Friction stir additive manufacturing–An innovative tool to enhance mechanical and microstructural properties
Friction stir additive manufacturing (FSAM) method is one of the growing techniques of
additive manufacturing that utilizes the concept of solid state friction stir processing to …
additive manufacturing that utilizes the concept of solid state friction stir processing to …
Wire arc additive manufacturing–a revolutionary method in additive manufacturing
Abstract Wire Arc Additive Manufacturing (WAAM) is a revolutionary process under the
category of Direct Energy Deposition (DED) method in the field of Additive Manufacturing …
category of Direct Energy Deposition (DED) method in the field of Additive Manufacturing …
Metal additive manufacturing using friction stir engineering: A review on microstructural evolution, tooling and design strategies
Solid state metal additive manufacturing (SS-MAM) techniques based on friction stir
engineering (FSE) have gained significant attention since the last decade and act as a …
engineering (FSE) have gained significant attention since the last decade and act as a …
Evaluation of a polymer-steel laminated sheet composite structure produced by friction stir additive manufacturing (FSAM) technology
Laminated polymer-steel composites are promising layered materials for practical
applications in the automotive industry considering their superior crush resistance capacity …
applications in the automotive industry considering their superior crush resistance capacity …
A comprehensive review of friction stir additive manufacturing (FSAM) of non-ferrous alloys
Additive manufacturing is a key component of the fourth industrial revolution (IR4. 0) that has
received increased attention over the last three decades. Metal additive manufacturing is …
received increased attention over the last three decades. Metal additive manufacturing is …
[HTML][HTML] Microstructure and properties of solid-state additive manufactured Mg–10Li–3Al–3Zn magnesium alloy
A comprehensive investigation of friction stirring additive manufacturing (FSAM) Mg–10Li–
3Al–3Zn alloy has been conducted to evaluate microstructure evolution and mechanical …
3Al–3Zn alloy has been conducted to evaluate microstructure evolution and mechanical …
Fabrication of a nanostructured high strength steel tube by friction-forging tubular additive manufacturing (FFTAM) technology
A newly developed solid-state 3D-printing route of friction-forging tubular additive
manufacturing (FFTAM) is applied to produce a low-carbon steel tube with superior …
manufacturing (FFTAM) is applied to produce a low-carbon steel tube with superior …
Influence of rotation speed on interfacial bonding mechanism and mechanical performance of aluminum 6061 fabricated by multilayer friction-based additive …
W Tang, X Yang, C Tian - The International Journal of Advanced …, 2023 - Springer
Friction-based additive manufacturing processes that allow the free design of the deposition
path are expected to be used for the rapid production of large-scale high-performance …
path are expected to be used for the rapid production of large-scale high-performance …
Sheet-based friction stir additive manufactured 6061 aluminium alloy: Microstructure, texture evolution and mechanical properties
Y Han, K Lv, C Lin, Y Dai, X Li, E Wang - Materials Science and …, 2024 - Elsevier
A 6061 Al alloy build consisting of 3 additive layers was successfully fabricated using a
sheet-based friction stir additive manufacturing process. The study focused on analyzing the …
sheet-based friction stir additive manufacturing process. The study focused on analyzing the …
Review on latest trends in friction-based additive manufacturing techniques
H Venkit, SK Selvaraj - Proceedings of the Institution of …, 2022 - journals.sagepub.com
Additive manufacturing comprises layer-by-layer construction of 3D parts using computer
controls. This present-day study reveals a list of novel concepts for additive manufacturing …
controls. This present-day study reveals a list of novel concepts for additive manufacturing …