LI-900

Simulation of the outside of the Shuttle as it heats up to over 1,500°C[1] during re-entry

LI-900 is a type of reusable surface insulation tile developed and manufactured by Lockheed Missiles and Space Company in Sunnyvale, California. It was designed for use on the Space Shuttle orbiter as part of its thermal protection system to minimize thermal conductivity while providing maximum thermal shock resistance.[2]

Statistics

Different tile usage on the Space Shuttle

LI-900 has a bulk density of 144.2 kg/m³ (9 lbs/ft³). It was for this reason that it was called the LI-900. It is made from 99.9% pure silica glass fibres, and 94% by volume of air. An LI-900 tile can be heated to 1204 °C (about 1478 K or 2200 Fahrenheit) and then immediately plunged into cold water and suffer no damage.[2]

Black and white tiles were used on the Space Shuttle to control the temperature of the vehicle while in orbit.

There are typically 20,000 HRSI LI-900 tiles on a Space Shuttle, and 725 LRSI LI-900 tiles.

Problems

A used tile from Atlantis

Strength

As a result of optimizing its thermal properties, overall strength was reduced. The tile was therefore not suitable to be used in high-stress areas such as around the landing gear doors and windows. To solve this, a higher strength version of the LI-900 material was produced, with a bulk density of 352.4 kg/m³ (22 lbs/ft³), which was called the LI-2200.[2] This tile provided the strength and insulating properties, but with a considerable weight penalty.

Damage reduction

A research and development program was started to establish a means for substantially improving the damage resistance and micrometeorite orbital debris (MMOD) characteristics of the LI-900 shuttle baseline tile. This would result in a greatly reduced amount of damage and therefore less repair between flights.

A short term solution was found by developing a new surface treatment for the tile, which took advantage of the Ames technology previously developed, and designated TUFI. A prototype of this material was produced successfully, its damage resistance was determined, and its microstructural stability was demonstrated.

A longer term solution used AETB-8 as the insulation substrate. This substrate is significantly stronger than the LI-900 substrate, and is more compatible with the TUFI surface treatment.

See also

References

  1. "Space Shuttle Orbiter Systems," (HTML). NASA. 2000. Retrieved 2009-12-06.
  2. 1 2 3 "Orbiter Thermal Protection System, Thermal Materials" (PDF). NASA. 2006. p. 3. Retrieved 2008-06-05.

Sources

This article is issued from Wikipedia - version of the Sunday, November 22, 2015. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.