一种基于超声的材料热膨胀系数的测量方法.

一种基于超声的材料热膨胀系数的测量方法

Номер патента: CN109324079B
Опубликовано: 06-11-2020
Автор(ы): 刘磊, 李伟斌, 李睿智, 桂业伟, 石友安, 胡斌, 魏东
Принадлежит: China Special Equipment Inspection and Research Institute
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Wire voltage measuring method and device based on electric field sensor

Номер патента: CN114487561B. Автор: 李鹏,王志明,田兵,尹旭,吕前程,陈仁泽,李立浧,聂少雄,徐振恒,谭则杰. Владелец: Southern Power Grid Digital Grid Research Institute Co Ltd. Дата публикации: 2022-07-12.

End wall thickness measuring method and system based on steel pipe spiral advancing

Номер патента: CN110906874A. Автор: 康宜华,余沁. Владелец: HUST Wuxi Research Institute. Дата публикации: 2020-03-24.

Acceleration measurement method and device based on atomic interference in optical waveguide

Номер патента: CN107525946A. Автор: 杨俊�,魏春华,王恩龙,罗玉昆,胡青青,颜树华,贾爱爱,李期学,朱凌晓. Владелец: NATIONAL UNIVERSITY OF DEFENSE TECHNOLOGY. Дата публикации: 2017-12-29.

A kind of anti-harmonic wave frequency measuring method and device based on sine filtering

Номер патента: CN109030938A. Автор: 张哲�,王莉,王志伟,王智勇,樊占峰,唐宇,姚武,邓茂军,姚东晓,龚赟,茹东武,赵晓铎,许圣龙,胡叶宾,程天保. Владелец: Yantai Power Supply Co of State Grid Shandong Electric Power Co Ltd. Дата публикации: 2018-12-18.

Electric field direction measuring method and system based on linear electro-optic effect coupling wave theory

Номер патента: CN112067907B. Автор: 李建权,鱼江南,蔡懿卿,王鸣乾. Владелец: Hefei University of Technology. Дата публикации: 2022-06-03.

Optical time delay measuring method and device based on optical vector analysis

Номер патента: CN113340571A. Автор: 李平,陈旭峰,王祥传,刘熙,潘时龙,王立晗,汤晓虎,李树鹏. Владелец: Suzhou 614 Information Technology Co Ltd. Дата публикации: 2021-09-03.

Building facade measuring method and system based on three-dimensional laser scanning

Номер патента: CN110686651A. Автор: 曹平,张方,郭春生,谢海燕,王令文,宫玮清. Владелец: SGIDI Engineering Consulting Group Co Ltd. Дата публикации: 2020-01-14.

Micro-electronic substrate warpage measuring method and system based on speckle structured light

Номер патента: CN112857244B. Автор: 胡剑雄,胡洲,黄煜华,冯陈泽芳,朱福龙,王淼操,沈奔,曾宝山,李金洺. Владелец: HUAZHONG UNIVERSITY OF SCIENCE AND TECHNOLOGY. Дата публикации: 2021-12-03.

Intermediate frequency signal amplitude measuring method and device based on pulse width counting

Номер патента: CN114675241A. Автор: 章新明. Владелец: Shenzhen Xinshengsi Technology Co ltd. Дата публикации: 2022-06-28.

A kind of light velocity measurement method and apparatus based on Lissajou's figure

Номер патента: CN110531103A. Автор: 李雪梅,王玉华,杨金生. Владелец: Zhejiang Ocean University ZJOU. Дата публикации: 2019-12-03.

Non-contact temperature measurement method and device based on material conductivity-temperature characteristic

Номер патента: CN114485978B. Автор: 陈华,魏进超,张小刚,周浩宇,叶恒棣,黄德松,王炼红,周冰航. Владелец: Hunan University. Дата публикации: 2022-10-25.

A kind of caesium optical pumped magnetometer frequency measurement method and system based on whole phase FFT

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Optical device spectral response measurement method and device based on suppressed carrier frequency

Номер патента: CN109084961A. Автор: 薛敏,陈维,潘时龙,徐忠扬,衡雨清. Владелец: Nanjing University of Aeronautics and Astronautics. Дата публикации: 2018-12-25.

Multi-radiation source arrival angle measuring method and device based on quasi-matched filtering

Номер патента: CN114428225B. Автор: 唐勇,刘俊,王浩丞,沈志博,朱全江. Владелец: CETC 29 Research Institute. Дата публикации: 2022-06-14.

Laser measurement method and device based on double sideband modulation

Номер патента: CN107505626A. Автор: 张洪祥,潘时龙,徐忠扬,唐良尊. Владелец: Nanjing University of Aeronautics and Astronautics. Дата публикации: 2017-12-22.

Double-conductor voltage measuring method and device based on electric field sensing chip

Номер патента: CN114441834A. Автор: 王宇,骆柏锋,田兵,刘仲,吕前程,徐长宝,高吉普,辛明勇,陈敦辉,谭则杰. Владелец: Guizhou Power Grid Co Ltd. Дата публикации: 2022-05-06.

Multi-purpose ultrasound works state vibration amplitude measurement method and device based on electromagnetic induction principle

Номер патента: CN109029690A. Автор: 赵波,王毅,高国富,赵重阳,李鹏涛,王晓博,向道辉,焦锋. Владелец: Henan University of Technology. Дата публикации: 2018-12-18.

Rope swing angle measuring method and system based on vision measurement

Номер патента: CN110006368B. Автор: 张小虎,林彬,甘叔玮,叶雪辀. Владелец: National Sun Yat Sen University. Дата публикации: 2020-06-26.

High-precision six-degree-of-freedom measuring method and device based on laser range finder

Номер патента: CN113028987A. Автор: 杨卓,石恒,汪利华,边疆,雷柏平,杜俊峰. Владелец: Institute of Optics and Electronics of CAS. Дата публикации: 2021-06-25.

High-stability nanoradian magnitude angle measurement method and device based on spatial light modulation

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High-precision spectral measurement method and device based on heterodyne frequency mixing

Номер патента: CN114993471A. Автор: 张琦,张晨,高然,王光全,王拥军,田凤,王富,忻向军,杨雷静,田清华,姚海鹏,李志沛. Владелец: BEIJING UNIVERSITY OF POSTS AND TELECOMMUNICATIONS. Дата публикации: 2022-09-02.

Structured light three-dimensional measurement method and device based on defocusing unwrapping

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Three-dimensional measurement method and system based on polar line geometry

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Blind hole depth measurement method and device based on machine vision

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Pneumatic cut tobacco conveying speed and flow measuring method and device based on parallel light coverage

Номер патента: CN112362110A. Автор: 谢海,李国荣,赵立宏,谢钟翔. Владелец: Hunan Sunny Technology Engineering Co ltd. Дата публикации: 2021-02-12.

Anti-interference non-contact voltage measurement method and device based on electric field sensing chip

Номер патента: CN114563619A. Автор: 李鹏,韦杰,王志明,骆柏锋,田兵,刘仲,吕前程,李立浧,姚森敬,樊小鹏,徐振恒. Владелец: Southern Power Grid Digital Grid Research Institute Co Ltd. Дата публикации: 2022-05-31.

Ocean remote sensing depth measurement method and device based on acousto-optic combined sensing

Номер патента: CN111443352A. Автор: 刘璞,张启元,张烈山. Владелец: Zhejiang University of Technology ZJUT. Дата публикации: 2020-07-24.

Multi-channel synchronous absolute distance measuring method and device based on all-fiber frequency domain interference

Номер патента: CN110793445A. Автор: 王翔,陈宏�,康强,黄金,王为,翁继东,何润之,叶素华,陶天炯,马鹤立,刘盛刚,苗志起. Владелец: Institute of Fluid Physics of CAEP. Дата публикации: 2020-02-14.

Sediment shear wave velocity measuring method and device based on submarine noise

Номер патента: CN112904425B. Автор: 刘涛,李杨,王文静,孟庆生. Владелец: OCEAN UNIVERSITY OF CHINA. Дата публикации: 2022-01-04.

Automatic temperature measurement method and system based on face detection

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Power transmission line jumper distance measuring method and system based on unmanned aerial vehicle

Номер патента: CN110864630A. Автор: 李鑫,徐坤,陈城,唐光辉,杨兴,黄海鹏,徐广明,魏前虎,裴慧坤,周伟才,林国安,刘丙财,许海源,凌乐陶. Владелец: Shenzhen Power Supply Bureau Co Ltd. Дата публикации: 2020-03-06.

Icing thickness measuring method and system based on far-field sound pressure level change

Номер патента: CN114877837B. Автор: 马帅,张逊,肖春华,车兵辉,岳廷瑞. Владелец: Low Speed Aerodynamics Institute of China Aerodynamics Research and Development Center. Дата публикации: 2022-09-09.

Ultrasonic distance measuring method and device based on multiple emission frequencies

Номер патента: CN104536003A. Автор: 赵锐,钟晓霞,郭瑞敏. Владелец: Datong Power Supply Co of State Grid Shanxi Electric Power Co Ltd. Дата публикации: 2015-04-22.

Stereoscopic vision space circular attitude high-precision measurement method and system based on optimal projection plane

Номер патента: CN109470170B. Автор: 宋锐,李政源,马昕,荣学文,田国会,李贻斌,田新诚. Владелец: Shandong University. Дата публикации: 2020-01-07.

Blind hole depth measuring method and device based on machine vision

Номер патента: CN114964032A. Автор: 谢磊,孟凡武,马梁. Владелец: Beijing Institute of Technology BIT. Дата публикации: 2022-08-30.

Acceleration signal measuring method and device based on inertial sensor

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Self-adaptive vision measurement method and system based on flexible arm hand-eye camera

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Optical nonlinear error measuring method and device based on two-channel quadrature phase-locked demodulation

Номер патента: CN108458654B. Автор: 王越,胡鹏程,谭久彬,付海金,吉瑞东. Владелец: Harbin Institute of Technology. Дата публикации: 2022-02-18.

Wheel multidimensional force measuring method and system based on hub bolts

Номер патента: CN114969975A. Автор: 李雪原,苑士华,许瑶,尹旭峰. Владелец: Beijing Institute of Technology BIT. Дата публикации: 2022-08-30.

A kind of sheet thickness distribution measurement method and system based on lateral shearing interference

Номер патента: CN109059787A. Автор: 徐立军,曹章,解恒,汤晓阳,任宇罡. Владелец: BEIHANG UNIVERSITY. Дата публикации: 2018-12-21.

Thickness measuring method and device based on thickness measuring unmanned aerial vehicle

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Large-inclination-angle free-form surface measuring method and device based on reference plane comparison measurement

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Power frequency electric field measuring method and device based on multi-beam laser spectrum technology

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Angle measuring method and system based on visual detection

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Water area measuring method and system based on monocular and binocular vision cooperation

Номер патента: CN113393413B. Автор: 吴艺,马云鹏,周亚琴,李庆武,刘凯祥. Владелец: Hohai University HHU. Дата публикации: 2022-09-13.

Stereoscopic vision measurement method and system based on speckle structured light

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Distance measurement method and system based on L iFi technology

Номер патента: CN111413672A. Автор: 蒋伟,李树白,管伟国,金学广. Владелец: Suzhou Bilinway Intelligent Technology Co ltd. Дата публикации: 2020-07-14.

A kind of Cable force measuring method and system based on radar

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Two-dimensional small-angle laser measurement method and device based on common-path difference and self-zero calibration

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Water level measuring method and device based on water quality

Номер патента: CN110207789B. Автор: 潘叶江,刘明雄,闫旺. Владелец: Vatti Co Ltd. Дата публикации: 2021-04-23.

Train Wheel tread three-D profile automatic measurement method and system based on error correction

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Three-dimensional perspective measurement method and device based on double grating

Номер патента: CN109470177A. Автор: 谭久彬,崔继文,任文然. Владелец: Harbin Institute of Technology. Дата публикации: 2019-03-15.

gyroscope linear measurement method and system based on static and dynamic inclinometer correction

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High-speed large-dynamic-range spectral measurement method and system based on radio frequency coding

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Synchronous phasor measuring method and device based on flat window filter

Номер патента: CN110470904A. Автор: 程一帆,薛蕙,阮梦洁. Владелец: CHINA AGRICULTURAL UNIVERSITY. Дата публикации: 2019-11-19.

High-stability nanoradian magnitude angle measurement method and device based on drift amount feedback

Номер патента: CN113639665B. Автор: 于洋,石剑,谭久彬. Владелец: Harbin Institute of Technology. Дата публикации: 2022-11-01.

Speed measuring method and system based on double cameras, computer equipment and readable medium

Номер патента: CN113433339A. Автор: 朱正宇,田卫卫,王家奎. Владелец: Wuhan Veilytech Co ltd. Дата публикации: 2021-09-24.

Cable fault distance measurement method and system based on discharge waveform intelligent identification

Номер патента: CN114217164B. Автор: 李峰,徐丙垠,张金亮,单超,邹贵彬,魏秀燕. Владелец: SHANDONG KEHUI POWER AUTOMATION CO Ltd. Дата публикации: 2022-10-21.

Reflection-type surface shape measurement method and device based on two-dimension optical dot matrix

Номер патента: CN108303038A. Автор: 胡小唐,李奇峰,凌秋雨,胡春光,胡晓东,李宏斌,查日东. Владелец: TIANJIN UNIVERSITY. Дата публикации: 2018-07-20.

Nano radian magnitude three-dimensional angle measurement method and device based on drift amount feedback

Номер патента: CN113639667B. Автор: 石剑,谭久彬,武慧林,李颖先,李粤超. Владелец: Harbin Institute of Technology. Дата публикации: 2022-11-01.

Electric arc furnace flame temperature measurement method and system based on visual perception

Номер патента: CN113804305A. Автор: 王波,王锴,张聪,刘冠洲,黄威,王治宇,李若熙,张国华,吕潇,何建璋,张元生,王贤龙,许前,于骞翔,张迎棋,谷泉,徐明钰,陈士权. Владелец: Xinjiang Nonferrous Metals Industry (group) Co W L L. Дата публикации: 2021-12-17.

Dynamic rope swing angle measuring method and system based on tilt angle sensor

Номер патента: CN112819886A. Автор: 韩伟,熊丹,黄奕勇,刘红卫,付康佳,杨延杰. Владелец: National Defense Technology Innovation Institute PLA Academy of Military Science. Дата публикации: 2021-05-18.

Holographic measurement method and system based on radio frequency power supply broadband signal

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Three-dimensional shape measuring method and device based on wavelength tunable optical field measuring technology

Номер патента: CN115164771A. Автор: 不公告发明人. Владелец: Nantong Juzi Photoelectric Technology Co ltd. Дата публикации: 2022-10-11.

Vehicle weight measuring method and system based on mems attitude sensor

Номер патента: CN116147747A. Автор: 李志锋,缪存孝,杜玉虎,郑云海,缪存忠,林祥武. Владелец: Suzhou Miaohang Technology Co ltd. Дата публикации: 2023-05-23.

Earth measurement method and system based on intelligent navigation robot

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Optical three-dimensional measurement method and system based on pixel coding

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Three-dimensional measurement method and system based on polar line geometry

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Encoder speed measurement method and device based on nonlinear tracking differentiator

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Vehicle speed measuring method and device based on laser speckle image processing

Номер патента: CN108734971B. Автор: 方俊,彭富明,沈泽武,陈奕夫,刘翔皓. Владелец: Nanjing University of Science and Technology. Дата публикации: 2020-08-25.

Wireless distance measurement method and device based on first path detection

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A kind of double line down distance measuring method and device based on distributed parameter model

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A kind of surface shape measurement method and system based on spatial coordinates calculation

Номер патента: CN110360954A. Автор: 孙平,代晴,唐钰欣,类智方. Владелец: SHANDONG NORMAL UNIVERSITY. Дата публикации: 2019-10-22.

Vertical jump height measuring method and device based on mobile terminal gravity sensor

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Ambient light measurement method and system based on camera device

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Distributed lightweight total network remote measuring method and device based on label

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Blade tip clearance control using material with negative thermal expansion coefficients

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Blade tip clearance control using material with negative thermal expansion coefficients

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Low thermal expansion coefficient glass fiber

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Fluid flow control device that provides an improved seal by exploiting differential thermal expansion

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SiC growth apparatus comprised of a base having a plurality of graphite plates having anisotropy of a thermal expansion coefficient and method of manufacturing a SiC crystal using the apparatus

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A composite sandwich panel with tailored thermal expansion coefficient

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Fusion formable alkali-free intermediate thermal expansion coefficient glass

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Device for supporting substrate having thermal expansion coefficient

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Methods and apparatuses for receiving feedback from users regarding automatic calculations performed on ultrasound data

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Composite sandwich panel with tailored thermal expansion coefficient

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Glass composition with low coefficient of thermal expansion, and glass fiber produced from same

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Low thermal expansion alloy

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Low thermal expansion alloy

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High-efficient central chiller plant system with variable load by phase change material thermal energy storage

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Glass composition with low coefficient of thermal expansion, and glass fiber produced from same

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Semiconductor device with front and back side resin layers having different thermal expansion coefficient and elasticity modulus

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Material demonstrating negative or low thermal expansion coefficient and method for manufacture thereof

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Tunable microresonator on an insulating beam deformable by the difference in thermal expansion coefficients

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Composite of cobalt-based perovskite material with negative thermal expansion material, and preparation method of same, and solid oxide fuel cell comprising same

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Glass articles having a brown to reddish-brown color from borosilicate glass of a low thermal expansion by means of silver diffusion dye

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Low thermal expansion alloy having excellent low temperature stability and method for producing same

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Low thermal expansion alloy having excellent low temperature stability and method for producing same

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Image encoding method based on individual secondary conversion and device for it

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Low thermal expansion alloys

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Negative thermal expansion material and composite material

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Uranium and associated elements production method based on underground well leaching technology with plasma-pulse action on well hydrosphere

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