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Meeting MS&T23: Materials Science & Technology
Symposium Advanced Joining Technologies for Automotive Lightweight Structures
Sponsorship TMS: Aluminum Committee
ACerS Manufacturing Division
Organizer(s) Yan Huang, Brunel University London
Yingchun Chen, Dura Automotive Systems
Scope The symposium aims to bring about an intensive exchange of fundamental understanding and technological advances of automotive lightweight structure joining solutions, among worldwide academics, research scientists and expert automotive engineers, with focus on aluminium alloys and their joints with steel and polymers.

Papers that describe physical experiments, joint design, characterization and assessment, and process simulation and optimization on the following key joining technologies are welcome:
•Solid state joining methods - friction stir welding (FSW), self-piercing riveting (SPR), and magnetic pulse welding (MPW), etc.
•Fusion welding and resistance welding- laser beam welding (LBW), electron beam welding (EBW), Cold metal transfer (CMT) welding, resistance spot welding, etc.
•Hybrid joining methods and adhesive bonding.

Also welcome are all aspects of research, development and applications relating to the joining of automotive lightweight structures.

Abstracts Due 05/08/2023

A Novel Self-reacting Tool Design to Weld Thick Aluminium Plates Using Friction Stir Welding - Weld Characteristics and Performance Analysis
Achieving Success Joining Advanced Structural Materials with Automated Adhesive and Sealer Dispensing Systems
Application of an Innovative Interlayer Technology on Advanced Materials for the Automotive Industry
Design and Development of 3D Printed Fastening Mechanisms for Similar Material Single-lap Joints
Design of Shape Memory Wire Actuators by Impact Welding
Development of an Analytical Model for Electrode Wear during Resistance Spot Welding
Dissimilar Material Joining of Superwood to Aluminum by Self-Pierce Riveting and Rivbonding
Effect of Spreading Behavior of Adhesives in Resistance Spot Welding Bonding (RSWB)
Lightweight Welds of Armor Steels Using Friction Stir Welding
N-1: Prediction of Tensile Strength of Electric Vehicle Parts Applying Dissimilar Material Friction Stir Welding Using Machine Learning
Quality Improvement Method of Resistance Spot Welding Process Aluminum Alloy
Resistance Sintering Technique for Advance Metal Matrix Composite Creation
The Role of Material Selection and Thermal Cycling on Tool Life in Refill Friction Stir Spot Welding

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