Add to ORKGOur concentration during this research was on the following subprograms. (1) Ultra high vacuum creep tests on 218, ST300 and WHfC tungsten and MoHfC molybdenum alloy wires, temperature range from 1100 K to 1500 K, creep time of 1 to 500 hours. (2) High temperature vacuum tensile tests on 218, ST300 and WHfC tungsten and MoHfC molybdenum alloy wires. (3) Air and vacuum tensile creep tests on polycrystalline and single crystal alumina fibers, such as alumina-mullite Nextel fiber, yttrium aluminum ganet (YAG) and Saphikon, temperature range from 1150 K to 1470 K, creep time of 2 to 200 hours. (4) Microstructural evaluation of crept fibers, TEM study on the crept metal wires, SEM study on the fracture surface of ceramic fibers. (5) Metal Matrix...
Silicon Carbide based Ceramic Matrix Composites (CMCs) are attractive materials for use in high-temp...
Tungsten fiber reinforced niobium metal matrix composites were evaluated for use in space nuclear po...
An anisotropic creep model is formulated for metallic composites with strong fibers and low to moder...
Aerospace applications require materials capable of maintaining superior mechanical properties while...
The present effort will investigate the off-axis creep behavior of the Nexte720/Alumina-Mullite CMC,...
A variety of high performance polycrystalline ceramic fibers are currently being considered as reinf...
date Dr. Geoff E. Fair (Member) date Maj. Eric Swenson (Member) date AFIT/GA/ENY/08-S01 The creep be...
This research investigated the creep behavior of an N720/Al203 composite. The composite consists of ...
The tensile creep behavior of an oxide-oxide ceramic matrix composite (CMC) was investigated at 1000...
The effects of steam on the creep performance for several ceramic materials were investigated at tem...
Ceramic Oxide Fiber and a new fiber, NextelTM 650 Ceramic Oxide Fiber, has been developed specifical...
In the as-produced condition the room temperature strength (approx. 6 GPa) of Textron Specialty Mate...
The objective of this Cooperative Research and Development Agreement between Lockheed Martin Energy ...
The cyclic creep and recovery behaviors of the N720/Al2O3 composite were investigated in this resear...
The creep rupture life of an Al/Al2O3 composite and its creep behavior were studied. The metal matri...
Silicon Carbide based Ceramic Matrix Composites (CMCs) are attractive materials for use in high-temp...
Tungsten fiber reinforced niobium metal matrix composites were evaluated for use in space nuclear po...
An anisotropic creep model is formulated for metallic composites with strong fibers and low to moder...
Aerospace applications require materials capable of maintaining superior mechanical properties while...
The present effort will investigate the off-axis creep behavior of the Nexte720/Alumina-Mullite CMC,...
A variety of high performance polycrystalline ceramic fibers are currently being considered as reinf...
date Dr. Geoff E. Fair (Member) date Maj. Eric Swenson (Member) date AFIT/GA/ENY/08-S01 The creep be...
This research investigated the creep behavior of an N720/Al203 composite. The composite consists of ...
The tensile creep behavior of an oxide-oxide ceramic matrix composite (CMC) was investigated at 1000...
The effects of steam on the creep performance for several ceramic materials were investigated at tem...
Ceramic Oxide Fiber and a new fiber, NextelTM 650 Ceramic Oxide Fiber, has been developed specifical...
In the as-produced condition the room temperature strength (approx. 6 GPa) of Textron Specialty Mate...
The objective of this Cooperative Research and Development Agreement between Lockheed Martin Energy ...
The cyclic creep and recovery behaviors of the N720/Al2O3 composite were investigated in this resear...
The creep rupture life of an Al/Al2O3 composite and its creep behavior were studied. The metal matri...
Silicon Carbide based Ceramic Matrix Composites (CMCs) are attractive materials for use in high-temp...
Tungsten fiber reinforced niobium metal matrix composites were evaluated for use in space nuclear po...
An anisotropic creep model is formulated for metallic composites with strong fibers and low to moder...