Electric Vehicle Battery Pack - Mechanical Design https://WebToolTip.com Published 5/2025 Created by Edcorner Learning MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch Level: All | Genre: eLearning | Language: English | Duration: 26 Lectures ( 1h 23m ) | Size: 619 MB Mechanical Design Essentials for EV Battery Safety and Performance What you'll learn Understand the fundamentals of EV battery systems and their structural design needs. Learn the complete battery pack development process, from concept to mechanical integration. Identify and analyze the essential components of a battery pack (cells, base plates, end plates, connectors). Gain insight into the interaction between electrical, thermal, and mechanical design requirements. Apply stress-strain theory to evaluate mechanical loads and deformation in battery structures. Calculate base plate and end plate dimensions and support structures using engineering formulas. Select appropriate materials using the Ashby methodology based on performance and cost factors. Perform vibration analysis including free, forced, and modal analysis for MDOF systems. Analyze structural response under dynamic loads and excited frequency conditions. Apply mechanical design theory in a real-world case study involving a 60V battery pack. Requirements Interest in electric vehicle systems and design.
Filename Size ~Get Your Files Here !/1 - Introduction/1 -Intro To Electric Vehicles (EV) Batteries.mp4 66.1 MB ~Get Your Files Here !/1 - Introduction/2 -What Does A Battery Pack Need.mp4 48.9 MB ~Get Your Files Here !/1 - Introduction/3 -Battery Pack Development Process.mp4 15.1 MB ~Get Your Files Here !/1 - Introduction/4 -Importance Of Electrical And Thermal Designs.mp4 42.3 MB ~Get Your Files Here !/1 - Introduction/5 -Importance Of Mechanical And BMS Designs.mp4 52.3 MB ~Get Your Files Here !/1 - Introduction/6 -Stages Of Battery Pack Design.mp4 25.4 MB ~Get Your Files Here !/1 - Introduction/7 -Major Components Of A Battery Pack.mp4 47 MB ~Get Your Files Here !/2 - Mechanical Design/1 -Important Considerations Of Mechanical Design.mp4 33.4 MB ~Get Your Files Here !/2 - Mechanical Design/10 -Vibration Analysis.mp4 9.2 MB ~Get Your Files Here !/2 - Mechanical Design/11 -Vibration Analysis - Procedure.mp4 22.6 MB ~Get Your Files Here !/2 - Mechanical Design/12 -Modal Analysis Of Multiple Degree Of Freedom (Mdof) System.mp4 6.9 MB ~Get Your Files Here !/2 - Mechanical Design/13 -Free Vibration.mp4 7.6 MB ~Get Your Files Here !/2 - Mechanical Design/14 -Forced Vibration.mp4 4 MB ~Get Your Files Here !/2 - Mechanical Design/15 -Case Study - 60v Battery Pack.mp4 26 MB ~Get Your Files Here !/2 - Mechanical Design/16 -Modal Analysis - Procedure.mp4 12.8 MB ~Get Your Files Here !/2 - Mechanical Design/17 -Mode Frequencies And Shapes.mp4 13.4 MB ~Get Your Files Here !/2 - Mechanical Design/18 -Deformation On Excited Frequencies.mp4 5.4 MB ~Get Your Files Here !/2 - Mechanical Design/19 -Summary.mp4 21.1 MB ~Get Your Files Here !/2 - Mechanical Design/2 -Connecting Cell Together.mp4 26.7 MB ~Get Your Files Here !/2 - Mechanical Design/3 -Building The Battery Pack.mp4 23.4 MB ~Get Your Files Here !/2 - Mechanical Design/4 -Forces Acting On The Battery Pack.mp4 12 MB ~Get Your Files Here !/2 - Mechanical Design/5 -Introduction To Stress-Strain Theory.mp4 14.4 MB ~Get Your Files Here !/2 - Mechanical Design/6 -Base Plate Dimension Calculations.mp4 10.5 MB ~Get Your Files Here !/2 - Mechanical Design/7 -Material Selection Criteria Ashby Methodology.mp4 42.2 MB ~Get Your Files Here !/2 - Mechanical Design/8 -Base Plate Support Calculations.mp4 10.8 MB ~Get Your Files Here !/2 - Mechanical Design/9 -End Plate Support Calculations.mp4 19.1 MB ~Get Your Files Here !/Bonus Resources.txt 70 B