Ultrasonic fatigue testing machine and ultrasonic fatigue testing method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01N-029/04
G01M-007/02
출원번호
US-0430291
(2012-12-07)
등록번호
US-9588009
(2017-03-07)
국제출원번호
PCT/JP2012/081787
(2012-12-07)
국제공개번호
WO2014/087538
(2014-06-12)
발명자
/ 주소
Matsuura, Tohru
출원인 / 주소
SHIMADZU CORPORATION
대리인 / 주소
Westerman, Hattori, Daniels & Adrian, LLP
인용정보
피인용 횟수 :
0인용 특허 :
0
초록▼
This ultrasonic fatigue testing machine is one that resonates a test piece by an ultrasonic wave to perform a fatigue test, and configured to include an ultrasonic wave generation part 10, a displacement measurement part 20, and a control part 30 that controls the overall operation of the ultrasonic
This ultrasonic fatigue testing machine is one that resonates a test piece by an ultrasonic wave to perform a fatigue test, and configured to include an ultrasonic wave generation part 10, a displacement measurement part 20, and a control part 30 that controls the overall operation of the ultrasonic fatigue testing machine. The control part 30 is configured to have a computer that includes storage devices capable of store programs and various types of data, such as an RAM and an ROM, and an arithmetic unit such as a CPU, and includes an internal temperature estimation part 31, an allowable range setting part 32, and a determination part 33 as a main functional configuration.
대표청구항▼
1. An ultrasonic fatigue testing machine comprising: an oscillator that outputs an electrical signal adapted to generate a high frequency wave;an ultrasonic transducer that receives the electrical signal from the oscillator to oscillate;a horn of which a fore end is attached with a test piece, the h
1. An ultrasonic fatigue testing machine comprising: an oscillator that outputs an electrical signal adapted to generate a high frequency wave;an ultrasonic transducer that receives the electrical signal from the oscillator to oscillate;a horn of which a fore end is attached with a test piece, the horn amplifying ultrasonic oscillation from the ultrasonic transducer to transmit the amplified ultrasonic oscillation to the test piece; anda displacement meter that is arranged in a position away, by a predetermined distance, from an end surface of a free end of the test piece on a side opposite to an end part fixed to the horn, and measures a distance to the end surface of the test piece, andperforming a fatigue test in an intermittent operation mode that repeats excitation applied to the test piece and a pause, the ultrasonic fatigue testing machine includinga control part that has an internal temperature estimation part that, from a variation in the distance that is measured by the displacement meter and from the displacement meter to the end surface of the test piece, estimates internal temperature of the test piece, the internal temperature being due to internal heat generation of a material, the internal heat generation being caused by the ultrasonic oscillation, and on a basis of the internal temperature of the test piece, the internal temperature being estimated by the internal temperature estimation part, controls a start and a stop of the signal output from the oscillator. 2. The ultrasonic fatigue testing machine according to claim 1, wherein the internal temperature estimation part estimates the internal temperature of the test piece with use of a linear expansion coefficient of the material of the test piece. 3. The ultrasonic fatigue testing machine according to claim 1, wherein the control part has:an allowable range setting part that sets a maximum allowable amount and a minimum allowable amount of the variation corresponding to a rise in the internal temperature of the test piece, the rise being allowable during the test; anda determination part that when the test piece is excited, determines whether or not the variation is larger than the maximum allowable amount, and when the excitation applied to the test piece is paused, determines whether or not the variation is smaller than the minimum allowable amount, andin a case where when the test piece is excited, the determination part determines that the variation is larger than the maximum allowable amount, pauses the signal output from the oscillator, and in a case where when the excitation applied to the test piece is paused, the determination part determines that the variation is smaller than the minimum allowable amount, starts the signal output from the oscillator. 4. An ultrasonic fatigue testing method that performs a fatigue test in an intermittent operation mode that repeats excitation applied to a test piece and a pause in an ultrasonic fatigue testing machine comprising: an oscillator that outputs an electrical signal adapted to generate a high frequency wave; an ultrasonic transducer that receives the electrical signal from the oscillator to oscillate; a horn of which a fore end is attached with a test piece, the horn amplifying ultrasonic oscillation from the ultrasonic transducer to transmit the amplified ultrasonic oscillation to the test piece; and a displacement meter that is arranged in a position away, by a predetermined distance, from an end surface of a free end of the test piece on a side opposite to an end part fixed to the horn, and measures a distance to the end surface of the test piece, the ultrasonic fatigue testing method comprising:an internal temperature estimation step of, from a variation in the distance that is measured by the displacement meter and from the displacement meter to the end surface of the test piece, estimating internal temperature of the test piece, the internal temperature being due to internal heat generation of a material, the internal heat generation being caused by the ultrasonic oscillation;an allowable range step of setting a maximum allowable amount and a minimum allowable amount of the variation corresponding to a rise in the internal temperature of the test piece, the rise being allowable during the test; anda determination step of, when the test piece is excited, determining whether or not the variation is larger than the maximum allowable amount, and when the excitation applied to the test piece is paused, determining whether or not the variation is smaller than the minimum allowable amount, andin a case where when the test piece is excited, it is determined in the determination step that the variation is larger than the maximum allowable amount, pausing the signal output from the oscillator, and in a case where when the excitation applied to the test piece is paused, it is determined in the determination step that the variation is smaller than the minimum allowable amount, starting the signal output from the oscillator.
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