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Title: Furnace control apparatus using polarizing interferometer

Abstract

A system for nondestructively measuring an object and controlling industrial processes in response to the measurement is disclosed in which an impulse laser generates a plurality of sound waves over timed increments in an object. A polarizing interferometer is used to measure surface movement of the object caused by the sound waves and sensed by phase shifts in the signal beam. A photon multiplier senses the phase shift and develops an electrical signal. A signal conditioning arrangement modifies the electrical signals to generate an average signal correlated to the sound waves which in turn is correlated to a physical or metallurgical property of the object, such as temperature, which property may then be used to control the process. External, random vibrations of the workpiece are utilized to develop discernible signals which can be sensed in the interferometer by only one photon multiplier. In addition the interferometer includes an arrangement for optimizing its sensitivity so that movement attributed to various waves can be detected in opaque objects. The interferometer also includes a mechanism for sensing objects with rough surfaces which produce speckle light patterns. Finally the interferometer per se, with the addition of a second photon multiplier is capable of accuratelymore » recording beam length distance differences with only one reading. 38 figures.« less

Inventors:
; ; ;
Issue Date:
Research Org.:
Surface Combustion Inc
OSTI Identifier:
35076
Patent Number(s):
5,402,233
Application Number:
PAN: 8-132,851
Assignee:
Surface Combustion, Inc., Maumee, OH (United States)
DOE Contract Number:  
FC07-89ID12830
Resource Type:
Patent
Resource Relation:
Other Information: PBD: 28 Mar 1995
Country of Publication:
United States
Language:
English
Subject:
44 INSTRUMENTATION, INCLUDING NUCLEAR AND PARTICLE DETECTORS; 32 ENERGY CONSERVATION, CONSUMPTION, AND UTILIZATION; INDUSTRIAL PLANTS; PROCESS CONTROL; FURNACES; CONTROL SYSTEMS; INTERFEROMETERS; DESIGN; NONDESTRUCTIVE TESTING; LASER RADIATION; MECHANICAL VIBRATIONS

Citation Formats

Schultz, T J, Kotidis, P A, Woodroffe, J A, and Rostler, P S. Furnace control apparatus using polarizing interferometer. United States: N. p., 1995. Web.
Schultz, T J, Kotidis, P A, Woodroffe, J A, & Rostler, P S. Furnace control apparatus using polarizing interferometer. United States.
Schultz, T J, Kotidis, P A, Woodroffe, J A, and Rostler, P S. Tue . "Furnace control apparatus using polarizing interferometer". United States.
@article{osti_35076,
title = {Furnace control apparatus using polarizing interferometer},
author = {Schultz, T J and Kotidis, P A and Woodroffe, J A and Rostler, P S},
abstractNote = {A system for nondestructively measuring an object and controlling industrial processes in response to the measurement is disclosed in which an impulse laser generates a plurality of sound waves over timed increments in an object. A polarizing interferometer is used to measure surface movement of the object caused by the sound waves and sensed by phase shifts in the signal beam. A photon multiplier senses the phase shift and develops an electrical signal. A signal conditioning arrangement modifies the electrical signals to generate an average signal correlated to the sound waves which in turn is correlated to a physical or metallurgical property of the object, such as temperature, which property may then be used to control the process. External, random vibrations of the workpiece are utilized to develop discernible signals which can be sensed in the interferometer by only one photon multiplier. In addition the interferometer includes an arrangement for optimizing its sensitivity so that movement attributed to various waves can be detected in opaque objects. The interferometer also includes a mechanism for sensing objects with rough surfaces which produce speckle light patterns. Finally the interferometer per se, with the addition of a second photon multiplier is capable of accurately recording beam length distance differences with only one reading. 38 figures.},
doi = {},
journal = {},
number = ,
volume = ,
place = {United States},
year = {1995},
month = {3}
}