Stress & Structural Analysis

Aerospace and automotive industries incorporate highly intricate systems and components, which require thorough design and analysis. The traditional approach to design and development incorporated a brute force method of build, test, redesign, and repeat. Today a more efficient and effective approach that minimizes cost and cycle time is employed. By incorporating various modern analytical tools, Dynetics can predict structural behavior long before parts are fabricated. Furthermore, these tools allow quick and concurrent investigation of multiple designs. After investigating, Dynetics can make smart choices about which design concepts best meet customer needs. These tools also greatly enhance the value of testing as validation.

Customers require high-technology tools typically available only in larger aerospace firms. Dynetics understands the importance of these tools and continually invests in state-of-the-art analytical tools. Our proficiency in these tools include:

• NASTRAN,
• Patran/FEMAP,
• Abaqus,
• DADS,
• VirtualLab, and
• Adams
• Pro Engineer

Complementing these analytical tools is our full range of analytical techniques:

• Classical Hand Calculation Techniques Where Applicable;
• Complex Model Generation from Drawings or CAD Files;
• Finite Element Analysis such as Static, Modal, Dynamic, Thermal, and Transient Analyses; and
• Model Validation.

Dynetics combines these tools and techniques to develop effective and proven methods to perform detailed static and dynamic structural analyses for a broad range of systems. Dynetics provides an array of structural engineering solutions, from simple aerospace or automotive components, to complete missile delivery systems. From component-level to full system-level qualification and delivery, we ensure structural engineering services that provide comprehensive support for automotive, aerospace, and defense industries.

With a core team of analytic experts, Dynetics stands ready to use our highly advanced tools and techniques to solve real-world analytical problems, while minimizing cost and cycle time.