Phase Equilibria Investigation of Binary, Ternary, and Higher Order Systems. Part VIII. The Structure of A Ternary Phase T3c2 in the V-Ta-C System
This citation is provided as a resource for researchers, but Contrails cannot provide a full-text download
U.S. government employees, Military/Department of Defense employees, and U.S. government contractors and sub-contractors may be eligible to register with the Defense Technical Information Center (DTIC), where this report and others like it may be available
Report Number: AFML TR 69-117 Part 8
Author(s): Rudy, Erwin
Corporate Author(s): Aerojet-General Corporation
Date of Publication: 1970-04
Pages: 21
Contract: F33615-67-C-1513
DoD Project: None Given
Identifier: AD0708476
Abstract:
The crystal structure of Ta2VC2 was determined from X-ray powder photographs. The phase is stable from room temperature to above 2600C. The homogeneity range of 1650C varies between the limits (Ta1.80 to 2.04, V1.20 to 0.96)C1.74 to 1.80; the phase is thus substantially deficient in carbon.
Author(s): Rudy, Erwin
Corporate Author(s): Aerojet-General Corporation
Date of Publication: 1970-04
Pages: 21
Contract: F33615-67-C-1513
DoD Project: None Given
Identifier: AD0708476
Abstract:
The crystal structure of Ta2VC2 was determined from X-ray powder photographs. The phase is stable from room temperature to above 2600C. The homogeneity range of 1650C varies between the limits (Ta1.80 to 2.04, V1.20 to 0.96)C1.74 to 1.80; the phase is thus substantially deficient in carbon.