Accession Number : AD0604337
Title : EFFECT OF OXYGEN ON CREEP-RUPTURE OF NIOBIUM.
Descriptive Note : Interim rept.,
Corporate Author : NAVAL RESEARCH LAB WASHINGTON D C
Personal Author(s) : STOOP,J. ; Shahinian,P.
Report Date : 10 JUL 1964
Pagination or Media Count : 21
Abstract : The creep-rupture properties of electron-beam-melted niobium with additions of oxygen up to 0.35 weight-percent were determined at 1900F (1038C), 2300F (1260C), and 2600F (1427C) at vacuums of 1 x .00001 torr or better. Rupture life generally increased and minimum creep rate decreased as the level of oxygen was raised. There was no deleterious effect on ductility even with the high oxygen additions. Increases in hardness as a function of cold work and oxygen content were obtained. Activation energies for high-temperature creep were determined which showed good agreement with the reported experimental activation energies for self-diffusion. At 1900F, but not at 2300 and 2600F, an anomalous behavior occurred which was manifested by a rapid acceleration followed by a deceleration in the flow process. The irregularity, which is represented as a step in the creep curve, occurs only under certain combinations of temperature, stress, and oxygen content. It appears to be related to substructure formation, and not to recrystallization or grain growth. (Author)
Descriptors : (*NIOBIUM, CREEP), (*CREEP, NIOBIUM), OXYGEN, CREEP, RUPTURE, DUCTILITY, HARDNESS, COLD WORKING, HEAT OF ACTIVATION, HIGH TEMPERATURE, CONTAMINATION, SOLID SOLUTIONS, MICROSTRUCTURE, IMPURITIES, GASES
Distribution Statement : APPROVED FOR PUBLIC RELEASE