Automobile

Evolving consumer demands for form, function, and sustainability are a driving force for innovation in the automotive sector. Industry leaders turn to multiphysics simulation to build models that accurately represent the real world, and ultimately develop better end products, faster.

Browse content related to powering vehicles, developing auto body parts, and optimizing passenger comfort to see how the COMSOL Multiphysics^® software is used in the automotive industry.

Loudspeaker Driver

Ladder Frame for a Light Truck

Porsche Optimizes Operating Strategies and Development of Automotive Cells

Article de Blog

Optimizing Composite Wheel Rim Designs

Failure Prediction in a Layered Shell

Modeling the Lithium-Ion Battery

Article de Blog

Modeling Drag Reduction Systems for Motorsports Using CFD

Prismatic Battery Cooling

Battery Modeling

Article de Blog

How to Define Load Cycles in Battery Models

Modeling and Simulation in Fuel Cell Development

Présentation Utilisateur

Using Surrogate Models to Predict the Transmission Efficiency of an ERS

Nissan Discusses Automotive Audio in the Digital Age

Keynote: Optimum Electromagnetic and Thermal Design of DC-Link Capacitors

Présentation Utilisateur

Determining the Optimal Car Seat Foam Density Using Multiscale Modeling

Keynote: Predicting Corrosion with Machine Learning and Simulation

Wheel Rim Fatigue Analysis

Engine Coolant Properties

Présentation Utilisateur

Veryst Engineering Simulates Battery Cells and Packs for EVs

Article de Blog

Stress Minimization: Heuristic Approach for Improving Fatigue Behavior

Présentation Utilisateur

Novel Method for Predicting Lifetime Degradation of Battery Packs Using Surrogate Models

Hyperelastic Seal

Article de Blog

4 Examples of Fuel Cell Modeling in COMSOL Multiphysics^®

Look Inside the Battery with COMSOL Multiphysics^®

Car Windshield Antenna Effect on a Cable Harness

Bosch Powers the Automotive Sector Toward an Electrified Future

Ultrasonic Car Parking Sensor

Toyota Research Institute of North America Puts Hydrogen Fuel Cell Development in High Gear

Mahindra & Mahindra Advances Automotive Product Development with Simulation Apps

Heat Generation in a Disc Brake

Simulation Apps Help Shape the Design of Car Audio Systems at HARMAN

Analysis of NO_x and Ammonia Conversion Kinetics in a Dual-Bed Plug-Flow Reactor

Modeling Vibration and Noise in a Gearbox

Simulation Apps Streamline the Development of EV Motors at VW Kassel

Electric Motor Noise: Permanent Magnet Synchronous Motor

Electric Machinery

Mahindra & Mahindra Optimizes Passenger Vehicle Design with Simulation Apps

Gear Shifting in a Sequential Gearbox

Car Cabin Acoustics

Article de Blog

Improving Tabbing Design in Cylindrical Batteries

Diesel Particulate Filter

Test Bench Car Interior

Lightweighting with Aluminum: Corrosion Apps Guide Leading Design at NRC

Fuel Cells Poised to Replace India's Diesel Generators

Electrocoating of a Car Door

Article de Blog

Wind Load on a Sports Car’s Door and Side Mirror

Muffler with Perforates

Innovative Motor Designs for Electric Cars Come to Life at Faraday Future

Automotive Muffler

3D Electrochemical and Thermal Analysis of a Prismatic Lithium Battery

Battery Test Cycle App Using Machine Learning

Article de Blog

What Is the Best Way to Analyze Fuel Tank Vibration?

Aging Analysis of a Lumped Battery Model

1D Isothermal Sodium-Ion Battery

Article de Blog

How to Predict the Fatigue Life of Welds

Copper Current Collector Dissolution

Fuel Cell Stack Cooling

Article de Blog

Analyzing the Liquid Cooling of a Li-Ion Battery Pack

Curing in Automotive Rubber

Nonisothermal PEM Fuel Cell

Article de Blog

Evaluating the Electrode Utilization of a Lithium-Ion Battery Pouch Cell

Low-Temperature PEM Fuel Cell with Serpentine Flow Field

Rubber Injection Molding

Article de Blog

How to Create Outstanding Sound Performance in Vehicles

Atmospheric Corrosion of a Busbar

High-Temperature PEM Fuel Cell

Éclairage sur le produit

It all starts with COMSOL Multiphysics^®, the platform product for creating physics-based models and simulation apps. From there, you can add as many specialized modules and interfacing products as needed — they all connect seamlessly via the platform for a consistent modeling workflow regardless of what you are modeling.

Here are some suggested products to add to COMSOL Multiphysics^® for modeling automotive components, audio, and fuel supplies:

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