感觸溫度 的英文怎麼說

中文拼音 [gǎnchùwēn]
感觸溫度 英文
effective temperature
  • : Ⅰ動詞1 (覺得) feel; sense 2 (懷有謝意) be grateful; be obliged; appreciate 3 (感動) move; t...
  • : Ⅰ動詞1 (接觸) touch; contact 2 (碰; 撞) strike; hit 3 (觸動) touch 4 (感動) move sb ; sti...
  • : Ⅰ形容詞(不冷不熱) warm; lukewarm; hot; gentle; mild Ⅱ名詞1 (溫度) temperature 2 (瘟) acute ...
  • : 度動詞[書面語] (推測; 估計) surmise; estimate
  • 感觸 : thoughts and feelings; feeling
  • 溫度 : [物理學] temperature
  1. Because of the measuring element no touching and no turning with the rotating axes. without of electric ring, the signal is led expediently, firmly and enduringly, and not sensitive to the temperature and interference

    由於測量元件不與轉軸接,不隨轉軸運動,因此信號的引出較方便,不需要導電滑環,可靠性高,堅固耐用,且對和干擾不敏
  2. Direct palpation with the fingers or indirect palpation with a probe is aimed at determining the size, consistency, temperature and sensitiveness of a lesion or organ.

    用手指直接診或用一根探針間接診,目的在於確定損害或器官的大小、堅和敏性。
  3. Temperature kits : contact must be properly fixed in the evaporator export pipelines, real - time communication evaporator components to temperature degrees, the material will be filled through interlinked capillary pressure due to the expansion of corrugated boxes ; swelling corrugated boxes on the pressure for change in the thrust pole with an adjustment screw and spring - loaded ball - type valves to adjust the resistance of the degrees of refrigeration volume precision adjustments

    包:是必須妥善接固定在蒸發器的出口管道上,知蒸發器實時回氣的部件,它將充填物質的熱脹冷縮壓力通過相通的毛細管提供給膨脹波紋箱;膨脹波紋箱依據壓力的變化推動推力桿結合過熱調整螺絲和彈簧的阻力來調整球型閥的開,實現製冷量的精確調整。
  4. The high reality of numerical simulation is studied prominently in the paper, studying the influence of temperature field on wear, introducing the reliability theory and bringing forward the universe model of the high - reality numerical simulation bout linear contact parts

    本文著重研究了磨損模擬的高真性,研究了、壓力對磨損的影響,引入了可靠性理論,提出了線接零件磨損的高真數值模擬通用模型。
  5. Triggering element is a semiconductor temperature sensor, whose temperature - dependent altered signals bring about changes in the switching state with the help of amplifiers and or electronics

    發元件是一個半導體器,隨變化發出信號,並通過放大器或者和電子信號改變開關狀態。
  6. The principles of contactless infrared measuring temperature with pyroelectricity infrared sensors, the system structure of infrared measurement temperature and its component of signal processing circuits are introduced, its aim is to carry out contactless temperature measurement for a moving body

    摘要介紹了利用熱釋電紅外傳器(探測器)進行非接式紅外測的原理、紅外測系統結構和信號處理電路的組成,目的是實現對移動物體的非接測量。
  7. Each plate is in thermal contact with an independently controlled pure silver heater utilising platinum resistors sensitive to 0. 1 c

    每一塊片都與獨立控地純銀加熱塊接,使用精達0 . 1 c地鉑電阻傳器。
  8. Thirdly, cbt ' s characteristic of the strain v. s. the applied pressure is studied, on the basis of this, a new scheme of the straight bourdon tube ( sbt ) is presented, a sbt is designed and fabricated, and then the strain - pressure characteristics of both the cbt and sbt are measured experimentally using a strain measuring technique, a comparison between the cbt ' s and sbt ' s strain characteristics is also made. finally, theoretical models of a fbg fluid pressure sensing system scheme based on the bourdon tube are developed, and a fbg - based fluid pressure sensing system using the transverse strain - pressure characteristic of the sbt is designed and set up

    首先,詳細介紹了fbg的基本光學傳特性,並測量了fbg的、應變特性;其次,研究了c型彈簧管的位移?壓力特性,並利用ccd成像和計算機圖像處理技術對其進行了非接測量;再次,研究了c型彈簧管的應變?壓力特性,在此基礎上提出直彈簧管的設計方案,並製作了直彈簧管,採用應變測量技術對c型彈簧管和直彈簧管的應變?壓力特性分別進行了測量,對兩者的應變特性做了比較;最後,建立了基於彈簧管的fbg壓力傳系統理論模型,設計完成了基於直彈簧管橫向應變?壓力特性的fbg流體壓力傳系統。
  9. In chapter 3 we establish the ir thermal model of ground targets such as tanks based on the principle of heat transfer and calculate the re - distribution of temperature field after the touch between targets and ground. then we render the realistic ir images between the targets and the ground background. we also render different ir images of the ground at the different intervals after the targets have been driven away

    本文第三章從傳熱學原理出發,建立起坦克等地面目標的紅外熱傳導模型,計算出坦克和地面接后達熱平衡時的場分佈,繪制出目標與地面背景真實合成的紅外圖像,並生成了地面目標駛離后不同時刻在地面留下的「紅外陰影」效果圖,這為反推某時刻之前紅外目標的存在提供了依據。
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