SERVICES
Integrity Analysis
Structural Integrity Analysis
We have the capability to perform Structural Integrity Analysis (SIA) to provide safety structures for critical applications in aerospace and defense applications, including at elevated temperatures. We incorporate non-linear creep-fatigue damage behavior for reliable materials for damage assessment from the predictive analysis. We utilize the Finite Element Method (FEM) as part of conducting SIA, but for more critical applications we utilize more advanced Failure Assessment Diagrams (FAD) approach based on fracture mechanics philosophy.
Life Prediction Technologies
We have the ability to expand and exploit the maximum possible service life for aeroengines. We realize the significance of the overriding requirement of component integrity in aeroengine certifications. We utilize variety of life assessment techniques to analyze the increased inlet temperatures at high turbine rotational speeds to study hot end components as part of conducting creep and fatigue damage analysis. We study the fluctuating stresses (due to centrifugal, thermal, and pressure changes caused by variations in military engines – especially due to the frequent changes in altitude and air speed. Our proven approach helps detection of smaller cracks much faster resulting extension of component’s service life.
Total Management and Sustainability
Structure Integrity Analysis of Structures and Components Structure Load Analytics – Impact, cyclic and sustained Life Cycle Management of structures Digital Twins of critical components Remaining Life Assessments Life Extension technologies Damage Prognostics Damage Tolerance and Safe Life In-service inspection technologies Structure Health Monitoring (SHM) Loading profile Analysis Application Codes for Sustainability Replacement and repair and refurbishment technologies Parts indigenization and retrofitting Risk Assessment of aging and Safety-Critical Structures Failure analysis.
