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Journal articles on the topic 'AISI 310S alloy'

Author: Grafiati
Published: 4 June 2025
Last updated: 14 July 2025

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1

A., Kanni Raj. "Air Oxidation of AISI 310S Austenitic Stainless-Steel Superalloy between 973-1073K in Microstructured Condition and a Comparison with that of Surface Nanostructured Alloy and Same with Nanostructured Surface Oxide Layer." Journal of Nanotechnology and Nano-Engineering 6, no. 1 (2020): 5–9. https://doi.org/10.5281/zenodo.3707768.

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Oxidation of AISI 310S follows parabolic kinetics at all selected test temperatures, i.e., 973K, 1023K and 1073K. Activation energy of the oxidation reaction as calculated from the rate constant-temperature data is 209kJ/mol. Grain size increases during oxidation. Optical micrographs reveal uniform oxidized surface. No internal oxide formation as it is confirmed by optical micrographs. In low oxidation times (up to 20hours), only one scale of long-range order has been noted, i.e., chromic-ferricmanganic oxide. After a long time of oxidation (above 200hours), duplex scale has been formed with ferric oxide and ferrous ferric oxide. First inner layer is continuous one and second outer layer is spalling spinel oxide. High oxidation resistance of AISI 310S stainless steel is due to the greater alloying additions of nickel and chromium. Surface nanostructured alloy and alloy with nanostructured surface oxide layer show improved performance against oxidation. 
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2

A., Kanni Raj. "On High Temperature Materials: Mathematical Modeling of Thermodynamics and Construction of Phase Stability Diagram by Data Analytics Review for Understanding Hot Corrosion Attack Mechanisms as Applied to AISI 310S Superalloy Austenitic Stainless Steel Sheets Using Turbo C++ Programming." Journal of Statistics and Mathematical Engineering 5, no. 3 (2019): 1–5. https://doi.org/10.5281/zenodo.3270570.

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<em>AISI 310S stainless steel is used in high temperature components up to 1050&ordm;C. It is excellent heat-resistant alloy used in oxidizing and hot gaseous and molten salt corrosion environment. </em><em>An attempt is made in calculating PSD from &Delta;G values using Turbo C++ Programming. It is fast in doing PSD construction. It is simplified due to three reasons: Tedious calculations of partial pressures can be avoided, Variations in diagram with activity, in case of multi-component alloys can be determined easily, and Variations in diagram with temperature can be determined.</em>
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3

A., Kanni Raj. "On High Temperature Materials: Basic Deformation and Fracture Maps of AISI 310S Stainless Steel Sheet Taken from Production Runs of Salem Steel Plant (Steel Authority of India Limited, Ministry of Steel, Government of India) by Solving Various Equations Describing Different Mechanisms via Turbo C++ Language (Computer Software Programming)." Journal of Statistics and Mathematical Engineering 5, no. 2 (2019): 8–13. https://doi.org/10.5281/zenodo.2919652.

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<em>This</em><em> research</em><em> article</em><em> models creep </em><em>deformation and fracture of AISI 310S</em><em> alloy</em><em>. </em><em>A programme coded in Turbo C++ is used to plot deformation maps and fracture maps. It is inferred that in all test temperatures (973K, 1023K and 1073K) and all applied stresses (40-150MPa), power-law creep due to dislocation climb is operating mechanism of creep deformation. In these test temperatures and applied loads, formation of voids and cracks at grain boundary, and leading to inter-granular creep fracture is evident. Metallographs prove these predictions.</em>
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4

A., Kanni Raj. "On High Temperature Materials: Robust LCSP as Solved for AISI 310S Alloy, and Cumulative LFR as Applied to Radiant Heater Tubes." Journal of Mechanical and Mechanics Engineering 5, no. 2 (2019): 10–16. https://doi.org/10.5281/zenodo.2837958.

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Logistic Creep Strain Prediction (LCSP) is applied to predict creep curves, creep rate curves, and Larson-miller parameter (LMP) master curve. Life Fraction Rule (LFR) is used to obtain and remnant life of industrial pressure vessel tubes. Creep curves are plotted for test temperature of 650&deg;C under applied load 100-200MPa. It matches well with the predictions of MHG equation, Ɵ projection, MG equation and Wilshire equation. As LCSP and LFR involve simple iterations; Microsoft Office EXCEL, WPS Spreadsheet, and Internet online fxsolver, is sufficient. Cumulative LFR is applied to obtain maximum internal hoop stress for various 1.3y periods. Predictions match with that of solid works (Dassault Systems), Pro/Engineer, Autodesk and ANSYS software. Trend of creep and creep rate curves and LMP master curves is as same as that shown by experimental curves and chart plotted for 700, 750 and 800&ordm;C.
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5

Ivanov, Yu F., E. A. Petrikova, A. D. Teresov, I. V. Lopatin, and O. S. Tolkachev. "Complex electron-ion-plasma surface modification of high-alloy stainless steel." Izvestiya. Ferrous Metallurgy 67, no. 4 (2024): 391–97. http://dx.doi.org/10.17073/0368-0797-2024-4-391-397.

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The work is devoted to identification and analysis of patterns of change in the elemental and phase composition, defective substructure, mecha­nical (microhardness) and tribological (wear resistance and friction coefficient) properties of stainless high-chromium steel subjected to complex processing, combining vacuum irradiation of the samples surface layer with an intense pulsed electron beam of submillisecond exposure duration and subsequent nitriding under electron-ionic heating conditions. High-chromium steel AISI 310S, which in the initial state is a polycrystalline aggregate based on γ-iron, was used as the research material. Pulsed electron beam treatment of steel was carried out on a “SOLO” installation equipped with an electron source with a plasma cathode based on a low-pressure pulsed arc discharge with grid stabilization of the cathode plasma boundary and an open anode plasma boundary. Steel nitriding was carried out on a “TRIO” installation with a chamber size of 600×600×600 mm, equipped with a switching unit to implement the electron-ionic processing mode. Nitriding was carried out at 723, 793, and 873 K temperatures for 1, 3 and 5 h. It was found that electron-ionic nitriding of the samples pre-irradiated with an electron beam (10 J/cm2, 200 μs, 3 pulses at 723 and 793 K for 3 h) is accompanied by the formation of a ceramic layer containing only iron and chromium nitrides. The highest values of steel wear resistance after electron-ionic nitriding, exceeding the wear resistance of the initial steel by more than 700 times, are observed at nitriding parameters of 793 K, 3 h.
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6

Иванов, Юрий Федорович, Анатолий Анатольевич Клопотов, Илья Викторович Лопатин, et al. "PHASE FORMATION IN HIGH-CHROMIUM STEEL UNDER ELECTRON-ION-PLASMA TREATMENT." Physical and Chemical Aspects of the Study of Clusters, Nanostructures and Nanomaterials, no. 14 (December 15, 2022): 609–20. http://dx.doi.org/10.26456/pcascnn/2022.14.609.

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Осуществлено поверхностное легирование методом одноциклового и многоциклового (5 циклов «напыление-облучение» в каждом цикле толщина пленки титана 0,5 мкм) высокоскоростного плавления системы «пленка (Ti)/(сталь 20X23H18) подложка» импульсным электронным пучком. Азотирование (793 К; 1, 3 и 5 час.) проводили в условиях реализации элионного (электронного и ионного) режима обработки. Рассмотрены изотермические сечения тройных систем диаграммы состояния сплава Cr - Fe - Ni - Ti - N, формирующегося на различных стадиях комплексной обработки стали. Исследования показали, что, во-первых, облучение стали импульсным электронным пучком сопровождается формированием структуры высокоскоростной ячеистой кристаллизации твердого раствора на основе γ - Fe; во-вторых, азотирование стали в исходном состоянии сопровождается формированием нитридов железа FeN и хрома CrN суммарным содержанием 79,8 масс.%; в-третьих, предварительное облучение стали импульсным электронным пучком приводит к снижению скорости нитридообразования при последующем азотировании; суммарное содержание нитридов 53 масс.%; в-четвертых, независимо от количества циклов легирования (концентрации титана в поверхностном слое) после пяти часов азотирования в образцах формируется поверхностный слой, образованный нитридами хрома и железа (1 цикл легирования) или нитридами хрома и титана (5 циклов легирования). The surface alloying was carried out by single-cycle and multi-cycle (5 cycles «sputtering-irradiation», in each cycle the thickness of the titanium film 0,5 µm), i.e. high-speed melting of the system «film (Ti)/(steel AISI 310S) substrate» by pulsed electron beam. Nitriding (793 K; for 1, 3 and 5 hours) was carried out under conditions of realization of the elion (electron and ion) treatment mode. The isothermal cross sections of the ternary systems of the state diagram of the Cr - Fe - Ni - Ti - N alloy formed at different stages of the complex treatment of steel are considered. It is shown that (1) irradiation of steel by a pulsed electron beam is accompanied by the formation of a structure of high-speed cellular crystallization of solid solution based on γ-Fe; (2) nitriding of steel in the initial state is accompanied by formation of nitrides of iron FeN and chrome CrN with a total content of 79,8 wt.%; (3) pulsed electron-beam pre-irradiation of steel leads to a decrease in the rate of nitride formation during subsequent nitriding; the total nitride content of 53 wt.%; (4) regardless of the number of alloying cycles (titanium concentration in the surface layer) after five hours of nitriding in the samples formed a surface layer of nitrides of chromium and iron (1 cycle of doping) or nitrides of chromium and titanium (5 cycles of doping).
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7

Sandeep Singh, Sanjeev Kumar, Harvant Singh, and Lovedeep Singh. "Experimental Investigation on AISI 304l & AISI 310 Alloys Welded by Gas Metal Arc Welding (GMAW) Process." Asian Review of Mechanical Engineering 3, no. 2 (2014): 9–13. http://dx.doi.org/10.51983/arme-2014.3.2.2384.

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In this research is to study the influence parameters affecting the mechanical property (microhardness) and optical investigation (microscopy) of austenitic stainless steel grade (AISI-304L&amp; AISI-310) with Gas Metal Arc Welding (GMAW). The research was applying the different values of wire speed and current for experiment, which have following interested parameters: welding current at (180, 250 and 320 Amps), welding wire speeds at (2, 3, 5 m/min), shield gas pure CO₂ and (24V)Welding Voltage. The study was done in following aspects: microhardness and optical investigation. A research study investigate the maximum value of micro hardness for welding joint is 444.9 Hv at wire speed 3m/min and 250 Amps welding current. From the microscopy that HAZ has finer grain and interdendrictic austenitic phase at wire speed 3m/min &amp; 250 Amps current which may cause the high tensile strength &amp; micro hardness.
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8

Ozbayraktar, S., and A. Koursaris. "Effect of superheat on the solidification structures of AISI 310S austenitic stainless steel." Metallurgical and Materials Transactions B 27, no. 2 (1996): 287–96. http://dx.doi.org/10.1007/bf02915055.

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9

Naffakh, H., M. Shamanian, and F. Ashrafizadeh. "Dissimilar welding of AISI 310 austenitic stainless steel to nickel-based alloy Inconel 657." Journal of Materials Processing Technology 209, no. 7 (2009): 3628–39. http://dx.doi.org/10.1016/j.jmatprotec.2008.08.019.

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10

Reddy, Bijivemula Narayana, Pothur Hema, and Chevireddy Eswara Reddy. "Mechanical and Metallurgical Characterisation of CO2 Laser Beam Welding AISI 4130 and AISI 310 Sheets of Steel." Strojnícky časopis - Journal of Mechanical Engineering 71, no. 2 (2021): 19–30. http://dx.doi.org/10.2478/scjme-2021-0014.

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Abstract Laser Beam Welding (LBW) is the fusion welding technique in which coalescence is produced by heating the work piece by impingement of concentrated beam of laser light. In this paper a full depth butt welding of alloy steel AISI 4130 and stainless steel AISI 310 of 2 mm thickness by using CO2 Laser Beam Welding machine has been performed. Design of experiment is done by using Taguchi method L25 i.e. level 5 by considering process parameters i.e. power, welding speed, beam angle, focal point position and focal length. The experimental output results that are measured for the mechanical properties of welds (Ultimate Tensile Strength and Hardness). The analysis was carried out to explain the influence of the LBW processing parameters values on the mechanical and microstructural aspects. The weld Joint is analysed by Optical Microstructure and Scanning Electron Microscopy (SEM). The Energy Dispersive X-Ray Analysis (EDAX) was carried out to determinate the chemical composition of the weld zone.
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11

Andrews, Anthony, Glenda T. Motsi, and Peter A. Olubambi. "Wear and corrosion behaviour of AISI 310 and AISI 316 stainless steels in synthetic mine water." International Journal of Materials Research 104, no. 11 (2013): 1114–21. http://dx.doi.org/10.3139/146.110961.

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12

Qin, Z., P. R. Norton, and J. L. Luo. "Effects of hydrogen on formation of passive films on AISI 310 stainless steel." British Corrosion Journal 36, no. 1 (2001): 33–35. http://dx.doi.org/10.1179/000705901101501451.

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13

Shamanian, Morteza, Jalal Kangazian, Mohammad Amir Derakhshi, and Jerzy A. Szpunar. "Microstructure and Mechanical Properties of Inconel 617/AISI 310 Electron Beam Welds." Metallurgical and Materials Transactions A 50, no. 7 (2019): 3164–73. http://dx.doi.org/10.1007/s11661-019-05226-9.

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14

Higuera-Hidalgo, V., F. J. Belzunce-Varela, and J. Riba-López. "Oxidación cíclica de un acero refractario AISI 310 a alta temperatura en atmósferas con contenidos de oxígeno variables." Revista de Metalurgia 41, no. 3 (2005): 204–11. http://dx.doi.org/10.3989/revmetalm.2005.v41.i3.206.

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15

Yeshwanth, B. K., S. Senthil Kumar, B. Hafeez Sharief, K. Devendranath Ramkumar, S. Narayanan, and N. Arivazhagan. "Characterisation of Microstructure, Mechanical Properties and Corrosion Behaviour on GTA Welded AISI 310 and Inconel 800." Advanced Materials Research 383-390 (November 2011): 5863–68. http://dx.doi.org/10.4028/www.scientific.net/amr.383-390.5863.

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The current work was carried out to characterize the welding of austenitic stainless steel AISI 310 steel to Inconel 800 alloys by Gas Tungsten Arc (GTA) welding using Inconel 600 filler wire. Tensile test shows that failure has occurred in heat affected zone of AISI 310 and its strength was lower as compared to the base metal. In addition the SEM fractographs showed the micro void with some dimple structure which ensures the fracture is ductile in nature. Furthermore the maximum hardness value was found at the weld interface of AISI310 due to the formation of chromium-carbide. The microstructure revealed a considerable change in the grain size and orientation of the Heat Affected Zone (HAZ) in both sides of the weldment than that of the parent metal. Moreover the corrosion test was also carried out in the welded samples both in air and molten salt of Na2SO4 – 50%NaCl at 700 °C. The weld zone corroded less readily in the air and molten salt than that of the base metal. It can be concluded that these joints could be used effectively at aggressive environments without compromising the strength.
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16

Rajkumar, C., J. Udaya Prakash, Sachin Salunkhe, and S. Jayavelu. "Propiedades mecánicas y desgaste de aceros inoxidables dúplex utilizando el método de Taguchi de análisis de imagen." Revista de Metalurgia 57, no. 2 (2021): e192. http://dx.doi.org/10.3989/revmetalm.192.

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Los componentes sinterizados fabricados con aceros inoxidables dúplex (DSS) son adecuados para aplicaciones muy diversas. Los aceros DSS son una combinación de aceros inoxidables ferríticos y austeníticos, y son ampliamente utilizados en diferentes industrias debido a sus buenas propiedades mecánicas y de resistencia a la corrosión. El uso de DSS está creciendo año tras año en la industria del automóvil y en las industrias offshore. En el presente trabajo se estudian dos aceros, DSS A y DSS B, con estructura bifásica obtenidos por vía pulvimetalúrgica. Se utilizaron dos composiciones hechas con polvos prealeados (AISI 310L y AISI 430L) junto con estabilizadores de ferrita y austenita como cromo, molibdeno y níquel. Los polvos se mezclaron en un molino durante 12 h. La sinterización de las preformas en polvo se realizó a 1350 ºC en vacío parcial y en atmósfera de hidrógeno, respectivamente. Los compactos sinterizados se sometieron a operación de forjado a 1150 ºC y se enfriaron en agua. El análisis XRD del DSS sinterizado y forjado confirmó la ausencia de intermetálicos. El comportamiento mecánico y desgaste de DSS se analizó mediante el análisis relacional de grises del método de Taguchi. El DSS B en estado forjado sometido a condiciones de carga de 20 N bajo atmósfera de hidrógeno mostró un COF de 0,53.
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17

Vicente, André de Albuquerque, Joao Roberto Sartori Moreno, Denise Crocce Romano Espinosa, Tiago Felipe de Abreu Santos, and Jorge Alberto Soares Tenório. "Study of the high temperature oxidation and Kirkendall porosity in dissimilar welding joints between FE-CR-AL alloy and stainless steel AISI 310 after isothermal heat treatment at 1150 °C in air." Journal of Materials Research and Technology 8, no. 2 (2019): 1636–44. http://dx.doi.org/10.1016/j.jmrt.2018.11.009.

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18

Bajt Leban, Mirjam, Maja Vončina, Tadeja Kosec, Robert Tisu, Matevž Barborič, and Jožef Medved. "Comparison of Cycling High Temperature Corrosion at 650°C in the Presence of NaCl of Various Austenitic Stainless Steels." Oxidation of Metals, October 27, 2022. http://dx.doi.org/10.1007/s11085-022-10138-y.

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AbstractThe high temperature corrosion at 650°C in the presence of NaCl at atmospheric pressure of AISI 304L, AISI 309, AISI 310S, AISI 314 and AISI 321 austenitic stainless steel was studied. The specimens were cyclically heated in the furnace and immersed in a 3.5% aqueous NaCl solution after cooling for 15 min. After each cycle, the change in mass of the samples was measured. The corroded samples were analysed by SEM /EDX, and the corrosion products were analysed by XRD. The chloride ions react with the steel surface to form porous and poorly adherent oxides and metal chlorides. After the mass increase during the first exposure cycles, spalling of the oxides occurred. The high temperature austenitic stainless steels (AISI 309, AISI 310S, AISI 314) showed less mass loss than conventional austenitic steels (AISI 304L). Surprisingly, the stainless steel AISI 321 showed a similar low weight loss after the cyclic test as AISI 309, but a detailed analysis of the exposed surfaces after the test showed a similar corrosion attack as for AISI 304. After the cyclic test at high temperature in the presence of NaCl, a higher concentration of Cr and Ni definitely improves the corrosion resistance under the present conditions, but a certain addition of Si is even more obvious. Graphical Abstract
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19

Klassen, Robert J., and Heygaan Rajakumar. "Combined Effect of Irradiation and Temperature on the Mechanical Strength of Inconel 800H and AISI 310 Alloys for In-Core Components of a Gen-IV SCWR." Journal of Nuclear Engineering and Radiation Science 2, no. 2 (2016). http://dx.doi.org/10.1115/1.4031015.

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Inconel 800H and AISI 310 alloy samples were exposed to Fe4+ ions to simulate neutron irradiation damage, and then annealed at 400°C and 500°C to study the kinetics of thermal recovery of the irradiation damage. The increase in hardness with ion irradiation and the decrease in hardness due to thermal recovery were recorded. Our findings suggest that under thermal and neutron irradiation conditions envisaged for the Canadian Gen-IV SCWR concept, both alloys will experience significant irradiation hardening; however, this will be concurrently negated by even more rapid thermal recovery of the irradiation damage.
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20

Lian, Xue-kui, Yong Li, Yi Xiong, et al. "Effect of annealing time on microstructure and mechanical properties of cryorolled AISI 310S stainless steel." Journal of Iron and Steel Research International, December 3, 2022. http://dx.doi.org/10.1007/s42243-022-00870-9.

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21

Garcia, Julianna Magalhaes, Ana Carolina Accioly Monteiro, Andrey de Moraes Barcelos Casanova, Noemi Raquel Checca Huaman, Sergio Neves Monteiro, and Luiz Paulo Brandao. "Microstructural analysis of phase precipitation during high temperature creep in AISI 310 stainless steel." Journal of Materials Research and Technology, February 2023. http://dx.doi.org/10.1016/j.jmrt.2023.02.175.

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22

Passos, João Gabriel da Cruz, Daniele Silva, Robson Bruno Dutra Pereira, and Artur Mariano de Sousa Malafaia. "Influence of test parameters on the cyclic oxidation behavior of AISI 310 and a new Fe-5.9Si-3.9Cr-4.5Ni-0.8C (wt.%) alloy." Matéria (Rio de Janeiro) 27, no. 3 (2022). http://dx.doi.org/10.1590/1517-7076-rmat-2022-0002.

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23

Banerjee, Amborish, Michail Ntovas, Laurie Da Silva, Salaheddin Rahimi, and Bradley Wynne. "Inter-relationship between microstructure evolution and mechanical properties in inertia friction welded 8630 low-alloy steel." Archives of Civil and Mechanical Engineering 21, no. 4 (2021). http://dx.doi.org/10.1007/s43452-021-00300-9.

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AbstractThe evolution of microstructure and mechanical properties in AISI 8630 low-alloy steel subjected to inertia friction welding (IFW) have been investigated. The effects of three critical process parameters, viz. rotational speed, friction and forge forces, during welding of tubular specimens were explored. The mechanical properties of these weld joints, including tensile and Charpy V-notch impact were studied for determining the optimum welding parameters. The weld joints exhibited higher yield strength, lower hardening capacity and ultimate tensile strength compared to base metal (BM). The maximum strength and ductility combination was achieved for the welds produced under a nominal weld speed of ~ 2900–3100 rpm, the highest friction force of ~ 680–720 kN, and the lowest axial forging load of ~ 560–600 kN. The measured hardness distribution depicted higher values for the weld zone (WZ) compared to the thermo-mechanically affected zone (TMAZ), heat-affected zone (HAZ) and BM, irrespective of the applied welding parameters. The substantial increase in the hardness of the WZ is due to the formation of microstructures that were dominated by martensite. The observed microstructural features, i.e. the fractions of martensite, bainite and ferrite, show that the temperature in the WZ and TMAZ was above Ac3, whereas that of the HAZ was below Ac1 during the IFW. The fracture surface of the tensile and impact-tested specimens exhibited the presence of dimples nucleating from the voids, thus indicating a ductile failure. EBSD maps of the WZ revealed the formation of subgrains inside the prior austenite grains, indicating the occurrence of continuous dynamic recrystallisation during the weld. Analysis of crystallographic texture indicated that the austenite microstructure (i.e. FCC) in both the WZ and TMAZ undergoes simple shear deformation during IFW.
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24

Salehi Mobarakeh, Vahid, Behzad Niroumand, Masoud Atapour, and Morteza Shamanian. "Effects of Transient Liquid Phase Bonding Time on Microstructure, Mechanical and Corrosion Properties During Bonding of Inconel 617/AISI 310 Stainless Steel." Metallography, Microstructure, and Analysis, July 26, 2023. http://dx.doi.org/10.1007/s13632-023-00986-8.

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25

Salehi Mobarakeh, Vahid, Behzad Niroumand, and Morteza Shamanian. "Effects of Homogenization Heat Treatment on Microstructure, Mechanical and Corrosion Properties of Transient Liquid Phase (TLP)-Bonded Inconel 617/AISI 310 Stainless Steel." Metallography, Microstructure, and Analysis, January 9, 2024. http://dx.doi.org/10.1007/s13632-023-01032-3.

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26

Mobarakeh, Vahid Salehi, and Behzad Niroumand. "Correction: Effects of Homogenization Heat Treatment on Microstructure, Mechanical and Corrosion Properties of Transient Liquid Phase (TLP)-Bonded Inconel 617/AISI 310 Stainless Steel." Metallography, Microstructure, and Analysis, March 6, 2024. http://dx.doi.org/10.1007/s13632-024-01061-6.

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