The opportunities for sustained load fracture control in spacecraft are indicated. Emphasis is given to verification by small-scale laboratory testing.
Spacecraft Sustained Load Fracture Control
1989
90 pages
Report
No indication
English
Manned Spacecraft , Unmanned Spacecraft , Corrosion & Corrosion Inhibition , Materials Degradation & Fouling , Nonferrous Metals & Alloys , Space shuttle orbiters , Spacecraft construction materials , Stress corrosion cracking , Hydrogen embrittlement , Fracture mechanics , High strength alloys , High strength steels , Aluminum alloys , Titanium alloys , Nickel alloys , Fatigue tests , Hydraulic fluids , Spacecraft environments , Fatigue life , Foreign technology
Spacecraft sustained load fracture control
TIBKAT | 1989
|Spacecraft Sustained Load Fracture Control
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|A test plan for sustained load fracture control verification
TIBKAT | 1989
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