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BATTERY PROTECTION MATERIALS SPONSOR

WHO SHOULD ATTEND

Technical Directors, General Managers, Department Managers, Senior Engineers, Senior Specialists, Technical Specialists, Senior Researchers from...

  • Body Structures
  • Body In White
  • Joining
  • Welding
  • Bonding
  • Adhesive
  • Stamping
  • Forming
  • Corrosion
  • Coatings
  • Simulation
  • Self Piercing Rivets
  • Assembly
  • Implementation
  • New Technologies
  • Fastening
  • Technical
  • Frame
  • Quality
  • Sheet Metal
  • Manufacturing Engineering
  • Project Engineering
  • Product Engineering
  • Lightweight Engineering
  • Operations/R&D Centers

Plus:

  • Material Manufacturers & Suppliers
  • Car Parts Manufacturers & Suppliers
  • Material Manufacturers & Suppliers
  • Welding Suppliers(Ultrasonic Welding, Laser Welding)
  • Bonding Suppliers
  • Fastening Suppliers (SPRs)
  • Adhesive Suppliers
  • Forming Technology Suppliers
  • Coatings/ Corrosion Protection
  • Component Suppliers
  • Additive Manufacturing For Vehicle Components/DMLS
  • Steel Suppliers
  • Aluminium Suppliers
  • Magnesium Suppliers
  • Advanced Composite Suppliers(I.E. Carbon Fiber Composites)
  • Recycling/Scrap Metal

Venkat Aitharaju

Staff Researcher Polymer Composites Group

GM

 

Dr. Venkat Aitharaju is a Staff Researcher in Polymer Composites group at General Motors Global Research and Development. He is currently responsible for development of advanced math modeling tools for simulation of composite materials. He has over 22 years of experience in General Motors in the area of design, manufacturing and CAE of metals and composites. Dr. Aitharaju is currently the Principal Investigator for a multi-year Department of Energy funded project to develop computational simulation tools to accelerate the implementation of composites in automobiles for next level of lightweighting.

AGENDA AT A GLANCE

See OEM Case Studies, Technical Presentations And Panel Discussion To Set Future Road Maps on:

DAY 1: Material Selection Process For Specific Structural Components

  • Compare Holistic Strategies – From Design To Manufacturing - On Best Practice Application Of Mixed Advanced Material Combinations Considering Cost, Sustainability And Compatibility For Mass Production

DAY 2:  Joining Methodology Selection

  • The Latest Innovations Advancements On Multi-Material Joining Technology & Process, With High Process Reliability, For Key Multi-Material Combinations

DAY 3: Improving The Manufacturability Of Lightweight Materials

  • Manufacturability - Considering All Costs & Risks When Adapting Manufacturing Process To Accommodate New Materials, Joining Technologies & Tooling Set Ups – How To Ensure Your Multi-Material Lightweight Design Is Manufacturable
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