A review on wire and arc additive manufacturing of titanium alloy
Wire and arc additive manufacturing (WAAM) is considered to be an economic and efficient
technology that is suitable to produce large-scale metallic components. In the past few …
technology that is suitable to produce large-scale metallic components. In the past few …
Gas metal arc welding based additive manufacturing—a review
S Pattanayak, SK Sahoo - CIRP Journal of Manufacturing Science and …, 2021 - Elsevier
Additive manufacturing (AM) route is a promising approach for fabricating complex and
lightweight metallic structures that have applications in various sectors such as automotive …
lightweight metallic structures that have applications in various sectors such as automotive …
[HTML][HTML] A review of the recent developments and challenges in wire arc additive manufacturing (WAAM) process
Wire arc additive manufacturing (WAAM) is an emerging and promising technology for
producing medium-to-large-scale metallic components/structures for different industries, ie …
producing medium-to-large-scale metallic components/structures for different industries, ie …
Dry sliding and slurry abrasion behaviour of wire arc additive manufacturing–Cold metal transfer (WAAM-CMT) cladded inconel 625 on EN8 steel
Inconel 625 was cladded over tillage material EN8 with Wire Arc Additive Manufacturing
(WAAM)-Cold metal Transfer (CMT) using varied input parameters. For examining the …
(WAAM)-Cold metal Transfer (CMT) using varied input parameters. For examining the …
Recent advances in alloy development for metal additive manufacturing in gas turbine/aerospace applications: a review
D Srinivasan, K Ananth - Journal of the Indian Institute of Science, 2022 - Springer
A dozen or so alloys have been occupying the alloy landscape in metal additive
manufacturing (MAM) in terms of addressing all aspects of research, aiding the maturity of …
manufacturing (MAM) in terms of addressing all aspects of research, aiding the maturity of …
Metallurgical characterisation of multi-track Stellite 6 coating on SS316L substrate
A Bhoskar, V Kalyankar… - Canadian Metallurgical …, 2023 - Taylor & Francis
This article attempts to investigate the root cause of the possible failure of the cobalt-based
Stellite 6 coating deposited on SS316L substrate using plasma-transferred arc welding …
Stellite 6 coating deposited on SS316L substrate using plasma-transferred arc welding …
[HTML][HTML] Maximizing Energy Efficiency in Additive Manufacturing: A Review and Framework for Future Research
G May, F Psarommatis - Energies, 2023 - mdpi.com
Additive manufacturing (AM) offers unique capabilities in terms of design freedom and
customization, contributing to sustainable manufacturing. However, energy efficiency …
customization, contributing to sustainable manufacturing. However, energy efficiency …
Additive manufacturing of Stellite 6 alloy by laser-directed energy deposition: Engineering the crystallographic texture
MM Bakhshayesh, F Khodabakhshi… - Materials …, 2024 - Elsevier
Additive manufacturing (AM) of Stellite 6 alloy using laser-directed energy deposition (L-
DED) technology was explored. The impact of argon and nitrogen as the shielding gas …
DED) technology was explored. The impact of argon and nitrogen as the shielding gas …
[HTML][HTML] Statistical-experimental modeling of the effect of process parameters on geometric characteristics of laser cladding of stellite 6 on SS316 using second-order …
SH Hashemi, R Vafaei, RS Razavi - Journal of Materials Research and …, 2024 - Elsevier
Applications of 316 stainless steel can be developed by laser cladding of the Co-based
superalloys, which has multiple enhancement properties and creates a small heat affected …
superalloys, which has multiple enhancement properties and creates a small heat affected …
Temperature dependent sliding wear behaviour of Stellite 6 alloy
The present work investigates the frictional and sliding wear characteristics of cobalt-based
alloy, Stellite 6 at room temperature (RT), 150° C, and 300° C. Wear tests were performed …
alloy, Stellite 6 at room temperature (RT), 150° C, and 300° C. Wear tests were performed …