宇航醫學 的英文怎麼說
中文拼音 [yǔhángyīxué]
宇航醫學
英文
aerospace medicine-
Cdse, a ii - vi compound with direct transition, wide - band - gap and high atomic number ( 48, 34 ), is regarded as a new effective materials for room temperature nuclear radiation detectors and photoconductive devices, and can be used in many fields
Prince提出的優良室溫核輻射探測器材料必須具備的要求,因而被認為是制備室溫核輻射探測器的最有前途的新材料之一,可廣泛應用於探礦、無損檢測、核醫學、環境監測、軍事和空間宇航技術等領域。" these kids wanted to be doctors and nurses and engineers and astronauts and then they hit the schoolhouse door and they ' re confronted with an environment which is not inspiring, not engaging and often disorderly and unsafe.
他們本希望自己日後能夠成為醫生護士工程師或是宇航員,但由於整天面對毫無靈感和吸引力時常混亂無序的學習環境,讓他們最終選擇退學。The applications field of fgm include aerospace, electron, chemistry, biology and medicine fields ; the composition change also from metal / ceramic to metal / metal, metal / alloy, non - metal / non - metal and non - metal / ceramic. moreover, various methods including powder metallurgy, self - propagating high - temperature synthesis ( shs ), chemical and physical vapor deposition ( cvd and pvd ), electrodeposition, laser cladding method, plasma sputtering and sol - gel method have been studed. metal organic chemical vapor deposition ( mocvd ), using chemical vapor deposition of metal organic compounds, is an effective method for acquiring special function materials and membrane
功能梯度材料是21世紀最有發展前景的新型材料之一,其用途已由原來的宇航工業,擴大到核能源、電子、化學、生物醫學等領域;其組成也由金屬?陶瓷發展成為金屬?金屬、金屬?合金、非金屬?非金屬、非金屬?陶瓷等多種組合;其制備方法主要包括粉末冶金法,自蔓延高溫合成法( shs ) 、氣相沉積法( cvd和pvd ) 、電沉積法,激光熔覆法,溶膠?凝膠法( sol - gel )等。Scientists have cerated quite an array of space medicine for astronauts
科學家們已經創立了一系列的太空醫學,為宇航員們服務。As a part of new materials, nanostructured materials are playing an important role in many fields, such as information, manufacturing, biotechnology and agriculture etc. in this paper, we have deve loped several methods for preparation of ni, ceoi and co / ni nanopowders, and have studied their application in catalytic dehydrogenation, ion - selective electrodes and industrialize amplification of nickel nanopowder
使得納米粉體材料與常規粉體材料相比具有一系列電、磁、光及力學等方面的新異特性,從而使其作為一種新型材料在電子、信息、農業、冶金、宇航、化工和生物醫學等領域佔有十分重要的地位。分享友人