例句與造句

1. Methods of improving accuracy of laser interferometry system
   提高激光干涉測量系統(tǒng)精度的方法與途徑
2. Measuring method for the homogeneity of glasses by laser interferometry
   激光干涉儀檢測玻璃勻質(zhì)性的測量方法
3. A novel method for reducing greatly the nonlinear errors in heterodyne laser interferometry
   外差干涉非線性誤差修正方法研究
4. Study of modulated laser interferometry for piezoelectric characteristic measurement of piezoelectric ceramic
   壓電陶瓷壓電特性的激光調(diào)制法測量研究
5. Aerospace ; reinforcement fibres ; determination of filament diameter of filament yarns ; laser interferometry
   航空航天.增強(qiáng)纖維.復(fù)絲紗的長絲直徑的測定.激光干涉
6. It's difficult to find laser interferometry in a sentence. 用laser interferometry造句挺難的
7. Measuring method of the linear thermal expansion coefficient for low expansion glass by laser interferometry
   用激光干涉法檢測低膨脹玻璃的線性熱膨脹系數(shù)的測量方法
8. Methods for the calibration of vibration and shock pick - ups . primary vibration calibration by laser interferometry
   振動與沖擊傳感器的校準(zhǔn)方法激光干涉振動絕對校準(zhǔn)
9. Calibration of vibration and shock pick - ups - methods for primary vibration calibration by laser interferometry
   振動和沖擊傳感器的校準(zhǔn).采用激光干涉測量法對主振動的校準(zhǔn)方法
10. Methods for the calibration of vibration and shock transducers - primary shock calibration using laser interferometry
    振動和沖擊傳感器的校準(zhǔn)方法.采用激光干涉測量法的主要沖擊校準(zhǔn)
11. Methods for the calibration of vibration and shock transducers - primary vibration calibration by laser interferometry
    振動和沖擊傳感器的校準(zhǔn)方法.采用激光干涉量度法的主要振動校準(zhǔn)
12. The laser - induced ultrasonic technique , which is based on the generation of ultrasonic by a laser and the detection of stress wave with laser interferometry , and is an ideal combination of laser and ultrasonic for non - destructive testing , has also the advantage of non - contact , and has become very important in the non - destructive testing fields
    激光超聲檢測技術(shù)是利用激光脈沖照射樣品表面，激發(fā)出超聲波，并利用光學(xué)方法對超聲波進(jìn)行檢測，從而實(shí)現(xiàn)對樣品進(jìn)行無損檢測的一種方法。目前，激光超聲技術(shù)已成為無損檢測領(lǐng)域中的一種重要技術(shù)和手段。
13. It has many unique advantages compared with laser interferometry . and it can achieve higher accuracy and resolution than traditional geometry moir . it has been proved to be very useful in many practical applications , such as microelectronics , ultra - precision manufacturing , bioengineering , medicine , space technology , and material science , etc . in this dissertation , key technologies of nanometer displacement measurement by grating interferometry are systematically investigated , which mainly include measuring theories , designing grating interferometer and new subdividing method for moir interference fringes
    作為能夠?qū)崿F(xiàn)納米級位移測量的技術(shù)之一,光柵干涉位移測量技術(shù)具有激光干涉儀不具備的獨(dú)特優(yōu)點(diǎn),可以獲得比幾何莫爾術(shù)更高的測量準(zhǔn)確度、更高的分辨率,在諸如微電子、超精加工、生物工程、未來醫(yī)學(xué)、航天技術(shù)、材料科學(xué)等眾多領(lǐng)域有廣泛的應(yīng)用前景。