Add to ORKGThe room temperature tensile strength and microstructure of three types of commercially available chemically vapor deposited silicon carbide fibers were measured after 1, 10, and 100 hour heat treatments under argon pressures of 0.1 to 310 MPa at temperatures to 2100 C. Two types of fiber had carbon-rich surface coatings and the other contained no coating. All three fiber types showed strength degradation beyond 1400 C. Time and temperature of exposure had greater influence on strength degradation than argon pressure. Recrystallization and growth of near stoichiometric SiC grains appears to be the dominant mechanism for the strength degradation
Abstract Silicon carbide (SiC) fiber has recently received considerable attention as promising next-...
Uncoated Hi-Nicalon silicon carbide (SiC) fiber tows and those coated with a single surface layer of...
Silicon carbide fiber reinforced silicon carbide (SiC/SiC) ceramic matrix composites (CMCs) display ...
The effects of thermal exposure on the room temperature tensile strength and microstructure of a dev...
The room temperature and elevated temperature tensile strengths of commercially available chemically...
Structural fibers are currently being considered as reinforcements for intermetallic and ceramic mat...
In the as-produced condition the room temperature strength (approx. 6 GPa) of Textron Specialty Mate...
The creep, thermal expansion, and elastic modulus properties for chemically vapor deposited SiC fibe...
The room temperature tensile strength of uncoated and two types of pyrolytic boron nitride coated (P...
Silicon carbide (SiC) fiber is a material that may be used in advanced thermal protection systems (T...
The degradation of silicon carbide fibers during exposure to conditions typical of composite fabrica...
The mechanical properties of NASA Lewis developed SiC/RBSN composites and their thermal and environm...
Silicon carbide (SiC) fibers made by chemical vapor deposition (CVD) are of interest for organic, ce...
The room-temperature tensile properties and constituent microstructures of a unidirectionally reinfo...
Polymer-derived SiC fibers were exposed to nitrogen gas pressures of 7 and 50 atm at temperatures up...
Abstract Silicon carbide (SiC) fiber has recently received considerable attention as promising next-...
Uncoated Hi-Nicalon silicon carbide (SiC) fiber tows and those coated with a single surface layer of...
Silicon carbide fiber reinforced silicon carbide (SiC/SiC) ceramic matrix composites (CMCs) display ...
The effects of thermal exposure on the room temperature tensile strength and microstructure of a dev...
The room temperature and elevated temperature tensile strengths of commercially available chemically...
Structural fibers are currently being considered as reinforcements for intermetallic and ceramic mat...
In the as-produced condition the room temperature strength (approx. 6 GPa) of Textron Specialty Mate...
The creep, thermal expansion, and elastic modulus properties for chemically vapor deposited SiC fibe...
The room temperature tensile strength of uncoated and two types of pyrolytic boron nitride coated (P...
Silicon carbide (SiC) fiber is a material that may be used in advanced thermal protection systems (T...
The degradation of silicon carbide fibers during exposure to conditions typical of composite fabrica...
The mechanical properties of NASA Lewis developed SiC/RBSN composites and their thermal and environm...
Silicon carbide (SiC) fibers made by chemical vapor deposition (CVD) are of interest for organic, ce...
The room-temperature tensile properties and constituent microstructures of a unidirectionally reinfo...
Polymer-derived SiC fibers were exposed to nitrogen gas pressures of 7 and 50 atm at temperatures up...
Abstract Silicon carbide (SiC) fiber has recently received considerable attention as promising next-...
Uncoated Hi-Nicalon silicon carbide (SiC) fiber tows and those coated with a single surface layer of...
Silicon carbide fiber reinforced silicon carbide (SiC/SiC) ceramic matrix composites (CMCs) display ...