Conclusions: The hot gases, having flooded the wing interior, quickly heated the upper and lower wing surfaces allowing the aluminum honeycomb facesheets and the wing tiles to debond. The thin-wall aluminum truss tubes would soon collapse and the aerodynamic and structural integrity of the left wing would be effectively destroyed. The forensic evidence is consistent with the observed External Tank foam impact 81 seconds into launch. This is the most probable cause of the damage to the Reinforced Carbon-Carbon. (RCC) leading edge
The wing leading edge and nose cone of the Space Shuttle are fabricated from a reinforced carbon/car...
The starboard Solar Alpha Rotary Joint (SARJ) from the International Space Station (ISS) began exhib...
This slide presentation reviews the assessment of debris damage to the Space Shuttle, and the use of...
Materials analyses of key forensic evidence helped unlock the mystery of the loss of space shuttle C...
The Space Shuttle Columbia accident investigation was a fusion of many disciplines into a single eff...
Analyzing the remains of Space Shuttle Columbia has proven technically beneficial years after the ve...
Since the end of the space shuttle program, a new generation spacecraft has been developed to transp...
The extensive investigation following the Space Shuttle Orbiter Columbia accident of February 1, 200...
Nondestructive testing (NDT) played a crucial role in determining the Columbia tragedy's cause. Over...
With the new era of space exploration upon us and the Orion spacecraft currently being tested, which...
On February 1, 2003, the Space Shuttle Columbia broke apart during reentry resulting in loss of 7 cr...
With the new era of space exploration upon us and the Orion spacecraft currently being tested, which...
Initial estimates on the temperature and conditions of the breach in the Space Shuttle Columbia's wi...
The Space Shuttle was developed by NASA to be a largely reusable launch system which could provide f...
For 6 years prior to the retirement of the Space Shuttle Program, the shuttles carried an onboard re...
The wing leading edge and nose cone of the Space Shuttle are fabricated from a reinforced carbon/car...
The starboard Solar Alpha Rotary Joint (SARJ) from the International Space Station (ISS) began exhib...
This slide presentation reviews the assessment of debris damage to the Space Shuttle, and the use of...
Materials analyses of key forensic evidence helped unlock the mystery of the loss of space shuttle C...
The Space Shuttle Columbia accident investigation was a fusion of many disciplines into a single eff...
Analyzing the remains of Space Shuttle Columbia has proven technically beneficial years after the ve...
Since the end of the space shuttle program, a new generation spacecraft has been developed to transp...
The extensive investigation following the Space Shuttle Orbiter Columbia accident of February 1, 200...
Nondestructive testing (NDT) played a crucial role in determining the Columbia tragedy's cause. Over...
With the new era of space exploration upon us and the Orion spacecraft currently being tested, which...
On February 1, 2003, the Space Shuttle Columbia broke apart during reentry resulting in loss of 7 cr...
With the new era of space exploration upon us and the Orion spacecraft currently being tested, which...
Initial estimates on the temperature and conditions of the breach in the Space Shuttle Columbia's wi...
The Space Shuttle was developed by NASA to be a largely reusable launch system which could provide f...
For 6 years prior to the retirement of the Space Shuttle Program, the shuttles carried an onboard re...
The wing leading edge and nose cone of the Space Shuttle are fabricated from a reinforced carbon/car...
The starboard Solar Alpha Rotary Joint (SARJ) from the International Space Station (ISS) began exhib...
This slide presentation reviews the assessment of debris damage to the Space Shuttle, and the use of...