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Altair > Case Studies > Optimizing Camcopter® S-100 Design at Schiebel with Altair Solutions
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Optimizing Camcopter® S-100 Design at Schiebel with Altair Solutions

Technology Category
  • Analytics & Modeling - Digital Twin / Simulation
Applicable Industries
  • Buildings
  • Construction & Infrastructure
Applicable Functions
  • Product Research & Development
  • Quality Assurance
Use Cases
  • Additive Manufacturing
  • Manufacturing Process Simulation
Services
  • System Integration
  • Testing & Certification
The Challenge
Schiebel Group, a manufacturer of Unmanned Aerial Systems (UAS) based in Vienna, Austria, faced a significant challenge in optimizing the design of its CAMCOPTER® S-100. The S-100, an aerial system active throughout Europe, had to cover distances of up to 160 km, flying for more than 8 hours. This required a reliable, robust vehicle architecture and fuel supply. In addition to functionality requirements, Schiebel wanted the S-100 to be as light as possible to increase the vehicle’s reach. Furthermore, Schiebel had to ensure that its products were compliant with several national regulations, including the European Union Aviation Safety Agency (EASA)’s light UAS operator certificate (LUC). The LUC includes guidelines on safe operation, control systems reliability, and a permit to fly. To meet these demanding development goals and allow Schiebel to take the S-100 of today into the future, the company needed a multidisciplinary design approach.
About The Customer
Schiebel Group is a manufacturer of Unmanned Aerial Systems (UAS) headquartered in Vienna, Austria. The company has built an international reputation for manufacturing reliable and mature products for both defense and humanitarian sectors. To achieve precise designs and a reliable performance of its technologically advanced products, Schiebel uses a variety of high-end manufacturing technologies, such as metal additive manufacturing (AM) and advanced simulation solutions to develop and build its CAMCOPTER® S-100. Since 2020, an in-house metal 3D printer enables Schiebel to manufacture landing gear brackets and titanium parts for the S-100 rotor engine, featuring maximum durability and power output with smallest possible weight and size.
The Solution
To meet the challenge, Schiebel used Altair solutions in combination with 3D printing. The engineers performed a range of simulations, especially to optimize the design of additively manufactured engine parts. Using Altair’s topology optimization structural design tool, Schiebel significantly reduced the weight while maintaining a high stiffness level, achieving a robust design. The system was then evaluated by laminar and turbulent flow simulation as well as conjugate heat transfer simulation using Altair CFD™. Contacts, Nonlinear Finite Elements (NLFE) and complex dynamic systems were then modeled with Altair® MotionView® and Altair® MotionSolve®. Schiebel also took advantage of their access to APA solutions and applied tools such as Amphyon to simulate the AM process, including pre-deforming the parts to achieve the required accuracy. Amphyon was also applied for a thermal stress simulation, allowing the engineers to identify thermal hotspots and simulate the strength of the support structure.
Operational Impact
  • Thanks to the Altair solutions, Schiebel was able to develop and manufacture engine parts with an optimized, bionic structure and an exceptional product design, providing its customers with a reliable, lightweight air vehicle. The combined use of additive manufacturing and simulation driven design not only reduced the component weight by up to 50% while increasing stiffness and strength by also 50%, but also significantly reduced the design process time. Another major benefit of this simulation approach is the reduction in printing costs, as Amphyon’s simulations identify issues that might arise during printing before they occur, thus avoiding additional print jobs due to manufacturing defects.
Quantitative Benefit
  • 50% reduction in component weight
  • 50% increase in stiffness and strength
  • 2 months time reduction in the design process

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