The texture (preferred grain orientation) of rolled metal plates influences a number of important mechanical properties such as their ability to be plastically formed into complex shapes. X-ray diffraction techniques can characterize texture in great detail but are unsuitable for real time process control. Furthermore, x-rays only sample the properties of a near surface layer, whereas the average properties throughout the thickness may be of greater interest. This paper describes an alternate texture characterization approach based on ultrasonic measurements of the anisotropy of plate wave velocities. Relationships have recently been established between the macroscopic elastic constants of a rolled metal plate and the coefficients of an exp...
We present a comparison of two techniques for the ultrasonic evaluation of the crystallographic text...
Texture (preferred orientation) has a significant influence on the formability of metals. This was s...
A method for measuring texture of metal plates or sheets using non-destructive ultrasonic investigat...
The texture (preferred grain orientation) of rolled metal plates influences a number of important me...
The texture (preferred grain orientation) of rolled metal plates influences a number of important pr...
We report on the further development of an automated PC-based system for determination of the crysta...
In the last decade, ultrasonic techniques have been shown to have considerable promise for the rapid...
We present work on the development of an ultrasonic texture measurement system for sheet metals usin...
Texture information derived by non-destructive means has been used with limited success to determine...
The use of ultrasonic velocity measurements to determine the texture (preferred grain orientation) o...
This work attempts to show the feasibility of nondestructive characterization of non-ferrous alloys....
Texture causes direction dependencies of the elastic properties. Hence, the ultrasonic wave velociti...
In the last decade, ultrasonic techniques have been shown to have considerable promise for the rapid...
The preferred grain orientation in polycrystals causes a direction dependence of the ultrasonic wave...
This paper describes the development of an ultrasonic instrument to measure texture (preferred grain...
We present a comparison of two techniques for the ultrasonic evaluation of the crystallographic text...
Texture (preferred orientation) has a significant influence on the formability of metals. This was s...
A method for measuring texture of metal plates or sheets using non-destructive ultrasonic investigat...
The texture (preferred grain orientation) of rolled metal plates influences a number of important me...
The texture (preferred grain orientation) of rolled metal plates influences a number of important pr...
We report on the further development of an automated PC-based system for determination of the crysta...
In the last decade, ultrasonic techniques have been shown to have considerable promise for the rapid...
We present work on the development of an ultrasonic texture measurement system for sheet metals usin...
Texture information derived by non-destructive means has been used with limited success to determine...
The use of ultrasonic velocity measurements to determine the texture (preferred grain orientation) o...
This work attempts to show the feasibility of nondestructive characterization of non-ferrous alloys....
Texture causes direction dependencies of the elastic properties. Hence, the ultrasonic wave velociti...
In the last decade, ultrasonic techniques have been shown to have considerable promise for the rapid...
The preferred grain orientation in polycrystals causes a direction dependence of the ultrasonic wave...
This paper describes the development of an ultrasonic instrument to measure texture (preferred grain...
We present a comparison of two techniques for the ultrasonic evaluation of the crystallographic text...
Texture (preferred orientation) has a significant influence on the formability of metals. This was s...
A method for measuring texture of metal plates or sheets using non-destructive ultrasonic investigat...