Devarakonda Dayasagar currently serves as a Senior Principal Engineer and MRB Liaison Engineering Stress Lead at Raytheon Technologies, where he plays a pivotal role in ensuring the structural integrity and compliance of various aircraft components. With a robust background in aircraft product development, Dayasagar specializes...
Devarakonda Dayasagar currently serves as a Senior Principal Engineer and MRB Liaison Engineering Stress Lead at Raytheon Technologies, where he plays a pivotal role in ensuring the structural integrity and compliance of various aircraft components. With a robust background in aircraft product development, Dayasagar specializes in stress analysis, optimization, and conceptual design, leveraging both linear and non-linear Finite Element Analysis (FEA) techniques to evaluate complex aircraft engine components. His expertise extends to the MRB (Material Review Board) engineering of composite nacelle components, where he meticulously analyzes composite sandwich panels and conducts classical hand calculations to validate design specifications.
In his current position, Dayasagar leads stress engineering efforts in support of production non-conformances for a diverse range of aircraft, including the B787, A320NEO, A350, GTF/MRJ, Falcon, and G400, as well as legacy nacelle components. He adeptly navigates the intricacies of SAP and Team Center to review and approve MRB dispositions, ensuring that all manufacturing defects undergo rigorous stress analysis and documentation. His ability to prioritize and manage incoming quality issues is crucial in maintaining production schedules and upholding safety standards within the aerospace industry.
Dayasagar’s proficiency in tools such as Hypermesh and MSC.Patran enhances his capability to conduct fatigue analysis and structural assessments, making him an invaluable asset to Raytheon Technologies. His commitment to excellence in aerospace engineering not only contributes to the reliability of aircraft but also fosters innovation in the design and manufacturing processes, ultimately advancing the field of aerospace technology.
