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Citations (23)
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Amit Bandyopadhyay, Aruntapan Dash, Lile Squires, Ethan Roberts, Jose D. Avila, Haley R. Doude, Ryan Stokes, Victor K. Champagne$suffix/text()$suffix/text() & Susmita Bose. (2024) Wire-arc directed energy deposition of monolithic and bimetallic structures of maraging 250 steel. Virtual and Physical Prototyping 19:1.
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Arunprakash R & Manikandan M. A novel approach to suppression of reverted austenite in aerospace grade thick maraging steel weldments using the turbo-TIG welding process. Journal of Adhesion Science and Technology 0:0, pages 1-18.
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Articles from other publishers (21)
Chidanand Magadum, Rohit Kumar Gupta, P. Senthil, M. Manohar & S. Biju. (2022) Study on Effect of Gouge Depth on the Microstructure and Tensile Properties of 18%Ni Maraging Steel Welds Made Through Hot Wire GTA Welding. Journal of The Institution of Engineers (India): Series D 104:2, pages 785-794.
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Bibin Jose, Manikandan Manoharan, Arivazhagan Natarajan, Nageswara Rao Muktinutalapati, G. Madhusudhan Reddy & Suresh D. Meshram. (2022) Current research and developments in welding of 18% nickel maraging steel. Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications 237:6, pages 1295-1318.
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Hyeonseok Kwon, Praveen Sathiyamoorthi, Manogna Karthik Gangaraju, Alireza Zargaran, Jaemin Wang, Yoon-Uk Heo, Stefanus Harjo, Wu Gong, Byeong-Joo Lee & Hyoung Seop Kim. (2023) High-density nanoprecipitates and phase reversion via maraging enable ultrastrong yet strain-hardenable medium-entropy alloy. Acta Materialia 248, pages 118810.
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Benjamin Rohit & Nageswara Rao Muktinutalapati. (2023) Influence of Reverted Austenite on Tensile Deformation and Fracture in 18Ni 250 Maraging Steel. Journal of Testing and Evaluation 51:2, pages 766-783.
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Bibin Jose, M. Manikandan, N. Arivazhagan, Nageswara Rao Muktinutalapati & G. Madhusudhan Reddy. (2023) Development of a Novel Welding Technique With Reduced Heat-Input by Employing Double-Pulsed Gas Metal Arc Welding for Aerospace Grade 18% Ni Maraging Steel. Journal of Manufacturing Science and Engineering 145:2.
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Chidanand Magadum, P. Senthil, M. Manohar, S. Biju, Uday Parmar & Rohit Kumar Gupta. (2022) Development of Hot Wire GTAW Process for 18% Ni Maraging Steel Used for Rocket Motor Casing. Transactions of the Indian Institute of Metals 76:1, pages 213-223.
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R Arunprakash, M Manikandan & Suresh D. Meshram. (2022) Development of Multipass Gas Tungsten Arc Welding Technique for Aerospace Grade 18% Ni-Co-Mo Based Maraging Steel to Improve the Metallurgical and Mechanical Properties by Reducing Austenite Pools. Journal of Manufacturing Science and Engineering 144:11.
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Siyuan Wei, Punit Kumar, Kwang Boon Lau, Delvin Wuu, Laura-Lynn Liew, Fengxia Wei, Siew Lang Teo, Augustine Cheong, Chee Koon Ng, Baicheng Zhang, Cheng Cheh Tan, Pei Wang & Upadrasta Ramamurty. (2022) Effect of heat treatment on the microstructure and mechanical properties of 2.4 GPa grade maraging steel fabricated by laser powder bed fusion. Additive Manufacturing 59, pages 103190.
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Sebastián Zappa, John J. Hoyos, Leonardo N. Tufaro & Hernán G. Svoboda. (2022) Effect of Heating Rate on Martensite to Austenite Transformation Kinetics in Supermartensitic Stainless Steel Weld Deposit. Journal of Materials Engineering and Performance 31:10, pages 8668-8676.
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Lulu Guo, Lina Zhang, Joel Andersson & Olanrewaju Ojo. (2022) Additive manufacturing of 18% nickel maraging steels: Defect, structure and mechanical properties: A review. Journal of Materials Science & Technology 120, pages 227-252.
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Daniel F. S. Ferreira, G. Miranda, Filipe J. Oliveira & José M. Oliveira. (2022) Conventionally and SLM-manufactured 18Ni300 steel: mechanical and tribological behaviour in dry sliding against PP40 composite. The International Journal of Advanced Manufacturing Technology 122:3-4, pages 1245-1258.
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Bibin Jose, Manikandan Manoharan & Arivazhagan Natarajan. (2021) Technology development for in-situ measurement of residual stress in arc welded joints of MDN 250 by portable Cosα X-ray diffraction method. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering 236:4, pages 1308-1318.
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Yao Xu, Brajendra Mishra & Sneha P. Narra. (2022) Experimental investigation of in-situ microstructural transformations in wire arc additively manufactured maraging 250-grade steel. Materials Characterization 190, pages 112065.
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Shucong Xu, Lin Yuan, Wenchen Xu, Debin Shan & Bin Guo. (2022) Effects of Forging and Heat Treatment on Martensite Lath, Recrystallization and Mechanical Properties Evolution of 18Ni(250) Maraging Steel. Materials 15:13, pages 4600.
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Bibin Jose, Manikandan Manoharan & Arivazhagan Natarajan. (2021) Technology Development for Thick Section of Aerospace-Grade MDN 250 Weldment with Higher Weld Strength and Toughness by Suppressing Reverted Austenite Phase. Journal of Materials Engineering and Performance 31:3, pages 1828-1845.
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Ana Larissa Melo Feitosa, Julián Escobar, Giovani Gonçalves Ribamar, Julian Arnaldo Avila & Angelo Fernando Padilha. (2021) Direct Observation of Austenite Reversion During Aging of 18Ni (350 Grade) Maraging Steel Through In-Situ Synchrotron X-Ray Diffraction. Metallurgical and Materials Transactions A 53:2, pages 420-431.
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Benjamin Rohit & Nageswara Rao Muktinutalapati. (2021) Fatigue Behavior of 18% Ni Maraging Steels: A Review. Journal of Materials Engineering and Performance 30:4, pages 2341-2354.
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S. Dehgahi, M. Sanjari, M.H. Ghoncheh, B. Shalchi Amirkhiz & M. Mohammadi. (2021) Concurrent improvement of strength and ductility in heat-treated C300 maraging steels produced by laser powder bed fusion technique. Additive Manufacturing 39, pages 101847.
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Leandro Gomes de Carvalho, Ronald Lesley Plaut, Nelson Batista de Lima & Angelo Fernando Padilha. (2019) Kinetics of Martensite Reversion to Austenite during Overaging in a Maraging 350 Steel. ISIJ International 59:6, pages 1119-1127.
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W.F. Guo, C. Guo & Qiang Zhu. (2018) Heat Treatment Behavior of the 18Ni300 Maraging Steel Additively Manufactured by Selective Laser Melting. Materials Science Forum 941, pages 2160-2166.
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Ana Larissa Melo Feitosa, Leandro Gomes de Carvalho, Nelson Batista de Lima & Angelo Fernando Padilha. (2018) DETERMINAÇÃO DA QUANTIDADE DE AUSTENITA REVERTIDA EM AÇO MARAGING 350 ENVELHECIDO. DETERMINAÇÃO DA QUANTIDADE DE AUSTENITA REVERTIDA EM AÇO MARAGING 350 ENVELHECIDO.