Technology Category
- Analytics & Modeling - Digital Twin / Simulation
Applicable Industries
- Automotive
- Equipment & Machinery
Applicable Functions
- Product Research & Development
- Quality Assurance
Use Cases
- Digital Twin
- Virtual Reality
Services
- Testing & Certification
About The Customer
Scania is an international manufacturer of commercial vehicles and engines. The company is based out of Sweden, operates in over 100 countries, and employs approximately 38,600 employees worldwide. Scania faces many challenges in bringing new products to market, including CO2 emission regulations, customer demands for more efficient vehicles, high competition, and pricing pressure. These challenges prompted Scania to reevaluate their current process and implement a simulation driven design process to speed up their development process and produce lighter yet structurally and functionally efficient component designs.
The Challenge
Scania, an international manufacturer of commercial vehicles and engines, was faced with the challenge of speeding up their design and development processes to produce lighter yet structurally and functionally efficient component designs. The automotive and commercial vehicle industries face many challenges when bringing a new product to market, including CO2 emission regulations and customer demands for more efficient vehicles. There is also high competition and pricing pressure in this market, forcing development teams to speed up their development process to achieve a shorter time to market. Scania's traditional process involved physical testing of prototypes, which led to many iteration loops between design and engineering departments, slowing down the development process.
The Solution
Scania implemented a simulation driven design process using solidThinking Inspire within the development chain. This allowed designers to take more responsibility over the design work by implementing upfront simulation and optimization. The process begins with Scania’s designers defining a design space, applying loads and other known boundary conditions, and then running an optimization. The ideal structural shapes generated by Inspire are then transferred into their CAD system to refine the geometry and run a first structural analysis. This new process allows the designer to handle structural tasks within their CAD tool, reducing iteration time between different departments. A recent example of this new process involved the redesign of a steering arm, where the designer used Inspire to create multiple design proposals, which were then refined and analyzed in Catia. The final design was handed over to a CAE engineer for verification and passed all required tests.
Operational Impact
Quantitative Benefit
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