Add to ORKGThe work I shall be describing this afternoon is a recently initiated joint study between Stanford University and the Science Center to determine the viability of ultrasonics as a failure prediction technique for structural ceramic materials
Two ceramic materials, a hot-pressed silicon nitride and a siliconized silicon carbide, were manufac...
A high frequency A-scan system (150-450 MHz longitudinal, 150-300 MHz shear) has been used to charac...
A primary objective of statistical fracture approach is to predict the probability of failure of a c...
The work I shall be describing this afternoon is a recently initiated joint study between Stanford U...
The failure prediction requirements and the pertinent accept/reject criteria for structural ceramics...
The failure prediction requirements and the pertinent accept/reject criteria for structural ceramics...
Ceramic materials can replace metals in many applications requiring high strength and resistance to ...
Modern ceramic materials offer many attractive physical and mechanical properties for a wide and rap...
A preliminary evaluation of several nondestructive testing methods for flaw detection in high-temper...
A preliminary evaluation of several nondestructive testing methods for flaw detection in high-temper...
The factors that affect reliability of nondestructive detection of flaws in structural ceramics by m...
There is an increasing need for the characterization of small flaws in ceramic components. This proj...
The ultrasonic testing of ceramic materials is a two headed problem. First, the defect must be detec...
Flaw Characterization by Ultrasonic Techniques is the subject of this morning\u27s session. The ult...
This paper presents the results of a program sponsored by NADC for NASC to develop an ultrasonic sur...
Two ceramic materials, a hot-pressed silicon nitride and a siliconized silicon carbide, were manufac...
A high frequency A-scan system (150-450 MHz longitudinal, 150-300 MHz shear) has been used to charac...
A primary objective of statistical fracture approach is to predict the probability of failure of a c...
The work I shall be describing this afternoon is a recently initiated joint study between Stanford U...
The failure prediction requirements and the pertinent accept/reject criteria for structural ceramics...
The failure prediction requirements and the pertinent accept/reject criteria for structural ceramics...
Ceramic materials can replace metals in many applications requiring high strength and resistance to ...
Modern ceramic materials offer many attractive physical and mechanical properties for a wide and rap...
A preliminary evaluation of several nondestructive testing methods for flaw detection in high-temper...
A preliminary evaluation of several nondestructive testing methods for flaw detection in high-temper...
The factors that affect reliability of nondestructive detection of flaws in structural ceramics by m...
There is an increasing need for the characterization of small flaws in ceramic components. This proj...
The ultrasonic testing of ceramic materials is a two headed problem. First, the defect must be detec...
Flaw Characterization by Ultrasonic Techniques is the subject of this morning\u27s session. The ult...
This paper presents the results of a program sponsored by NADC for NASC to develop an ultrasonic sur...
Two ceramic materials, a hot-pressed silicon nitride and a siliconized silicon carbide, were manufac...
A high frequency A-scan system (150-450 MHz longitudinal, 150-300 MHz shear) has been used to charac...
A primary objective of statistical fracture approach is to predict the probability of failure of a c...