Mechanism of pin thread and flat features affecting material thermal flow behaviors and mixing in Al-Cu dissimilar friction stir welding
H He, Z Liu, Y Zhu, J Chu, S Li, S Pei, C Zhang… - International Journal of …, 2023 - Elsevier
Three different features of pin models in Al-Cu dissimilar friction stir welding processes are
established to analyse the effects of threads and flats on the two-phase material thermal flow …
established to analyse the effects of threads and flats on the two-phase material thermal flow …
Advances in simulation and experimental study on intermetallic formation and thermomechanical evolution of Al–Cu composite with Zn interlayer: effect of spot pass …
A Abdollahzadeh, B Bagheri… - Proceedings of the …, 2023 - journals.sagepub.com
In this study, the pinless friction stir spot welding of aluminum–copper composite with Zn
interlayer was analyzed under experimental measurement and finite element method. The …
interlayer was analyzed under experimental measurement and finite element method. The …
Tracing plastic deformation path and concurrent grain refinement during additive friction stir deposition
Owing to melting and solidification, serious issues arise in fusion-based metal additive
manufacturing, such as solidification porosity, columnar grains, and large grain sizes …
manufacturing, such as solidification porosity, columnar grains, and large grain sizes …
A review on friction stir welding (FSW) process for dissimilar aluminium to steel metal systems
MM Patel, VJ Badheka - Welding International, 2024 - Taylor & Francis
Friction stir welding is a promising method for joining dissimilar metals. The transportation
industries are increasingly focussing on enhancing the fuel efficiency of vehicles because of …
industries are increasingly focussing on enhancing the fuel efficiency of vehicles because of …
The inhibitory effect of stir zone liquefaction and eutectic-phase formation on the growth of γ/β intermetallics during dissimilar FSW of Al/Mg alloys
Controlling the formation of intermetallic compounds (IMCs) is a critical issue in friction stir
welding (FSW) of Aluminum (Al) to magnesium (Mg) alloys. During FSW, Alsingle bondMg …
welding (FSW) of Aluminum (Al) to magnesium (Mg) alloys. During FSW, Alsingle bondMg …
Microstructural evolution and mechanical properties of the Al–Cu dissimilar joint enhanced by stationary-dynamic shoulder friction stir welding
J You, Y Zhao, C Dong, S Miao, Z Liu, L Liu… - Journal of Materials …, 2022 - Elsevier
Material mixing and intermetallic compounds (IMCs) are the key factors that affect the
mechanical properties of dissimilar metal joints. In this paper, a feasible method of stationary …
mechanical properties of dissimilar metal joints. In this paper, a feasible method of stationary …
Towards friction stir remanufacturing of high-strength aluminum components
X Meng, Y Xie, X Ma, M Liang, X Peng, S Han… - Acta Metallurgica Sinica …, 2023 - Springer
Volumetric defects in high-strength aluminum alloy components were repaired via friction stir
remanufacturing (FSR). Various consumable pins made of AA7075-T6 were designed. Top …
remanufacturing (FSR). Various consumable pins made of AA7075-T6 were designed. Top …
Comparative study between stainless steel and carbon steel during dissimilar friction stir welding with aluminum: kinetics of Al–Fe intermetallic growth
Abstract Steel (St) and aluminum (Al) have a high affinity to each other and form intermetallic
compounds (IMCs) when bonded by friction stir welding (FSW). Understanding the effect of …
compounds (IMCs) when bonded by friction stir welding (FSW). Understanding the effect of …
Joint strength evaluation of friction stir welded Al-Cu dissimilar alloys
Friction stir welding has been successfully employed to fabricate dissimilar thickness
AA1050 and oxygen free copper (Cu-OF). The highest value of the joint tensile strength …
AA1050 and oxygen free copper (Cu-OF). The highest value of the joint tensile strength …
A review on advancement in friction stir welding considering the tool and material parameters
Welding is a fabrication process where similar or dissimilar materials can be fixed together
with or without consideration of exterior heat, pressure, or filler material. For welding …
with or without consideration of exterior heat, pressure, or filler material. For welding …