Email Colleague

SURFACE TREATMENT TECHNOLOGIES SPONSOR

AUTOMATION SPONSOR

MATERIALS AND COMPOSITES SPONSOR

PARTNER

CO-SPONSORS

HPC FOR CLOUD 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

Dustin Souza

Senior Application Engineer

Hexagon

Dustin graduated with his Bachelors and Masters in aerospace engineering from Purdue University. He currently works as a Senior Application Engineer with Hexagon where he is in charge of supporting key customers in the automotive industry with composite material modelling, helping them obtain more accurate material responses and in turn more accurate part level results. Prior to the pandemic, he spent a bulk of his time onsite at key automotive OEMs helping them implement this more accurate material modelling technology at a production level.

IN ASSOCIATION WITH:

AGENDA AT A GLANCE

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

DAY 1: Cost Competitive Multi-Material Selection And Utilization

  • Evaluate The Design Advantages Of Alternate Lightweight Materials As A Solution To Escalating Costs & Supply Chain Availability Challenges 
  • Design For Manufacturability & Sustainability Whilst Reducing Cost, With The Latest Materials Including Ultra High Strength Steel, The Current Aluminium Series, Reinforced Composites, Magnesium, Carbon Fibre & Sustainable Bio-Materials 

DAY 2:  Lightweight Material Selection To Improve BEV Range & Performance

  • Identify The Most Suitable Material & Joining Technique For Each Part Of The Whole BEV Architecture – Including Body Structure, Battery Enclosure, Safety  & Reinforcement Components   
  • Multi-Material Selection To Increase The Range Of BEV’s Without Increasing Battery Size

DAY 3: Joining Methodology Selection For Disimilar Materials

  • Selection Of Joining Methodologies For Dissimilar Materials, Especially Components With Different Thickness
  • Technology & Methodology Innovation For Mixed Materials Joining – Including Welding, Fastening, Hot Stamping, Adhesives, Hybrid Techniques & Forming
  • Evaluating Solutions For Ultra High Strength Steel Joining & Addressing Corrosion Between Mixed Metal Joints 
Close

We use cookies to provide the best possible browsing experience.

If you continue without changing your settings we'll assume you're happy to receive our cookies.

However, if you would like to you can change this at any time by changing your browser settings, find out more by clicking here.

Okay. I got it.