磨碎程度 的英文怎麼說

中文拼音 [suìchéng]
磨碎程度 英文
fineness of smashing
  • : 磨動詞1 (摩擦) rub; wear 2 (研磨) grind; mull; polish 3 (折磨) grind down; wear down [out]:...
  • : 動詞[書面語] (觸; 撞) strike; bump
  • : 名詞1 (規章; 法式) rule; regulation 2 (進度; 程序) order; procedure 3 (路途; 一段路) journe...
  • : 度動詞[書面語] (推測; 估計) surmise; estimate
  • 磨碎 : trituration; attrite; bruising; squashing; rubbing; ground磨碎機 [機械工程] grate; attritor; grin...
  • 程度 : 1. (知識、能力的水平) level; degree 2. (事物變化達到的狀況) extent; degree
  1. After the vacuum dry and the sphere mill, the level of agglomeration is low, the particle size is very small, spherical and the nanometer stannic dioxide powder with the aspects of good scattered nature is achieved

    經真空乾燥和球后得到團聚低,粒細小均勻,達到納米水平並具有較好分散性的球形二氧化錫粉體。
  2. This machine can triturate wet or all kinds hard grade of ore and ofther material, especially can make many sizes sands

    適用於濕法細,粗各種硬的礦石及其他物料,特別適用於人工造沙過中調節細模數。
  3. The crystalline structure changes of pp induced by pan - milling were characterized by x - ray diffraction and raman spectroscopy. xrd analyses show that when pp was co - milled with uhmwpe, crystal transformation of pp occurred, its crystallinity and crystallite size decreased, whereas, only slight reduction of crystallinity and crystallite size were observed and no crystal transformation was found when pp was co - milled with wtr chips, and amorphization of pp was strongly enhanced by co - milling pp with iron

    採用x -射線衍射研究了聚丙烯碾微觀結構變化, uhmwpe存在下pp發生晶型轉變、結晶降低和晶粒尺寸減小;彈性材料wtr抑制pp塑性變形,碾導致分子堆積有序區域膨脹,晶面間距增大,結晶下降;剛性材料金屬鐵與pp產生強烈摩擦,加快晶粒細化,晶格破裂導致非晶化。
  4. This edta route has several remarkable advantages in comparison with other method. because of the greater ability of edta anions to chelate metal cations, and forming very stable and soluble complexes, all of the starting materials are mixed at the molecular or atoms level in a solution, it is easy to control the composition and a high degree of homogeneity is achievable

    傳統的合成方法是高溫固相反應,由於灼燒溫高、灼燒時間長,形成硬團聚體,產物粒徑較大,一般為m級,需進行球以減少其粒徑,很難制得均相、均一粒分佈的氧化物粉體,在研中容易引入雜質且晶形破壞使得發光亮減小。
  5. Firstly, the mechanism of the preparation of superfine quartz powder with ball mill is studied in this article, based on nature of quartz material, griffith ' s strength theory and the crush theory of planetary ball mill. the problem of granulation during the process of the preparation of superfine quartz powder is studied minutely. and proposed increasing dispersant and disperser medium to restrain granulation, and dispersing use ultrasonic after milled

    首先,本文結合石英材料的基本物性,以格里菲斯強理論和行星式球機的粉原理為基礎,研究了球法制備超細石英粉體的機理,同時對粉石英制備過中的團聚問題及其控製作了細致的研究,提出粉中增加分散劑和分散介質來抑制團聚,粉后採用超聲法進行分散,並確定了最佳分散劑、分散介質的用量和最佳超聲分散時間。
  6. During the initial pan - milling period ( 1 - 5 milling cycles ), a sudden particle size reduction was observed, which can be described by " avalanche " pulverizing mechanism, i. e., large amount of energy caused by pan - milling press force accumulated in deformable polymers to a critical point and then the deformed polymer flakes suddenly collapsed to small particles by shear force

    結果表明,在碾初期( 1 5碾循環) ,聚合物粒子的粒有一個驟降過,是盤強大擠壓力場作用於塑性材料引起的能量積累達到其破壞極限后引起的突然破,可用均一粉機理描述。
  7. In this paper, the microstructure changes of polypropylene induced by a complex combination of shearing, compression, stretching and friction actions during single pan - milling or co - milling with iron, uhmwpe and waste tire rubber chips ( wtr ) were studied and the stress induced effects were revealed. the structure and morphological development of iron particulates and wtr during pan - milling and co - milling with polypropylene were also characterized. the properties of pp / fe, pp / wtr and pp / wtr / fe composites prepared through pan - milling techniques were investigated

    本文利用盤型力化學反應器對被碾材料施加強大的剪切、環向應力、擠壓、拉伸和摩擦作用,研究聚丙烯碾和共碾微觀形態結構和性能的變化,以及聚合物在碾中呈現的力化學現象,並將其應用拓展至金屬、橡膠等體系,研究碾在聚丙烯鐵超微粉體的制備、高交聯密彈性材料廢舊輪胎橡膠( wtr )的超微粉,以及pp fe , pp wtr材料的性能與碾作用的關系。
  8. The sediments in the core are weakly weathered, lightly abraded and bad sorted, they have the same feature as river sediment, which is derived from near source and did not experience seriously transformation by ocean. due to the rate of insufficient sediment supply the sedimentation rate is low

    屑礦物風化低,蝕不顯著,分選較差,河流砂特徵明顯,沉積物來自於近源,由河流輸送入海,海洋改造不十分強烈,由於物源供應不足,沉積速率較低。
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