Add to ORKGThe stress-strain response of uranium-niobium alloys as a function of temperature, strain-rate and stress-state was investigated. The yield and flow stresses of the U-Nb alloys were found to exhibit a pronounced strain rate sensitivity, while the hardening rates were found to be insensitive to strain rate and temperature. The overall stress-strain response of the U-6Nb exhibits a sinusoidal hardening response, which is consistent with multiple deformation modes and is thought to be related to shape-memory behavior
α-uranium, the stable phase of uranium up to 670◦C, has a base-centred orthorombic crystal structure...
As a continuation of studies reported in BMI-1400, fabrication characteristics, physical and mechani...
International audienceAn experimental program was performed to determine the rheology and influence ...
A rigorous experimentation and validation program is being undertaken to create constitutive models ...
A thermodynamic approach is used to develop a framework for modeling uranium-niobium alloys under th...
The mechanical behavior of uranium and its alloys is reviewed with special emphasis on plastic flow ...
A rigorous experimentation and validation program is being undertaken to create constitutive models ...
An investigation as to the characteristics of flow and fracture for alpha-uranium were carried out o...
The objectives of the present investigation are to characterize the high strain rate (≅ 104s−1) plas...
Tensile tests were run on different Niobium alloys from 20 to 1 200 °C in high vacuum, they lead to ...
Le comportement d'uranium appauvri, uranium-molybdène, niobium, titane et rhenium a été étudié à gra...
Tests were made in reversed loading and in repeated tensile loading on thirteen specimens of rolled,...
The yield behavior of niobium single crystals has been studied under conditions of different tempera...
SIGLEAvailable from British Library Document Supply Centre- DSC:7623.47(OUEL--1309/80) / BLDSC - Bri...
Plastic flow and microstructure evolution are investigated at elevated temperatures in two unalloyed...
α-uranium, the stable phase of uranium up to 670◦C, has a base-centred orthorombic crystal structure...
As a continuation of studies reported in BMI-1400, fabrication characteristics, physical and mechani...
International audienceAn experimental program was performed to determine the rheology and influence ...
A rigorous experimentation and validation program is being undertaken to create constitutive models ...
A thermodynamic approach is used to develop a framework for modeling uranium-niobium alloys under th...
The mechanical behavior of uranium and its alloys is reviewed with special emphasis on plastic flow ...
A rigorous experimentation and validation program is being undertaken to create constitutive models ...
An investigation as to the characteristics of flow and fracture for alpha-uranium were carried out o...
The objectives of the present investigation are to characterize the high strain rate (≅ 104s−1) plas...
Tensile tests were run on different Niobium alloys from 20 to 1 200 °C in high vacuum, they lead to ...
Le comportement d'uranium appauvri, uranium-molybdène, niobium, titane et rhenium a été étudié à gra...
Tests were made in reversed loading and in repeated tensile loading on thirteen specimens of rolled,...
The yield behavior of niobium single crystals has been studied under conditions of different tempera...
SIGLEAvailable from British Library Document Supply Centre- DSC:7623.47(OUEL--1309/80) / BLDSC - Bri...
Plastic flow and microstructure evolution are investigated at elevated temperatures in two unalloyed...
α-uranium, the stable phase of uranium up to 670◦C, has a base-centred orthorombic crystal structure...
As a continuation of studies reported in BMI-1400, fabrication characteristics, physical and mechani...
International audienceAn experimental program was performed to determine the rheology and influence ...