Claims
- 1. A high temperature corrosion resistant composite structure comprising:
- a refractory metallic layer having two sides, one of said sides having a roughened surface, said roughened surface comprising from approximately 500,000 to 15,000,000 free standing metallic grains per square centimeter; and
- a refractory structural composite shell comprising a matrix and filamentaceous inclusions tightly bonded to said roughened surface.
- 2. A rocket combustion chamber comprising:
- a refractory metallic layer having two sides, one of said sides having a roughened surface with a surface roughness of from approximately 1 to 20 microns, the roughness of said roughened surface comprising free standing particles having an average diameter of from approximately 1 to 20 microns; and
- a refractory structural composite shell comprising a matrix and filamentaceous inclusions tightly bonded to said roughened surface, said refractory metallic layer being adapted to protect said refractory structural composite shell from combustion products.
- 3. A rocket combustion chamber of claim 2 wherein said matrix comprises a ceramic material.
- 4. A rocket combustion chamber of claim 2 wherein said chamber has a generally circular cross section and exhibits a hoop strength, and from approximately 50 to 90 percent of said hoop strength being provided by said refractory structural composite shell.
- 5. A high temperature corrosion resistant composite structure comprising:
- a layer of ductile refractory metal having two sides and a tensile strength of greater than approximately 5,000 pounds per square inch at a temperature of approximately 1,500 degrees centigrade, a face of said layer on one of said sides having a roughness of from approximately 1 to 20 microns; and
- a structural carbon-composite shell comprising a matrix and filamentaceous inclusions tightly bonded to said face of said layer, said layer of ductile refractory metal being adapted to protect said structural carbon-composite shell.
- 6. A high temperature corrosion resistant composite structure comprising:
- a layer of ductile refractory metal having radially inner and radially outer sides and a tensile strength of greater than approximately 5,000 pounds per square inch at a temperature of approximately 1,500 degrees centigrade, a face of said layer on said radially outer side having a roughness of from approximately 1 to 20 microns, said roughness being substantially formed by a dendritic growth of said refractory metal; and
- a structural carbon-composite shell tightly bonded to said face on said radially outer side of said layer.
- 7. A high temperature corrosion resistant composite structure comprising:
- a generally circular refractory metallic layer having radially inner and radially outer sides, said radially outer side having a roughened surface having a roughness of from approximately 1 to 20 microns; and
- a refractory structural composite shell comprising a matrix and filamentaceous inclusions tightly bonded to said roughened surface, said refractory metallic layer being adapted to protect said refractory structural composite shell.
- 8. A high temperature corrosion resistant composite structure of claim 7 wherein said matrix comprises a ceramic.
- 9. A high temperature corrosion resistant composite structure of claim 7 wherein said matrix comprises carbon.
Government Interests
The U.S. Government has a paid-up License in this invention and rights and limited circumstances to require the patent owner to license others on reasonable terms as provided for by the terms of contract number in NAS9-18840 awarded by the National Aeronautics and Space Administration.
US Referenced Citations (10)