Expert-level aircraft structures covering structural design philosophy, wing and fuselage analysis, fatigue and damage tolerance, composite structures, and certification.
Safe life: retire structure before fatigue failure with safety factor on life. Fail safe: multiple load paths, single failure does not cause catastrophic failure. Damage tolerant: assume crack exists, inspect before crack reaches critical size. Limit load: maximum load expected in service, no permanent deformation. Ultimate load: limit load times 1.5 factor of safety, no failure.
Box beam: front and rear spars with upper and lower skins carry bending and torsion. Bending: spars and skin carry span bending moment as axial loads. Torsion: closed section resists torque, shear flow q = T over 2A. Shear: spars carry vertical shear force. Idealized section: lumped flange areas and shear-only webs for analysis.
S-N curve: stress amplitude vs cycles to failure, endurance limit for steel. Stress concentration: Kt amplifies nominal stress at holes and fillets. Miner rule: cumulative damage, sum of ni over Ni equals 1 at failure. Crack growth: Paris law da over dN = C times delta K to the m power. Critical crack size: fracture toughness KIc = sigma sqrt pi a times geometry factor.
Laminate theory: stiffness from fiber orientation and stacking sequence. Failure modes: fiber failure, matrix cracking, delamination, buckling. First ply failure: weakest ply fails first, progressive damage to final failure. Impact damage: BVID barely visible impact damage, strength reduction allowed. Lightning strike: conductive mesh or expanded foil protection required.
| Pitfall | Fix |
|---|---|
| Ignoring stress concentration at fastener holes | Apply Kt in fatigue analysis at every hole |
| Wrong laminate stacking for fatigue | Avoid grouping same-angle plies, interleave |
| Underestimating composite impact sensitivity | Test impact damage tolerance explicitly |
| Missing combined load interaction | Check all load combinations not just individual peaks |