Add to ORKGA new methodology has been proposed for estimation of elastic moduli of iron powder compacts solely based on longitudinal ultrasonic velocity. New correlations have been semianalytically derived between the elastic moduli and the longitudinal ultrasonic velocity. The moduli estimated on the basis of the suggested methodology agreed reasonably well with data reported for iron powder compacts in the literature. The proposed method can be a potent tool for quick and accurate, nondestructive estimation of elastic properties for porous materials through ultrasonic measurements
The laser-ultrasonic method is realized for quantifying the influence of porosity on the local Young...
Currently, the acoustic and nanoindentation techniques are two of the most used techniques for mater...
Macroscopic elastic properties of porous compacts prepared by applying uniaxial pressure in powder s...
Characterization of sintered powder metal parts and ceramics using ultrasonics has been widely repor...
A novel procedure for the estimation of the elastic properties of the sintered and compacted metal p...
The variation of elastic moduli, M, of sintered powder compacts with porosity, p, has been analysed ...
Ultrasonic characterization of sintered iron powder compacts made with different fabrication paramet...
This paper reports a new method of estimating ultrasonic properties of sintered materials from the u...
A new correlation between Poisson's ratio (nu) and ultrasonic longitudinal wave velocity (V (L)) has...
A novel methodology has been suggested for estimation of elastic properties of nuclear fuel material...
A method for estimation of the elastic moduli of porous ceramics solely based on ultrasonic longitud...
This report is a summary of the methods used to determine ultrasonic velocities through the many mat...
Ultrasonic velocity measurement is an attractive technique for porosity characterisation of sintered...
A novel method for predicting the porosity dependence of ultrasonic and elastic properties of isotro...
In this project, a non-destructive testing technique known as ultrasonic testing is used to study th...
The laser-ultrasonic method is realized for quantifying the influence of porosity on the local Young...
Currently, the acoustic and nanoindentation techniques are two of the most used techniques for mater...
Macroscopic elastic properties of porous compacts prepared by applying uniaxial pressure in powder s...
Characterization of sintered powder metal parts and ceramics using ultrasonics has been widely repor...
A novel procedure for the estimation of the elastic properties of the sintered and compacted metal p...
The variation of elastic moduli, M, of sintered powder compacts with porosity, p, has been analysed ...
Ultrasonic characterization of sintered iron powder compacts made with different fabrication paramet...
This paper reports a new method of estimating ultrasonic properties of sintered materials from the u...
A new correlation between Poisson's ratio (nu) and ultrasonic longitudinal wave velocity (V (L)) has...
A novel methodology has been suggested for estimation of elastic properties of nuclear fuel material...
A method for estimation of the elastic moduli of porous ceramics solely based on ultrasonic longitud...
This report is a summary of the methods used to determine ultrasonic velocities through the many mat...
Ultrasonic velocity measurement is an attractive technique for porosity characterisation of sintered...
A novel method for predicting the porosity dependence of ultrasonic and elastic properties of isotro...
In this project, a non-destructive testing technique known as ultrasonic testing is used to study th...
The laser-ultrasonic method is realized for quantifying the influence of porosity on the local Young...
Currently, the acoustic and nanoindentation techniques are two of the most used techniques for mater...
Macroscopic elastic properties of porous compacts prepared by applying uniaxial pressure in powder s...