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“DuPont does many EV webinars with various 3rd party vendors. WeAutomotive Group is the only vendor where we get global coverage – every single time. We had true Homogeneous coverage from every major region with around 30% from the Americas, 30% from EMEA and 30% from APAC. I counted 37 separate countries registered for the last webinar, which is exceptional”

VP Global Marketing & Communication, DuPont

WeAutomotive Group delivers unique, high-value, content-lead technical agendas and networking forums for the Electric Vehicle Sector.

Never has there been a more exciting time to be part of the automotive industry; the rule book and convention has been thrown out the window to make way for a tidal wave of innovation, diversity, and new opportunity. Electrification, technology innovation, new shapes, new spaces – new boundaries, are now synonymous across the sector globally as automotive engineering encompasses a broader definition than ever before.

Following the success of last year’s return to in-person conferences and exhibitions 2023 is set to be an exciting, packed year for WeAutomotive Group as our Annual events continue to grow, and our portfolio of xEV Conferences & Exhibitions continue to expand and diversify.

Whilst the conferences and exhibitions have seen exponential growth, increasing in sponsors, exhibitors and delegates – Online TechTalks continue to engage global audiences of pre-qualified decision makes from their offices, homes and during their travels. WeAutomotive Group are proud to have established ourselves as the firmly positioned market leaders in this space delivering an unparalleled offering.

Because of the incredible success and overwhelming appetite for our ‘xEV TechTalk Webinar Series’, WeAutomotive Group will continue to host these unique, live, content-driven, topic-specific weeks of individually hosted webinars into the future and it seems that this mediums popularity will only continue to grow as our network continues to expand.

In fact, we have not only seen a growing number of live attendees and on-demand downloads, but also have consistently grown our client base of suppliers and technology providers; delivering over 400 sponsored xEV webinars through 2022.  Rather than plato – the success WeAutomotives’ TechTalks demonstrate that there is definitely a space and appetite in the market for both online and in-person delivered content – working coherently together to support and strengthen the success of each activity for both end-users, and suppliers.

Over the last few years, WeAutomotive Group have now hosted over 1300 BEV content-led technical webinars covering a multitude of BEV industry challenges; led by over 1890 industry expert speakers, viewed in total around the world over 500,700 times by automakers, Tier 1’s, and automotive suppliers! That is some accomplishment! This is thanks to our hundreds-of-thousands of BEV OEM, Tier 1&2, technology and solution provider members, subscribers and patriots.

We were thrilled to play such an important part in keeping the industry connected during the challenging times of COVID – and are proud to have combined all that we learned, within our in-person conferences and events – to provide BEVs leading platforms and engagements, for knowledge, innovation and networking in 2023.

Featured BEV TECHTALKS 2023

Exploring the Three Key Characteristics of Adhesive and Sealant Used to Construct More Robust Battery Packs

Michael Owens, Business Development Manager EV/OEM, HB Fuller
Germaine Mariaselvaraj, Applications Specialist, H.B. Fuller

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•  This webinar will be looking at the three key characteristics, Safety, Performance, and Manufacturability, of adhesives and sealants used to construct battery packs
•  Going through each step of construction, this will be a review the different applications for adhesives and sealants in a battery pack. For each of these applications, it will be expressed how those materials need to be engineered with those 3 key characteristics in mind.
•  Key Safety concerns to be addressed include Cell to Cell Thermal Propagation, Electrical Arcing, and Water and moisture ingress.
•  Key Performance attributes include Heat Transfer, NVH Performance, and Light Weighting.
•   Key Manufacturability considerations for these materials will include cycle time, manufacturing cost, and ease of implementation/application.
•   These features and many more will be evaluated and addressed in this upcoming webinar. See you all there!

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Smart Weighing For Battery Manufacturing

Andy Kletrovets, Strategic Program Manager, METTLER TOLEDO
Mitch Holdren, Business Development Manager, METTLER TOLEDO

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•   Overview of the battery manufacturing process
•   Where automated weighing applications exist
•   How weighing adds value in these applications
•   How proper lifecycle management reduces risk
•   Real application & success stories

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Degradation Prediction In Li-ion Batteries For BEVs

Dr Vineet Dravid, Founder and CEO, oorja.energy

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•   Pack level degradation analysis
•   Predict capacity fade for real-life drive cycles
•   Hybrid approach (Physics + ML) for faster and more accurate prediction
•   Understand degradation at varying operating conditions

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배터리 셀과 셀 사이의 열폭주 전이 현상을 지연시키지 말고, 정지하라

남영규 , 시니어 배터리 엔지니어 , 아스펜 에어로젤

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•  모듈/ 내부의 기계적  열적 에너지를 관리
하는데 있어 압축 패트와 단열장벽의 역할을 대해 알아보자
•  발포제섬유포일에어로겔를 포함한 가능한 솔루션(해결방안) 환경을 검토한다
•  열 이벤트 중에 에너지와 물질이 어떻게 거동하는지 이해한다
•  에어로겔 기반  장벽 PyroThin 실제 테스트에서 열폭주 전이가 억제됨을 확인하라

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Next-Gen LiDAR Concepts & Test Solutions

Michael Kwok, Product Manager, YOKOGAWA T&M
Jake Q Li, Business Development Manager – AUTO LiDAR, Hamamatsu

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A vision of self-driving cars propels the research and development of automotive LiDAR, a vital hardware providing distance and velocity information of a vehicle’s surroundings. Some LiDAR concepts are already heading toward production for automotive ADAS and industrial markets. Two newer concepts promise the greatest potential yet: frequency-modulated continuous wave (FMCW) LiDAR and time-of-flight (TOF) flash LiDAR. However, there are engineering challenges impeding their full adoption. This webinar reviews operation principles and challenges of different LiDAR concepts, a brief discussion on the LiDAR market, and a review of critical optical components such as photodetectors and sources.
•  Fundamental test solution principles for challenges in demanding environments
•  Ensuring flawless and reliable operation of potentially life-critical components and systems over the entire life of the equipment
•  Techniques and results of signals from both LiDAR and facial recognition lasers from different smartphones
•  Experience how LiDAR manages (or mismanages) navigating metropolitan city streets in a truly driverless Level 4 Robotaxi

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Performance Under Pressure: Why PyroThin Thermal Barriers Get Better at End-of-Life

John Williams, VP, Technical Services at Aspen Aerogels, Inc

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Preventing thermal propagation starts with the cell-to-cell (C2C) barrier. Aspen Aerogels’ PyroThin materials are widely recognized as providing the highest thermal performance in the industry, and recent testing is beginning to reveal why. The surprising interactions between compressive loading and thermal behavior are leading to some of the most space- and weight-efficient solutions available today.

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Don’t Just Delay Cell-to-Cell Thermal Propagation, Stop I

Christopher Schneider, Battery Thermal Business Development Leader, Aspen Aerogels

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•  Analysing the future role of compression pads and cell-to-cell barriers in managing mechanical and thermal energy inside a module and/or pack
•  Reviewing the landscape of next-gen solutions; including foams, fibers, foils, and aerogels
•  Understand how energy and material flows during a thermal event
•  Case Study: Thermal propagation stopped cold in real-world testing of PyroThin, an aerogel-based thermal barrier

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Latest OnDemand BEV TECHTALKS 2023

Electrical Insulation: Design Challenges, Materials, Application & Optimization for ePowertrain

David Stankes, Application Development Specialist, 3M

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•  What are the design challenges of electrical insulation in EV battery and eMotor driven by major ePowertrain design trends?
•  Major types of electrical insulation materials and their application areas today
•  What are the major attributes (and disadvantages) of the major types of electrical insulation materials?
•  Next generation electrical insulation technologies to enable new ePowertrain design and manufacturing

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Advances In Thermally Conductive, Electrically Insulated Materials For E-Mobility Applications

Ray L. Szparagowski, Technical Director, Automotive and High Performance Plastics, Global Fluid Power Division, Freudenberg Sealing Technologies

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•  Plastic grade materials that improve thermal management for temperature control and maintain electrical resistance for safety.
•  TCEI (Thermal Conductive Electrically Isolating) grades offer significant improvements in temperature control in E-Mobility applications.
•  FST advanced modeling techniques can evaluate application design and material impacts on temperatures to address critical hot spots that can occur.
•  E-motor applications such as bobbins and slot liners have shown significant temperature reduction using these new TCEI materials.

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Enabling Sustainable High Performance Battery Systems

Antonio Voci, Product Manager E-Mobility, Sika Automotive
David Hofstetter, Senior Project Leader, Sika Technology

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•  Reduced cycle times
•  Low curing Temp Solutions with a reduced CO2 footprint in assembly operations
New Generation TIM’s
•  Setting new state-of-the-art performance
•  Low-Density solutions offering Higher-performance properties
•  Enabling easy disassembly and recyclability

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Latest Developments And Emerging Issues In Battery Thermal Runaway

Brian Engle, Business Development Manager – Amphenol Advanced Sensors

Find out more

•  Analysing the future role of compression pads and cell-to-cell barriers in managing mechanical and thermal energy inside a module and/or pack
•  Reviewing the landscape of next-gen solutions; including foams, fibers, foils, and aerogels
•  Understand how energy and material flows during a thermal event
•  Case Study: Thermal propagation stopped cold in real-world testing of PyroThin, an aerogel-based thermal barrier

Register Now


Past BEV Techtalks 

Modeling Structural Adhesive Joints In Electric Vehicles

Pressure Sensitive Adhesive (PSA) Applications In E-mobility Applications

Automating Your Adhesive Application

Battery Interconnect Technology And Outlook

In Pursuit Of Silence Inside BEVs: The New Products Behind The Next Level Of Acoustic Comfort

Don’t Just Delay Cell-to-Cell Thermal Propagation, Stop It

Liquid Cooling For EV Charging: How To Make Connections That Drive Performance & Reliability

Thermal Management & Bonding of Lithium Battery Cells & Modules

Thermal Conductive Adhesives For Next Generation Cell-to-Pack Configurations

Use Of Adiabatic Calorimetry In Battery Safety

Building Digital Twins Towards A Complete, Faster, Cost Effective & More Optimal Design Of Vehicles

Thermal Management Optimization For The Future Of Battery Designs

Improve Process Efficiency Through Thermal Adhesive Simulation For Tool Path Optimization & Module Assembly

Battery Immersion Cooling: The Lightest And Safest Solution For EVs And HEVs

Engineering The Thermal & Safety Challenges In Next-Generation Battery Packs

Low Carbon Footprint Technologies For Automotive Acoustics And Battery Composites: The Key Enablers For Sustainable Mobility

The Basics Of UN 38.3 And The Requirements For The Transportation Of Lithium Batteries

Cell & Battery Abuse: Development Of Thermal Runaway / Propagation Tests For EV & Stationary Batteries

EVSE Charging And Safety Standards, Going Beyond Level 1 And 2

Future Of Water-Glycol Cooling In Electric Vehicles

Adhesive & Sealing Systems For High-Voltage Batteries In Electric Vehicle

Material Solutions For Module Integration For Cylindrical Cells

Enabling Smarter Battery Pack Design & Assembly Processes With Innovative Adhesive, Sealant & Thermal Technologies

Innovative Thermal Interface Materials: How Adhesives And Sealants Are Accelerating xEV’s

Propagation Control Strategies And The Use Of Flexible Graphite Heat Spreaders

Full System Solutions To Enable Battery Pack Assemblies With Innovative Adhesive & Thermal Management Solutions

Overcoming Technical & Cost Challenges For Next Generation Automotive Batteries

Understanding The Thermal And Safety Challenges In Next-Generation Battery Packs

Why Immersed Battery Cooling

Monitoring Cell Temperature To Optimize Battery Performance And Design

Extending Battery Life of Electric Vehicle Fleets

Silicone Foams And Thermally Conductive Silicones In Battery Pack Assembly

Simulation To Aid Design: Accurately Predicting Thermal Performance And State Of Health Of A Battery Pack

Methodology For Modelling And Simulating Battery Thermal Runaway Events

Thermal Interface Materials – Gap Filler Liquids For Battery Systems

Specifying Thermal Management Solutions For Battery Pack Design

Battery Thermal Comfort: A Multi-Component Approach

EV Battery Pack Design And Material Selection For High Performing Batteries

Improved Methods For Leak Testing Li-Ion Batteries

Three Innovative Material Solutions To Address Technical Challenges In Automotive Electrification

Battery Connection Solutions In e-Mobility: 3 Distinct Technologies For Battery Manufacturing

Solving A Burning Issue: Dealing With Thermal Runaway

Driving Toward The BEV Tipping Point: Solving cost And Scalability Challenges

Upscaling Processes For New Battery Raw Materials From Laboratory Into Industrial Production

Breakthrough Silicon Anodes For Next-Gen EV Batteries

Material Options For Insulating And Protecting Power Distribution And Cooling Components In The Battery

Making The Next Super-Battery Solid-State Batteries

Efficient BMS Testing Throughout The BMS Development Lifecycle

Demystifying BMS Hardware-In-the-Loop (HIL) Testing

Methods For Leak Testing Lithium-ion Batteries

Thermal Propagation Prevention: Materials, Application, & Automation Techniques

How New Laser Technologies Can Help Advance Your Battery Manufacturing

Introducing Battery Intelligence: The Key To Powering Your Battery Program Through COVID-19 And Beyond

How To Advance Aluminum Laser Welding In Automotive Structures

EV Battery & Electrification Testing – From the Grid To The Road

Choosing The Right Scanner And Laser Solution In Battery Manufacturing

Using Clad Metal Innovations For Battery, Charging, And Thermal Management Challenges In Automotive Electrification

Powder Coating Solutions For Electric Vehicle Components

Innovative Solutions & Performance Materials For Lithium Ion Battery Packs

EV Battery Simulation, Accurately Predicting Performance & State Of Health

Upscaling Processes For New Battery Raw Materials From Laboratory Into Industrial Production

COVESTRO: New Ways To Manage Heat – Makrolon® TC

H.B. Fuller’s Innovative Materials For EV Batteries

Hybrid Electronic Control Technology For HV DC Switching

Battery Pack Material Selection & Design For Scaled Mass Production

Pressure Sensitive Adhesive (PSA) Applications In Li-ion Battery Assembly Processes

Laser Solutions For Demanding Battery Manufacturing Applications

Increasing Thermal Transfer In EV Batteries Through The Use Of Openair-Plasma® Technology

Engineering The Thermal & Safety Challenges In Next-Generation Battery Packs

Testing Battery Sensitivities of EV Subsystems Using Battery Simulation And Hardware-In-the-Loop (HIL) Techniques

Technical Manufacturing Audits Of Cell Manufacturers

Translating FTRC Results Into Practical Thermal Analysis Techniques

Why Is The Ultra-Thin Heating Polyimide Film The Best Value Solution For Battery Warm Up?

Robust Early Detection Of Thermal Runaway (REDTR)

Sensor Optimization For Effective Thermal Management And HP/HX Control For xEV And Stationary Storage Batteries

Liquid Cooling For EVs – Cooling Strategies & Avoiding Issues For Reliable Fast Charging Electric Vehicles

Safer, Cooler, Faster, And Farther – Adhesives For Thermal Solutions In EV Battery Packs

Innovative Material Solutions To Address Electric Vehicle Safety & Thermal Management Challenges

Cell & Battery Abuse: Development Of Thermal Runaway/Propagation Tests For EV & Stationary Batteries

Thermal Propagation Control Strategies and the Use of Flexible Graphite Heat Spreaders

Staying Cool – Thermal Management When No Two Battery Packs Are The Same

EV Battery Design for Manufacturability: Process to Production

Temperature Counts: Increasing xEV Safety, Comfort, Range And Performance With NTC Sensors

Next Generation Silicone Solutions for xEV Battery Challenges

Integration Of The Battery Casing With The Cooling Plate, Enabled By A Coolant-Resistant Structural Adhesive

Innovations In Electric Vehicle Cooling Technologies

Sensor Design And Optimization For xEV, EVSE, And ESS Thermal Management

EV Battery Design for Manufacturability: Thermal Management Troubleshooting

How Adhesives Material Science Can Support Sustainability Goals For Automotive

Review Of Battery Cooler Brazing Development: Case Study

WeAutomotive Group delivers unique, high-value, content-lead technical agendas and networking forums for the Electric Vehicle Sector.


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