Add to ORKGSome of the physical properties of the main elements of interest in high temperature technology are reviewed. Some general trends emerge when these properties are viewed as a function of melting point, but there are a few notable exceptions. Titanium, zirconium, niobium and tantalum all have disappointingly low moduli; chromium is excellent in many ways, but has a limited ductility at lower temperatures; molybdenum oxidises catastrophically above about 700° C, and niobium suffers from severe oxygen embrittlement. Beryllium and carbon (in the graphitic form) both stand out as exceptional materials, both have very low densities, beryllium a very high modulus but an unfortunately low ductility, while graphite has a relatively low str...
X-ray line broadening techniques were used to investigate the deformation characteristics of various...
Higher operating temperatures can increase the effectiveness of different technical processes, e.g. ...
Measurements of the slow plastic flow behavior of cobalt, iron and nickel B2 crystal structure alumi...
The demand on materials with good strength for high temperature applications is ever increasing. Til...
This paper has been focused the mechanical properties of high temperature materials, hence they are ...
This exhaustive work in three volumes with featuring cross-reference system provides a thorough over...
Studies are in progress to establish the fundamental processes by which treatment and composition co...
The use of high-temperature materials in current and future applications, including silicone materia...
The elevated temperature tensile properties of hot-pressed QMV beryllium have been studied from 250-...
This handbook covers the complete spectrum of technology dealing with heat-resistant materials, incl...
Various aspects of creep and deformation Creep resistance is an extremely important characteristic t...
A study of the effect of induction-vacuum-melting procedure on the high-temperature properties of a ...
A study was done on the electrical resistance of materials that are potentially useful as resistance...
The nature of the environment in outer space and its significance for materials of construction of ...
After preliminary thermodynamic calculations for verifying their refractoriness, six (Ni,Co)-based a...
X-ray line broadening techniques were used to investigate the deformation characteristics of various...
Higher operating temperatures can increase the effectiveness of different technical processes, e.g. ...
Measurements of the slow plastic flow behavior of cobalt, iron and nickel B2 crystal structure alumi...
The demand on materials with good strength for high temperature applications is ever increasing. Til...
This paper has been focused the mechanical properties of high temperature materials, hence they are ...
This exhaustive work in three volumes with featuring cross-reference system provides a thorough over...
Studies are in progress to establish the fundamental processes by which treatment and composition co...
The use of high-temperature materials in current and future applications, including silicone materia...
The elevated temperature tensile properties of hot-pressed QMV beryllium have been studied from 250-...
This handbook covers the complete spectrum of technology dealing with heat-resistant materials, incl...
Various aspects of creep and deformation Creep resistance is an extremely important characteristic t...
A study of the effect of induction-vacuum-melting procedure on the high-temperature properties of a ...
A study was done on the electrical resistance of materials that are potentially useful as resistance...
The nature of the environment in outer space and its significance for materials of construction of ...
After preliminary thermodynamic calculations for verifying their refractoriness, six (Ni,Co)-based a...
X-ray line broadening techniques were used to investigate the deformation characteristics of various...
Higher operating temperatures can increase the effectiveness of different technical processes, e.g. ...
Measurements of the slow plastic flow behavior of cobalt, iron and nickel B2 crystal structure alumi...