The Space Shuttle is protected by a Thermal Protection System (TPS) made of tens of thousands of individually shaped heat protection tile. With every flight, tiles are damaged on take-off and return to earth. After each mission, the heat tiles must be fixed or replaced depending on the level of damage. As part of the return to flight mission, the TPS requirements are more stringent, leading to a significant increase in heat tile replacements. The replacement operation requires scanning tile cavities, and in some cases the actual tiles. The 3D scan data is used to reverse engineer each tile into a precise CAD model, which in turn, is exported to a CAM system for the manufacture of the heat protection tile. Scanning is performed while other activities are going on in the shuttle processing facility. Many technicians work simultaneously on the space shuttle structure, which results in structural movements and vibrations. This paper will cover a portable, ultra-fast data acquisition approach used to scan surfaces in this unstable environment

Galatzer, Yishai

Wilson, Brad

NASA Technical Reports Server

Revitalizing the Space Shuttle's Thermal Protection System with Reverse Engineering and 3D Vision Technology

3rl12008 
Filename 
Revitalizing the Space Shuttle1s Thermal 
Protection System with Reverse Engineering 
and 3D Vision Technology 
Brad Wilson United Space Alliance LCC 
Vishai Galatzer, Cognitens, Inc. 
Date 7-21-2008 
USA 
UnltrHl SpIIC#I AlliIInt» 
https://ntrs.nasa.gov/search.jsp?R=20130012138 2019-08-31T00:50:00+00:00Z
Revitalizing the Space Shuttle1s Thermal 
Protection System with Reverse Engineering and 
3D Vision Technology 
• Abstract: 
• The Space Shuttle is protected by a Thermal Protection System (TPS) made of tens of 
thousands of individually shaped heat protection tile. With every flight, tiles are 
damaged on take-off and return to earth. After each mission, the heat tiles must be fixed 
or replaced depending on the level of damage. As part of the return to flight mission, the 
TPS requirements are more stringent, leading to a significant increase in heat tile 
replacements. 
• The replacement operation requires scanning tile cavities, and in some cases the actual 
tiles. The 3D scan data is used to reverse engineer each tile into a precise CAD model, 
which in turn, is exported to a CAM system for the manufacture of the heat protection 
tile. Scanning is performed while other activities are going on in the shuttle processing 
facility. Many technicians work simultaneously on the space shuttle structure, which 
results in structural movements and vibrations. 
• This paper will cover a portable, ultra-fast data acquisition approach used to scan 
surfaces in this unstable environment. The presentation will discuss the entire process 
used to produce a quality tile in a fraction of the time and cost of older techniques. After 
proven successful on the STS-114 mission, the 3D Vision scanning procedure is now 
used for all three shuttle processing facilities. 
31712008 
Filename Page 1 USA 
United *-All"",,", 
Revitalizing the Space Shuttle1s Thermal 
Protection System with Reverse Engineering and 
3D Vision Technology 
3n12008 
Filename Page 2 USA 
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Revitalizing the Space Shuttle's Thennal Protection System with Reverse NrJJ"nlovAo l L 
Engineering and 3D Vision Technology Sb. GRANT NUMBER 
Sc. PROGRAM ELEMENT NUMBER 
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Brad Wilson TPS Engineering United Space Alliance 
Yishai Galatzer Cognitens, Inc. Se. TASK NUMBER 
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Brad Wilson TPS Engineering United Space Alliance 8600 Astronaut Blvd 
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Cape Canaveral Fl. 32920 
Yishai Galatzer Cognitens, Inc. 51170 Grand River Ave. Wixom, MI, 48393 
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13. SUPPLEMENTARY NOTES 
14. ABSTRACT 
The Space Shuttle is protected by a Thennal Protection System (TPS) made of tens of thousands of individually shaped heat 
protection tile. With every flight, tiles are damaged on take-off and return to earth. After each mission, the heat tiles must be fIxed 
or replaced depending on the level of damage. As part of the return to flight mission, the TPS requirements are more stringent, 
leading to a signifIcant increase in heat tile replacements. 
The replacement operation requires scanning tile cavities, and in some cases the actual tiles. The 3D scan data is used to reverse 
engineer each tile into a precise CAD model, which in tum, is exported to a CAM system for the manufacture of the heat protection 
tile. Scanning is performed while other activities are going on in the shuttle processing facility. Many technicians work 
simultaneously on the space shuttle structure, which results in structural movements and vibrations. 
This paper will cover a portable, ultra-fast data acquisition approach used to scan surfaces in this unstable environment. 
1S. SUBJECT TERMS 
Computer-aided manufacturing (CAM) Computer-Aided Design (CAD) Thermal Protection System (TPS) 
16. SECURITY CLASSIFICATION OF: 17. LIMITATION OF ABSTRACT 
a. REPORT b.ABSTRACT c. THIS PAGE 
UU 
U U U 
18. NUMBER 
OF 
PAGES 
20 
19b. NAME OF RESPONSIBLE PERSON 
Bradley R Wilson 
19b. TELEPHONE NUMBER (Include area code) 
(321) 861-0523 
Standard Form 298 (Rev. 8-98) 
Prescribed by ANSI Std. Z39-18 


Revitalizing the Space Shuttle's Thermal Protection System with Reverse Engineering and 3D Vision Technology

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