A review of the findings and recommendations of the Columbia accident investigation board Daniel P. Dennies Features Pages: 11 - 12
Columbia failure analysis inspires future materials engineers in Chicago R. J. ShipleyC. L. Jensen Features Pages: 13 - 16
The future of failure investigation in the aerospace industry Daniel P. Dennies Commentary Pages: 22 - 27
Failure analysis of aluminum structural members on the space shuttle Columbia I. LamG. GanotA. R. Marder Case Histories Pages: 32 - 38
Failure analysis of the space shuttle Columbia RCC leading edge M. BykowskiA. HudginsA. R. Marder Case Histories Pages: 39 - 45
Failure analysis of an aluminum sandwich panel skin from the space shuttle Columbia M. KampnerR. M. DeaconA. R. Marder Case Histories Pages: 46 - 50
Failure analysis of a titanium strut tank support in the space shuttle Columbia C. ButlerR. M. DeaconA. R. Marder Case Histories Pages: 51 - 54
Failure analysis of a thermal tile on the space shuttle Columbia A. M. CapeceR. KinmonthA. R. Marder Case Histories Pages: 55 - 60
Failure analysis of the Columbia space shuttle glass windshields K. CohenN. E. MartianA. R. Marder Case Histories Pages: 61 - 66
Columbia space shuttle: Failure analysis of a fuel valve A. NotisA. R. Marder Case Histories Pages: 67 - 73
An overview of the space shuttle Columbia accident from recovery through reconstruction S. J. McDanelsB. M. MayeauxR. S. Piascik Peer Reviewed Articles Pages: 82 - 91
Columbia accident investigation board (CAIB) pathfinder analysis of item 33767 P. DeVries Peer Reviewed Articles Pages: 92 - 100
Columbia tragedy: High-temperature materials chemistry and thermodynamic considerations of the breached wing leading edge E. OpilaN. JacobsonG. Jerman Peer Reviewed Articles Pages: 102 - 110