粉粒構造 的英文怎麼說
中文拼音 [fěnlìgòuzào]
粉粒構造
英文
particle structure- 粉 : Ⅰ名詞1 (粉末) powder 2 (用澱粉製成的粉條或粉絲) noodles or vermicelli made from bean potato o...
- 粒 : Ⅰ名 (小圓珠形或小碎塊形物) small particles; grain; granule; pellet Ⅱ量詞(用於粒狀物)
- 構 : Ⅰ動詞1 (構造; 組合) construct; form; compose 2 (結成) fabricate; make up 3 (建造; 架屋) bui...
- 造 : Ⅰ動詞1 (做; 製作) make; build; create; produce 2 (假編) cook up; fabricate; concoct 3 [書面語...
- 構造 : structure; construction; constructional detail; tectonic; structural; makeup; anatomy; constituti...
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The structures and characteristics of several graphite samples are measured by means of powder x - ray diffraction ( xrd ), brunauer - emmer - teller ( bet ) surface area measurement, inductively coupled plasma ( icp ) spectroscopy, particle size analysis and electrochemical measurements. the effects of origin, structure, impurity, particle size, specific surface area of carbon materials on the electrochemical characteristics are studied. a synthetic graphite with abundant resources, low cost and favorable performance is determined as the raw material for modification of graphite
採用xrd 、 bet 、 icp 、激光粒徑分析及電化學性能測試等方法,對國內外多種典型石墨樣品的結構與性能進行比較,研究石墨材料的來源、晶體結構、雜質含量、顆粒大小、比表面積等因素對其充放電性能的影響,確定一種性能較好、價格低廉、來源廣泛的普通人造石墨粉作為熱處理與摻雜改性、以及復合結構炭材料研究的原材料。The machine is sturdily built and 100 percent in compliance with the requirements of good manufacturing product ( gmp ) required for the pharmaceutical and food processing industries
造粒成型率極高,微粉粒流失減至幾近全無。結構堅固,且完全符合制藥、食品gmp之要求。It is mainly used for making insulating structural parts that has flame resistance
主要用於製造阻燃絕緣結構件。產品形狀為粉粒狀。It is mainly used for making insulating structures which have resistance heat and resistance impact
主要用於製造耐熱耐沖擊絕緣結構件。產品形狀呈粉粒狀。It is mainly used for making insulating structural parts that have high heat resistance and stress resistance
主要用於製造耐熱耐沖擊絕緣結構件。產品形狀呈粉粒狀。Absorbed foreign advanced technique of powder granulator, improved and heightened on the basis of foreign technique, this dry - type granulator is developed by our factory, lthas more reasonable and compact structure, sipply technological processes, easy operation and better peformance
干法制粒機是我廠吸收國外先進粉體造粒技術而開發的干法造粒設備,並在國外技術的基礎上加以改進和提高,結構更加合理緊湊、工藝過程簡單、操作方便、性能良好。In the present research, scanning electron microscope ( sem ), laser raman spectroscopy ( lrs ), x - ray photoelectron spectroscopy ( xrs ), x - ray diffraction ( xrd ) and electron probe micro analysis ( epma ) were utilized to investigate the difference in micro - structure and elements distribution between domestic and foreign pdcs. combined with analysis on current manufacturing process, the mechanism for the difference was discussed. scanning electron microscope ( sem ), laser granularity analysis, atom emission spectroscopy ( aes ) and plasma emission spectroscopy ( icpaes ) are also utilized to investigate the grain shape and impurities of key material - diamond power
本課題採用掃描電鏡、拉曼光譜、光電子能譜、 x -射線衍射分析、電子探針等方法分析了國內外聚晶金剛石-硬質合金復合片在微觀組織結構、元素成分分佈方面的差異,結合對現有燒結工藝的分析,研討了造成這些差異的機理;採用掃描電子顯微鏡、激光粒度分析、原子發射光譜、等離子發射光譜等方法對關鍵原材料-金剛石微粉的晶形、雜質含量進行了比較分析測試。The spray nozzle features an innovative structure, which renders a high yield rate and will not produce oversized or undersized granules
噴槍結構經特殊設計,使造粒成型率大幅提高,不致產生結塊,及微粉體。Based on recycling and reusing materials ( pe 、 pp 、 pu materials ) in the plastic industry, our company developed the cold pulling plastic lines. after long time trial and technical improvement, we make our cold pulling granule line with compact structure, convenience to change filter net, good stability, non dust pollution and high productivity
塑料工業中的原料配混和廢舊塑料的回收再生(例pe 、 pp 、 pu材料等) ,都需經過造粒工序,該機組便是在此基礎上發展起來的,我公司生產的冷拉造粒機組是冷切造粒的典型,經長期的試制和技術改良,機組以其外觀結構緊湊,更換濾網方便、質量穩定性好、無粉塵污染、生產效率高等諸多優點,是塑料造粒工業的首選設備。The behaviors of several inorganic nanoparticles ( sio2, al2o3, tio2 ) under ultrasonic irradiation, such as dispersion, crushing and activation, were studied. tem, ftir, spectrophotometry characterized the morphology, structure and dispersion stability of nanoparticles respectively. the results show that the inorganic nanoparticles in the aqueous solution can redisperse more effectively through ultrasonic irradiation than by conventional stirring, which was the basis for monomers to polymerize on the surface of nanoparticles
研究了超聲輻照下多種納米粒子( sio _ 2 、 al _ 2o _ 3 、 tio _ 2 )在水體系中的分散、粉碎及活化等各種行為,採用tem 、 ftir 、分光光度法等對納米粒子的形態、結構、分散穩定性進行了表徵,證明超聲輻照比常規攪拌更有效地實現無機納米粒子在液相中的分散,為單體在納米粒子表面的聚合創造了條件。分享友人