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Ultrasonic characterization of green and sintered ceramics; 1: Time domain

Journal Article · · American Ceramic Society Bulletin; (United States)
OSTI ID:7038199
;  [1];  [2]
  1. Univ. of Florida, Gainesville, FL (United States). Dept. of Materials Science and Engineering
  2. Ultran Labs., Boalsburg, PA (United States)
+ Show Author Affiliations

In situ quality control of ceramic bodies during various stages of manufacture is critical to met quality specifications. Proper monitoring and understanding of the sintering process is generally necessary to obtain a desired ceramic microstructure. Microstructural and mechanical quantification of ceramics by conventional methods is mainly destructive and time consuming. However, on-line process control requires an understanding of microstructural evolution from a porous to a fully densified state. An alternative for porous material characterization is the use of nondestructive techniques, such as ultrasonics. Normal ultrasonic measurements conducted are those of velocity and attenuation. Ultrasonic velocity measurements are discussed to characterize porous, partially sintered and fully dense alumina bodies. Ultrasonic velocity is regarded as more of a macroscopic property and is mainly used for determination of elastic properties, although in many cases it may be used to determine microstructural changes. Monitoring of ultrasonic velocity changes during sintering can serve as an indirect method of determining the densification rate. In the case of green ceramics, it is necessary to use relatively low frequencies (5 MHz) for determining ultrasonic velocities to account for the high attenuation of ultrasound. Although it is generally expected that ultrasonic velocity of a green ceramic is a function of density, whether the velocity is similar for samples with the same green density but different particle packing needs to be answered. A continuous evaluation of velocity measurements at various stages of densification can provide significant information about the state of microstructural evolution.

OSTI ID:
7038199
Journal Information:
American Ceramic Society Bulletin; (United States), Journal Name: American Ceramic Society Bulletin; (United States) Vol. 73:6; ISSN 0002-7812; ISSN ACSBA7
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
360201 -- Ceramics
Cermets
& Refractories-- Preparation & Fabrication
42 ENGINEERING
420500* -- Engineering-- Materials Testing
ACOUSTIC TESTING
ALUMINIUM COMPOUNDS
ALUMINIUM OXIDES
CERAMICS
CHALCOGENIDES
CONTROL
DATA
EXPERIMENTAL DATA
FABRICATION
INFORMATION
MATERIALS TESTING
MECHANICAL PROPERTIES
MICROSTRUCTURE
NONDESTRUCTIVE TESTING
NUMERICAL DATA
OXIDES
OXYGEN COMPOUNDS
PROCESS CONTROL
TESTING
ULTRASONIC TESTING
YOUNG MODULUS