Aircraft Strutural Accidents

Aircraft Structural Accidents
What We Can Learn From Them

Who should participate

There are no prerequisites for this course, and it will involve very few mathematical calculations. Design engineers, scientists, college professors, structural engineers, maintenance personnel, airline logistics and liaison engineers, and materials science personnel will benefit. This course is also suited to engineers, technicians, and managers in airlines, aircraft modification centers, aircraft and component manufactures, and defense installations, as well as airworthiness agencies like the FAA.

Key Topics

preferably taken FATIGUE CONCEPTS 601 or Boeing/Airbus Beginners Structural Repair training
some experience in OEM-approved aircraft structural repairs
a Bachelor’s Degree in Engineering or equivalent experience

Course Outline

Introduction

The role of aircraft structural accident reports in fostering aviation safety
Fundamental failure mode contribution to a typical aerospace structural deficiency
Elementary concepts of crack propagation calculations, fatigue analysis, residual strength estimations, and stress corrosion thresholds

Striation data usefulness and pitfalls–relevant to aluminum alloys, steel, and titanium
Types of corrosion in aerospace structures–Case studies

Commercial Jet Turboprop, and Small Plane Structure Related Accidents