In the last decade, ultrasonic techniques have been shown to have considerable promise for the rapid and nondestructive determination of the texture of metal plates [1–3]. In addition, ultrasonics provides texture information on the bulk of material, instead of a local, near surface region as characterized by the X-ray diffraction technique [4
In crystalline materials with anisotropic elastic constants, the propagation of ultrasound is strong...
Ultrasonic techniques have recently been applied to the texture characterization in polycrystalline ...
The quantitative measurement of crystallographic texture through determination of the Orientation Di...
In the last decade, ultrasonic techniques have been shown to have considerable promise for the rapid...
Texture (preferred grain orientation) of polycrystalline metal sheets is an important material prope...
The texture (preferred grain orientation) of rolled metal plates influences a number of important pr...
This work attempts to show the feasibility of nondestructive characterization of non-ferrous alloys....
The texture (preferred grain orientation) of rolled metal plates influences a number of important me...
The present paper is an attempt to use ultrasonic velocity measurements to characterize the texture ...
Many alloys of common metals (such as aluminum and steel) are polycrystalline aggregates having pref...
Texture (preferred orientation) has a significant influence on the formability of metals. This was s...
The use of ultrasonic velocity measurements to determine the texture (preferred grain orientation) o...
There is considerable interest in the evaluation of texture via ultrasonic measurements because of t...
A method for measuring texture of metal plates or sheets using non-destructive ultrasonic investigat...
Crystallographic texture in polycrystalline hexagonal close pack (HCP) and cubic materials, often de...
In crystalline materials with anisotropic elastic constants, the propagation of ultrasound is strong...
Ultrasonic techniques have recently been applied to the texture characterization in polycrystalline ...
The quantitative measurement of crystallographic texture through determination of the Orientation Di...
In the last decade, ultrasonic techniques have been shown to have considerable promise for the rapid...
Texture (preferred grain orientation) of polycrystalline metal sheets is an important material prope...
The texture (preferred grain orientation) of rolled metal plates influences a number of important pr...
This work attempts to show the feasibility of nondestructive characterization of non-ferrous alloys....
The texture (preferred grain orientation) of rolled metal plates influences a number of important me...
The present paper is an attempt to use ultrasonic velocity measurements to characterize the texture ...
Many alloys of common metals (such as aluminum and steel) are polycrystalline aggregates having pref...
Texture (preferred orientation) has a significant influence on the formability of metals. This was s...
The use of ultrasonic velocity measurements to determine the texture (preferred grain orientation) o...
There is considerable interest in the evaluation of texture via ultrasonic measurements because of t...
A method for measuring texture of metal plates or sheets using non-destructive ultrasonic investigat...
Crystallographic texture in polycrystalline hexagonal close pack (HCP) and cubic materials, often de...
In crystalline materials with anisotropic elastic constants, the propagation of ultrasound is strong...
Ultrasonic techniques have recently been applied to the texture characterization in polycrystalline ...
The quantitative measurement of crystallographic texture through determination of the Orientation Di...