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- We used X-ray, SEM, TEM and EDX etc. 利用X-Ray、SEM、TEM和EDX等手段表徵材料納米化和分析其氧化物的形貌及成分。
- The catalyst was characterized by SEM, BET, XRD, XPS and EDX. 採用SEM、XRD、XPS及EDX等對複合載體型Ziegler-Natta催化劑的形態及化學性質進行了分析。
- The ratio of calcium and phosphate were examined with EDX. X射線能譜儀 (EDX )測量激光照射前後牙釉質中鈣磷相對含量的比值的變化 ,初步探討激光防齲的機制。
- The IMC phases were identified by energy dispersive X-ray(EDX). 用X射線能譜儀測定了化合物的成分。
- The wear print and debris were also studied by SEM,XRD and EDX. 利用掃描電鏡 (SEM)、X 射線衍射分析 (XRD)、能譜分析 (EDX)等手段 ,分別對試樣磨痕形貌及磨屑進行了分析。
- The worn surfaces were analyzed by SEM and EDX techniques. 分析了磨損表面的SEM形貌和EDX能譜。
- EDX analyses showed the adsorbed film formed on the cast iron. X-射線能譜分析顯示在鑄鐵的摩擦表面有一吸附層形成。
- The EDX spectrum shows that the nano-zinc sulfide has high purity. EDX能譜表明該法製備的納米硫化鋅具有較高的純度。
- The products were characterized and analyzed through SEM,EDX and DTA-TG. 並通過SEM、EDX、DTA-TG手段對產品進行了表徵分析。
- The products are characterized by SEM, TEM, XRD, 1R, EDX, DSC/TG and so on. 採用SEM,TEM,XRD,IR,EDX,DSC/TG等分析方法對合成的螺旋納米纖維進行了表徵。
- The quasicrystal composition is calculated to be Mg_29Zn_63Y_8 by EDX. 其成分近似為Mg_(29)Zn_(63)Y_8。
- Fractured 1Cr18Ni9Ti butt welding flange was analysed by OM, SEM and EDX. 用光學顯微鏡、掃描電鏡和能譜儀分析了 1 Cr1 8Ni9Ti對接焊法蘭盤斷裂原因。
- The homogeneity of the coating layer was characterized by SEM and EDX. 用SEM(掃描電鏡)和EDX(能譜)分析鍍層的均勻性。
- The nanotubes were composed of silicon and small oxygen by the EDX spectrum. 通過EDX能譜測試,該結構主要為Si和少量氧組成;
- The activation mechanism was also discussed based on SEM and EDX results. 結合SEM和EDX結果,對其機理進行了探討。
- The properties of products were characterized by SEM,TEM,XRD and EDX. 通過SEM,TEM,EDX和XRD等手段對產物進行了表徵。
- Ten cases of human osteosarcoma have been studied by light microscopy, electron micros-copy and energy dispersive X-ray spectrometer (EDX). 對10例人骨肉瘤進行了光鏡病理學,電鏡超微結構和能譜元素成份的研究。
- The oxidative behavior of Ni-Cr-B-Si alloy has been studied by themethod of EPMA,SEM,EDX,and SAM. 利用電子探針(EPMA)、掃描電鏡(SEM)、X 射線能量色散譜(EDX)和俄歇能譜(SAM)對 Ni-Cr-B-Si 系合金在800℃、850℃下的氧化行為進行了研究。
- The coated layer on the surface of PTW were characterized and analyzed with SEM, FTIR, XRD, and EDX. 利用SEM、FTIR、XRD、EDX等手段對鈦酸鉀晶須表面包覆層進行了表徵和定量分析,並利用Zeta電位儀測試了包覆前後鈦酸鉀晶須的表面電荷情況。
- Ruthenium colloid and nano Ru/C catalyst were characterized by XRD, TEM, ICP, EDX and TG. 採用XRD、TEM、ICP、EDX和TG對製備的釘膠體溶液和納米Ru/C催化劑進行了表徵。
