Altair Case Studies Driving Innovation in Collegiate Racing: A Case Study on Michigan Baja Racing and Altair HyperWorks™ Suite

	Driving Innovation in Collegiate Racing: A Case Study on Michigan Baja Racing and Altair HyperWorks™ Suite Altair

Driving Innovation in Collegiate Racing: A Case Study on Michigan Baja Racing and Altair HyperWorks™ Suite

Altair

Technology Category	Robots - Autonomous Guided Vehicles (AGV) Sensors - Autonomous Driving Sensors
Applicable Industries	Automotive
Applicable Functions	Product Research & Development
Use Cases	Smart Parking Vehicle Performance Monitoring
Services	Testing & Certification
Challenge	Michigan Baja Racing (MBR), a collegiate race team participating in the North American Baja SAE intercollegiate competition, faced a significant challenge in designing a competitive off-road race car. The team had to create a vehicle that was light and nimble enough for acceleration, maneuverability, and hill climb events, but also durable enough to withstand the suspension and traction (S&T) and endurance race. The design process required innovative solutions to reduce mass while maintaining strength, ensuring the vehicle could travel as fast as possible for as long as possible. Adding to the complexity of the challenge, the team had a tight six-month timeline from rulebook to manufactured vehicle, leaving little room for prototyping and testing and no room for critical design mistakes. Read More
About Customer	Michigan Baja Racing (MBR) is a collegiate race team that competes in the North American Baja SAE intercollegiate competition. Each year, the team designs, builds, and tests a new single-seater off-road race car from scratch to compete against hundreds of other teams across the United States. The competition consists of a design presentation and other static events, as well as dynamic events including acceleration, maneuverability, hill climb, suspension and traction (S&T), and a four-hour endurance race. The team is tasked with finding innovative solutions to design challenges within a tight six-month timeline. Read More
Solution	To overcome these challenges, MBR leveraged the Altair HyperWorks™ suite. Altair HyperMesh™ was used as the default preprocessor, with support from Altair HyperCrash™ to set up crash scenarios, and Altair HyperView™ was used to view the results. Linear static analysis via Altair OptiStruct™ was run on every component as a baseline for stress and stiffness calculations. Loads were collected from strain gauge testing, predicted g-loading, and comparisons with prior year designs. Nonlinear quasi-static analysis from OptiStruct was used in suspension link design to derive reactionary forces from forced displacement. This allowed MBR to predict the forces at the link yields, plastically deforms, fractures, and the failure location. Full vehicle dynamic crash simulation via Altair Radioss™ was run on the computing cluster at the University of Michigan to evaluate the current crashworthiness of the car in a frontal, side-impact, and roll-over situation. Preliminary drag calculations of the roll cage were calculated with Altair AcuSolve™, driving the design towards a more aerodynamic shape rather than a lightweight one. Read More Log in to view content
Contents

Technology Category

Robots - Autonomous Guided Vehicles (AGV)

Sensors - Autonomous Driving Sensors

Applicable Industries

Automotive

Applicable Functions

Product Research & Development

Use Cases

Smart Parking

Vehicle Performance Monitoring

Services

Testing & Certification

Challenge

Michigan Baja Racing (MBR), a collegiate race team participating in the North American Baja SAE intercollegiate competition, faced a significant challenge in designing a competitive off-road race car. The team had to create a vehicle that was light and nimble enough for acceleration, maneuverability, and hill climb events, but also durable enough to withstand the suspension and traction (S&T) and endurance race. The design process required innovative solutions to reduce mass while maintaining strength, ensuring the vehicle could travel as fast as possible for as long as possible. Adding to the complexity of the challenge, the team had a tight six-month timeline from rulebook to manufactured vehicle, leaving little room for prototyping and testing and no room for critical design mistakes.

About Customer

Michigan Baja Racing (MBR) is a collegiate race team that competes in the North American Baja SAE intercollegiate competition. Each year, the team designs, builds, and tests a new single-seater off-road race car from scratch to compete against hundreds of other teams across the United States. The competition consists of a design presentation and other static events, as well as dynamic events including acceleration, maneuverability, hill climb, suspension and traction (S&T), and a four-hour endurance race. The team is tasked with finding innovative solutions to design challenges within a tight six-month timeline.

Solution

To overcome these challenges, MBR leveraged the Altair HyperWorks™ suite. Altair HyperMesh™ was used as the default preprocessor, with support from Altair HyperCrash™ to set up crash scenarios, and Altair HyperView™ was used to view the results. Linear static analysis via Altair OptiStruct™ was run on every component as a baseline for stress and stiffness calculations. Loads were collected from strain gauge testing, predicted g-loading, and comparisons with prior year designs. Nonlinear quasi-static analysis from OptiStruct was used in suspension link design to derive reactionary forces from forced displacement. This allowed MBR to predict the forces at the link yields, plastically deforms, fractures, and the failure location. Full vehicle dynamic crash simulation via Altair Radioss™ was run on the computing cluster at the University of Michigan to evaluate the current crashworthiness of the car in a frontal, side-impact, and roll-over situation. Preliminary drag calculations of the roll cage were calculated with Altair AcuSolve™, driving the design towards a more aerodynamic shape rather than a lightweight one.

Impact #1	The use of the Altair HyperWorks™ suite provided Michigan Baja Racing with a competitive edge in the North American Baja SAE intercollegiate competition. The suite's reliable analysis and technical support allowed the team to rapidly prototype multiple designs and test them virtually, resulting in a lightweight, durable, and nimble vehicle. The vehicle's performance was within 5% of the predictions made using Altair’s software, demonstrating the accuracy and reliability of the suite. The team's vehicle was one of the lightest in the competition and achieved podium finishes in acceleration and hill climb events. Furthermore, the vehicle had little to no failures at competition and there were no major structural failures in the 2019 season, attesting to the durability of the design.

Impact #1

The use of the Altair HyperWorks™ suite provided Michigan Baja Racing with a competitive edge in the North American Baja SAE intercollegiate competition. The suite's reliable analysis and technical support allowed the team to rapidly prototype multiple designs and test them virtually, resulting in a lightweight, durable, and nimble vehicle. The vehicle's performance was within 5% of the predictions made using Altair’s software, demonstrating the accuracy and reliability of the suite. The team's vehicle was one of the lightest in the competition and achieved podium finishes in acceleration and hill climb events. Furthermore, the vehicle had little to no failures at competition and there were no major structural failures in the 2019 season, attesting to the durability of the design.

Benefit #1	The HyperWorks suite saved MBR significant design time
Benefit #2	The result was a lightweight product designed in less than a week
Benefit #3	The vehicle's behavior was within 5% of what was predicted with Altair’s software

Benefit #1

The HyperWorks suite saved MBR significant design time

Benefit #2

The result was a lightweight product designed in less than a week

Benefit #3

The vehicle's behavior was within 5% of what was predicted with Altair’s software

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Overview

Driving Innovation in Collegiate Racing: A Case Study on Michigan Baja Racing and Altair HyperWorks™ Suite

Operational Impact

Quantitative Benefit