on the Plastic Flow of the AISI 321 Austenitic Stainless Steel Tube During Cold Pilgering An Experimental and Simulation AnalysisEvolution of Globular Microstructures during D...

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2.1 Temperature dependent electrical resistivity of AISI 4340 steel 11 2.2 Elemental composition of AISI 4340 steel [18] 12 2.3 Material properties of AISI 4340 steel used in thermal analyses 13 2.4 Source term at the liquid / vapor interface in each governing equation 21 3.1 Plastic behavior of AISI 4340 steel John-Cook hardening model [36] 47A Study of Microstructure Properties of AISI D2 Tool Steel Microstructural evolution of AISI 4340 steel during Direct A Study of Microstructure Properties of AISI D2 Tool Steel in Partial Re-Melting Method. Applied Mechanics and Materials, 2014. D. Salleh. Download PDF. Download Full PDF Package. This paper. A short summary of this paper. 37 Full PDFs related to this paper. READ PAPER.A study of microstructural evolution of AISI D2 tool steel Microstructural evolution of AISI 4340 steel during Direct DOI 10.18178/IJMERR.7.6.689-693 Corpus ID 182865938. A study of microstructural evolution of AISI D2 tool steel during Direct Partial Remelting method @inproceedings{Adnan2018ASO, title={A study of microstructural evolution of AISI D2 tool steel during Direct Partial Remelting method}, author={F. Adnan and Z. Sajuri and M. Z. Omar}, year={2018} }

A thermal and microstructural evolution model of direct Microstructural evolution of AISI 4340 steel during Direct

Direct-Drive Friction Welding of Plain Carbon Steel T.C. NGUYEN and D.C. WECKMAN A model of direct-drive friction welding has been developed, which can be used to predict the time-temperature histories, the resultant microstructure, and the microhardness distribution across the weld interface of direct-drive friction-welded AISI/SAE 1045 steel Microstructural evolution of AISI 4340 steel during Direct Author Bharat K. Jasthi, Todd Curtis, Christian A. Widener, Michael West, Matthew Carriker, Ashish Dasgupta Microstructural evolution of AISI 4340 steel during Direct Publish Year 2015The effect of thermal cycling on direct laser-deposited Microstructural evolution of AISI 4340 steel during Direct Dec 01, 2020Microstructural evolution of AISI 4340 steel during direct metal deposition process. Microstructural evolution of AISI 4340 steel during Direct Thermal behavior and microstructural evolution during laser deposition with laser-engineered net shaping part I. Numerical calculations Microstructural evolution of AISI 4340 steel during Direct Effects of process time interval and heat treatment on the mechanical and microstructural properties of direct laser Microstructural evolution of AISI 4340 steel during Direct Author Yi Qiao Yang, Shuang Jiang, Xiang ZhaoPublish Year 2016Microstructural Analysis of the Laser-Cladded AISI 420 Microstructural evolution of AISI 4340 steel during Direct The aim of this paper was to investigate the effect of delay time between the clad tracks on the microstructure hardness evolution. AISI 420 stainless steel was deposited onto 300M steel

Cited by 16Publish Year 2013Author M. Grujicic, S. Ramaswami, J. S. Snipes, R. Yavari, A. Arakere, C.-F. Yen, B. A. CheesemanMicrostructural Evolution during DPRM Process of Semisolid Microstructural evolution of AISI 4340 steel during Direct

Oct 02, 2013Microstructural Evolution during DPRM Process of Semisolid Ledeburitic D2 Tool Steel. Microstructural evolution of AISI 4340 steel during Direct the microstructural evolution of the ledeburitic AISI D2 tool steel in the semisolid state was studied experimentally. The potential of the direct partial remelting (DPRM) process for the production of AISI D2 with a uniform globular microstructure was Microstructural evolution of AISI 4340 steel during Direct Cited by 4Publish Year 2021Author Salar Salahi, Mostafa Kazemipour, Ali NasiriMicrostructural Evolution during DPRM Process of Semisolid Microstructural evolution of AISI 4340 steel during Direct AbstractIntroductionExperimental Materials and ProcedureResults and DiscussionConclusionAcknowledgmentsSemisolid metal processing is a relatively new technology that offers several advantages over liquid processing and solid processing because of the unique behaviour and characteristic microstructure of metals in this state. With the aim of finding a minimum process chain for the manufacture of high-quality production at minimal cost for forming, the microstructural evolution of the ledeburitic AISI D2 tool steel in the semisolid state was studied experimentally. The potential of the direct partial remelting (DPRM) prSee more on hindawiCited by 13Publish Year 2013Author M. N. Mohammed, Mohd. Zaidi Omar, J. Syarif, Zainuddin Sajuri, M. S. Salleh, K. S. AlhawariMicrostructural evolution during DPRM process of semisolid Microstructural evolution of AISI 4340 steel during Direct Jan 01, 2013Hence, a one-step net-shaping process, such as semisolid forming, could offer great benefits. This study was employed to characterize the microstructural spheroidisation and phase transformations of AISI D2 cold-work tool steel at the isothermal temperature during partial remelting method. 2. Experimental Materials and ProcedureCited by 5Publish Year 2013Author M.N. Mohammed, Mohd Zaidi Omar, Junaidi Syarif, Zainuddin Sajuri, Mohd Shukor Salleh, Khaled S. Alha Microstructural evolution of AISI 4340 steel during Direct Effects of microstructural evolution on the corrosion Microstructural evolution of AISI 4340 steel during Direct Jan 15, 2021In this study, the impacts of cold rolling-induced plastic deformation on the microstructural evolution and the resultant corrosion response of the AISI420 martensitic stainless steel are thoroughly investigated and compared with those of the non-deformed sample. 2. Experimental procedure2.1. Sample preparation

Cited by 6Publish Year 2018Author Shi Da Sun, Cameron Barr, Milan BrandtJestr JOURNAL OF

In this study, the microstructure evolution of AISI 321 stainless steel during linear friction welding (LFW) was investigated. The results show that LFWed AISI 321 joint has a distinct weld zone (WZ) and thermo-mechanically affected zone (TMAZ).Computational Modeling of Microstructural-Evolution in Microstructural evolution of AISI 4340 steel during Direct Oct 02, 2012Computational Modeling of Microstructural-Evolution in AISI 1005 Steel During Gas Metal Arc Butt Welding. M. Grujicic 1, S. Ramaswami 1, J. S. Snipes 1, R. Yavari 1, A. Arakere 1, C.-F. Yen 2 & B. A. Cheeseman 2 Journal of Materials Engineering and Performance volume 22, pages 12091222 (2013)Cite this articleDevelopment of adiabatic shear bands in annealed 316L Microstructural evolution of AISI 4340 steel during Direct The evolution of adiabatic shear localization in an annealed AISI 316L stainless steel has been investigated and was reported in Part I of this paper (Met. Trans. A, 2006, Vol. 37A, pp. 2435446). In the present research (Part II), a comprehensive transmission electron microscopy (TEM) examination was conducted on the microstructural evolution of shear localization in this material at Microstructural evolution of AISI 4340 steel during Direct

Effect of duty cycle on surface properties of AISI 4340 Microstructural evolution of AISI 4340 steel during Direct

Plasma nitriding is a glow discharge technique, which is widely used to improve the surface properties of steel and its alloys, such as wear, corrosion resistance and hardness; additionally, it can increase fatigue strength. The aim of this work is Microstructural evolution of AISI 4340 steel during Direct Effect of duty cycle on surface properties of AISI 4340 using a pulsed plasma nitriding process.Evolution of Globular Microstructures during Direct Microstructural evolution of AISI 4340 steel during Direct Steel is a mostly challenging metal to semisolid process because of the high temperatures implicated and the prospective for surface oxidation. Slurry processing experiment was performed with AISI D2 cold work tool steel to identify the evolution of globular microstructures via Direct Partial Re-Melting Method (DPRM). Samples were heated in an argon atmosphere up to 1330°C which corresponded Microstructural evolution of AISI 4340 steel during Direct Experimental and Molecular Dynamics Simulation-Based Microstructural evolution of AISI 4340 steel during Direct Jun 17, 2021In this study, chromium electroplating process, corresponding hydrogen embrittlement, and the effects of baking on hydrogen diffusion are investigated. Three types of materials in

Friction Stir Processing of Direct-Metal-Deposited 4340 Steel

Bhattacharya, S., G. Dinda, A. Dasgupta, and J. Mazumder, Microstructural evolution of AISI 4340 steel during Direct Metal Deposition process. Materials Science and Guru Prasad Dinda - Google ScholarMicrostructural evolution of AISI 4340 steel during direct metal deposition process S Bhattacharya, GP Dinda, AK Dasgupta, J Mazumder Materials Science and Engineering A 528 (6), 2309-2318 , 2011High Speed Machining of Hardened AISI 1045 Steel Microstructural evolution of AISI 4340 steel during Direct Hardened AISI 1045 steel implemented in machine tool spindle was previously ground using grinding operation. This research aims to address the feasibility of hard turning AISI 1045 using PCBN tool with chip breaker under dry condition. Chip morphology, cutting force and temperature were measured, analyzed and correlated with machining parameters.

Influence of Tempering in Different Melting Routes on Microstructural evolution of AISI 4340 steel during Direct

Oct 13, 2020AISI 4340 steel was produced by three different melting routes, vacuum degassing (VD), electro slag remelting (ESR) and vacuum arc remelting (VAR). The as-cast ingots were subjected to thermomechanical processing routes, comprises of forging, normalizing, hardening, and tempering.Mechanical properties and microstructural features of Table 1. AISI 4340 steel is a low-alloy martensitic steel that can be heat treated to provide a wide range of hardness values. Other studies have shown that most of the inclusions in AISI 4340 steel are MnS particles [11]. However, their concentration is reduced considerably by the vacuum arc remelt (VAR) process [12]. For theMicrostructural aspects of the transition between two Microstructural evolution of AISI 4340 steel during Direct Microstructural aspects of the transition between two regimes in orthogonal cutting of AISI 1045 steel Significance In order to improve machining processes, it is important to first comprehend the phenomena occurring at the cutting edge of the tool.

Microstructural evolution of AISI 4340 steel during Direct Microstructural evolution of AISI 4340 steel during Direct

Mechanical Properties, Microstructural Evolution, and the Effect of Friction on the Plastic Flow of the AISI 321 Austenitic Stainless Steel Tube During Cold Pilgering An Experimental and Simulation AnalysisModeling of thermomechanical and metallurgical The present research was directed at adequate prediction of the temperature, deformation behavior (roll force, flow stress, strain and strain rate) and microstructural evolution (recovery, recrystallization, grain growth, austenite and ferrite grain sizes) during rolling in the Compact Strip Production (CSP) process, as well as the final mechanical properties of the hot rolled strips.formechanical properties of aisi 4320mechanical propeties of aisi 4340mechanical properties of aisi 4340 cast mamechanicak properties of aisi 4320scc testing of aisi 4330scc of aisi 4330Microstructure Evolution of Laser Direct Metal Deposition Microstructural evolution of AISI 4340 steel during Direct In the current investigation, the M2 high speed steel (HSS) sample was produced by laser direct metal deposition (DMD) with a rapid manufacturing (AM) process. The overall microstructure analysed by light optical microscopy (LOM) was a gradual transition from bottom zone to top zone due to the continuous decrease of the cooling rate. The observed microstructure from SEM and XRD was consisted Microstructural evolution of AISI 4340 steel during Direct

White Layer Formation Due to Phase Transformation to Microstructural evolution of AISI 4340 steel during Direct

Jan 01, 2008It is commonly believed that the white layer formed during machining of steels is caused primarily by a thermally induced phase transformation resulting from rapid heating and quenching. As a result, it is often assumed that if the temperature at the tool flank-workpiece interface exceeds the Microstructural evolution of AISI 4340 steel during Direct

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