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米-千克

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The main object of this research is to investigate synthesis of Cu23Cl Cu and CuO nanoparticles through electrospinning and heat-treated method The research is mainly focused on preparative parameter and the change of heat-treated temperature to form the nanoparticles inlaid in silicon fibers the shape and color change are dicussed First of all to prepare the Polyvinyl butyral and silica dioxide complex nanofiber by electrospinning and then to investigate different heat-treated temperature and reactive time to being an influence on the products The results detected by SEM XRD TEM EDS FTIR combined sol-gel process and electrospinning can prepare Polyvinyl butyral and silica complex nanofiber The experimental result is found when heat-treated temperature is 100~4750C it can produce Cu23Cl nanoparticles; Above 4750C~ 4900C it can produce Cu nanoparticles; Above 450~7000C it can produce CuO nanoparticles And the viscosity is lain between 20~40cp and the sol-gel process time is 3hr it can produce the thinner fibers The average diameter of the fibers are 107 88±21 01nm;Due to the nanoparticles inlaid in the silica fibers the thinner fibers can be inlaid the smaller nanoparticles so this is the result that the experiment is expected To calcine the complex fibers is to produce surface silica fibers contain Cu23Cl Cu and CuO nanoparticles due to surface plasma resonance it make the color of the fibers become yellowish green from light white green turn into the red nuclear finally As the experimental result to utilize sol-gel process combine electrospinning can produce porous silica fibers contain Cu23Cl Cu and CuO nanoparticles

本研究旨在探讨「利用放电纺丝和热处理法来合成Cu23Cl、Cu和CuO奈米粒」之研究,实验著重在制备参数与热处理温度变化对所形成的奈米粒镶嵌在二氧化矽纤维中的形态与颜色变化探讨。首先,利用放电纺丝法制备出聚乙烯醇缩丁醛及二氧化矽之奈米纤维,比较不同的热处理温度与反应时间的改变对产物生成产生影响,进而研究不同热处理温度和时间对生成奈米粒的影响。产物经由SEM、XRD、TEM、EDS和FTIR等仪器分析结果显示,结合溶胶-凝胶法(sol-gel process)和放电纺丝法可产生聚乙烯醇缩丁醛及二氧化矽复合奈米纤维。实验结果发现,若热处理温度在100~4750C下可得到Cu23Cl奈米粒,475~4900C 可得Cu奈米粒,450~7000C以上可得 CuO奈米粒。而黏度介於20~40cp间和溶胶-凝胶时间为3hr时,可产生直径比较细的纤维,纤维直径为107 88±21 01nm;且由於奈米金属颗粒镶嵌在二氧化矽纤维中,直径比较细的纤维,可以得到比较小的奈米金属颗粒,这与实验预期相符。而锻烧此复合物产生多孔的二氧化矽纤维并包含Cu23Cl、Cu和CuO奈米微粒时,由於表面电浆子共震关系,而使纤维颜色由淡白黄绿色变成黄绿色,再变红褐色。由实验结果得知,利用溶胶-凝胶法(sol-gel process)结合放电纺丝法和不同热处理温度,可产生Cu23Cl、Cu和CuO奈米粒镶嵌在二氧化矽纤维。

Meters above sea level there is a large area below the distribution of pine forest, Shan-lin, Mao bamboo, soil is red soil (500 meters) and yellow (50-800 or 100 meters); 800 meters above the Huangshan pine and chestnut, chemical incense, bubble tree forests, mountain yellow brown soil; 1500 meters above the grass, mountain meadow soil coppice.

海拔80米以下分布有大面积马尾松林、杉林、毛竹林,土壤为红壤(500米以下)和黄壤(50—800或100米);800米以上为黄山松林及锥栗、化香、泡树次生林,山地黄棕壤;1500米以上为草丛,山地矮林草甸土。

"In figures at each metre interval and at intervening two decimeter intervals, if the scale is in metres and decimetres, the capital letter ""M"" being placed after each metre figure;"

如该量度尺是以米与分米为单位的,则每隔2米及于米与米之间每隔2分米以数字标记,在每个表示米的数字后面须有大楷"M"字

In New York the 286-ft (87.2-m) Flatiron Building of 1902 was surpassed in 1904 by the 375-ft (115-m) Times Building ( renamed the Allied Chemical Building), the 468-ft (143-m) City Investing Company Building in Wall Street, the 612-ft (187-m) Singer Building (1908), the 700-ft (214-m) Metropolitan Tower (1909) and, in 1913, the 780-ft (232-m) Woolworth Building.

这些建筑分别是高375英尺(115米)的时代大厦(1904),(后来改名为联合化工制品大厦)。1908年在华尔街建造的高468英尺(143米)的城市投资公司大厦,高612 英尺(187米)的星尔大厦,以及700英尺(214米)的都市塔和780英尺高(232米)的Woll worth大厦。

Shenjia shipyard is situated in Shanghai Pudong new area (known as Peoples's Liberation Army No.4805 factory) to the east of YangPu Bridge with an area of over 300,000 square meters.

申佳船厂(中国人民解放军四八○五工厂)地处上海市浦东新区,毗邻杨浦大桥,占地面积30万平方米,拥有长162米、宽21米干船坞一座,长128米、宽18米3000吨垂直升降船台一座及600吨船排一座,码头岸线1000余米,主要生产设施1200多台套,是一家以修造船为主、军民品结合的国家大二型企业。

Disney Characters A timeline of character debuts Before Mickey 1924 Alice (of The Alice Comedies, a series of 56 silent cartoons) 1927 Oswald the Lucky Rabbit (star of 26 silent cartoons) Recurring Characters: Mickey and Friends 1928 Mickey Mouse and Minnie Mouse, in Steamboat Willie 1929 Peg-Leg Pete, in The Barn Dance 1929 Clarabelle Cow and Horace Horsecollar, in The Plow Boy 1930 Pluto (AKA "Rover"), in The Chain Gang 1932 Goofy (AKA "Dippy Dawg,""George Geef"), in Mickey's Revue 1934 Donald Fauntleroy Duck, in The Wise Little Hen 1937 Huey, Dewey, and Louie Duck, in the Donald Duck Sunday comics 1937 Daisy Duck (AKA "Donna Duck"), in Don Donald 1943 Chip 'n' Dale, in Private Pluto Stars of Disney Feature Films 1937 Snow White, in Snow White and the Seven Dwarfs 1940 Pinocchio and Jiminy Cricket, in Pinocchio 1941 Dumbo, in Dumbo 1942 Bambi, in Bambi 1950 Cinderella, in Cinderella 1951 Alice and the White Rabbit, in Alice in Wonderland 1953 Peter Pan and Tinkerbell, in Peter Pan 1955 Lady and Tramp, in Lady and the Tramp 1959 Aurora, in Sleeping Beauty 1961 Pongo, Perdita, and the pups, in 101 Dalmatians 1967 Mowgli and Baloo, in The Jungle Book 1974 Robin Hood and Maid Marian, in Robin Hood 1986 Basil, in The Great Mouse Detective 1989 Ariel, in The Little Mermaid 1991 Belle and Beast, in Beauty and the Beast 1992 Jasmine and Aladdin, in Aladdin 1994 Simba, Timon, and Pumbaa, in The Lion King 1995 Buzz Lightyear and Woody, in Toy Story 1995 Pocahontas, in Pocahontas 1996 Esmerelda, in The Hunchback of Notre Dame 1998 Hercules and Megara, in Hercules 1998 Mulan and Mushu, in Mulan 2001 Milo Thatch, in Atlantis: The Lost Empire 2001 Lilo and Stitch, in Lilo And Stitch 2002 Sulley, in Monsters, Inc.

狄斯耐人物一个个性初次登场的时间期限在米奇之前 1924 爱丽丝(爱丽丝喜剧,一系列的 56幅沈默的卡通) 1927 奥斯瓦德幸运的兔子(26幅沈默的卡通的星)回到个性:米奇和朋友 1928 米老鼠和米妮老鼠,在汽船威利 1929 钉-腿的彼得,在谷仓跳舞方面 1929 Clarabelle 母牛和贺瑞斯 Horsecollar,在犁男孩中 1930 冥王星,在链组织中 1932 古菲(AKA&脑筋不正常的 Dawg,&&乔治 Geef&),在米奇的讽刺时事的滑稽剧 1934 唐纳德 Fauntleroy 鸭子,在明智的小母鸡中 1937 Huey ,杜威和中尉鸭子,在唐纳德鸭子星期日连环图画中 1937 黛西没入水中(AKA&堂娜鸭子&),在君唐纳德 1943 削'n'山谷,在私人的冥王星狄斯耐特征电影的星 1937 下雪水于白色,在雪白色的和七个矮子 1940 童话中的主角和表示温和的惊讶蟋蟀,在童话中的主角 1941 Dumbo,在 Dumbo 1942 Bambi,在 Bambi 1950 灰姑娘,在灰姑娘 1951 爱丽丝和白色的兔子,在奇境的爱丽丝 1953 彼得平锅和 Tinkerbell,在彼得平锅 1955 淑女和重步声,在淑女和重步声中 1959 奥罗拉,在睡着的美人 1961 在 101只大麦町中的 Pongo , Perdita,和学生 1967 Mowgli 和 Baloo,在丛林中订购 1974 罗宾头巾和少女圣母玛利亚崇拜者,在罗宾头巾 1986 罗勒,在伟大的老鼠侦探中 1989 瞪羚,在小的美人鱼中 1991 美女和畜牲,在美人和畜牲中 1992 茉莉属植物和安拉丁,在安拉丁 1994 Simba , Timon 和 Pumbaa,在狮子星国王中 1995 发出嗡嗡声 Lightyear 和多树木的,在供玩耍的故事中 1995 风中奇缘,在风中奇缘 1996 Esmerelda,在 Notre 夫人的驼背中 1998 大力英雄和 Megara,在大力英雄 1998 Mulan 和 Mushu,在 Mulan 2001 Milo 盖屋顶的材料,在阿特兰提斯:失去的帝国 2001 Lilo 和一针,在 Lilo 和一针 2002 Sulley,在怪物,公司 2003 奈莫舰长,在发现奈莫舰长方面 2004 幼鲑,在难以置信人中

Case: In cycle racing game, mi Jilin tire appears in library of cycle racing fittings, game part chooses Mi Jilin tire, can see as identical as reality tire technology parameter, can experience Mi Jilin tire the superior performance in game, make the player understands Mijilin through game thereby, approbate Mijilin, and the information that this sort appears Yu Zhen to experience the consequence to the player solidly to exceed a tradition far personally engrafts the effect.

案例:在赛车游戏之中,米其林轮胎出现在赛车配件库之中,游戏角色选用米其林轮胎,可以看到与现实完全相同的轮胎技术参数,能够感受到米其林轮胎在游戏中的优异性能,从而使玩家通过游戏了解米其林、认可米其林,而且这种类似于真实的亲身感受对玩家的影响力远远超过传统的信息灌输效果。

The new continuous type washes the rice hulling machine structure simply, the area xxxall, the collection rubs the hands the rice, washes the rice, except the float impurity, the grit was equal to a body, uses the current of water and the rice class counter-current flow, the water consumption few, the lavation effect is good, is one kind of highly effective continuous type washes the rice hulling machine.

新型连续式洗米机结构简单、占地面积小、集搓米、洗米、除去漂浮杂质、沙石等于一体,采用水流与米流逆流流动,用水量少、洗涤效果好,是一种高效的连续式洗米机。

The new continuous type washes the rice hullingmachine structure simply, the area small, the collection rubs thehands the rice, washes the rice, except the float impurity, thegrit was equal to a body, uses the current of water and the riceclass counter-current flow, the water consumption few, the lavationeffect is good, is one kind of highly effective continuous typewashes the rice hulling machine.

新型连续式洗米机结构简单、占地面积小、集搓米、洗米、除去漂浮杂质、沙石等于一体,采用水流与米流逆流流动,用水量少、洗涤效果好,是一种高效的连续式洗米机。

Results: in contrast with model group, SSM can (1) increase the survival rate of ARF in rats, cut down Scr and BUN at 24hr, improve renal function, slightly surpass Vp in its therapeutic effect;(2) mitigate the extent of renal pathologicchanges, decrease the numbers of renal tubule necroses and casts;(3) protect renal ultrastructure such as microvilli, mitochondria, endoplasmic reticulum of TEC, podocytic process of glomerulus epithelial cell,endothelial cell etc, better than Vp;(4) enhance SOD activity, lower MDA contents in renal cortex;(5) enhance NO contents in serum, reduce ET levels in plasma;(6) evidently cut down TNF- a contents in serum, superior to Vp;(7) antagonize calcium overload in TEC;(8) alleviate renal pathological changes in ARF metaphase (at 3d), advance regeneration and recovery of TEC, restore renal structure in ARF convalescence (at 5d), and better than Vp;(9) increase the expression of TEC PCNA and prepro EGFmRNA in ARF metaphase.

结果:与模型组相比,SSM能(1)提高ARF大鼠的存活率,降低24hr时Scr及BUN,改善肾功能,其疗效略优于维拉帕米;(2)减轻ARF肾脏病变程度,减少24hr肾小管坏死数及管腔内管型数;(3)对肾脏的超微结构如肾小管上皮细胞微绒毛、线粒体、内质网、肾小球上皮细胞足突、内皮细胞等形态结构均有一定的保护作用,其疗效略优于维拉帕米;(4)提高肾皮质SOD活性,降低MDA含量;(5)提高血清NO水平,同时降低血浆ET含量;(6)显著降低血清TNF-α的水平,疗效明显优于维拉帕米;(7)拮抗小管上皮细胞[Ca~(2+)]_i的升高;(8)使ARF中期(第3d时)肾组织病变较同期其它两组明显减轻,并使肾小管细胞再生修复提前,至ARF恢复期(第5d时)肾组织结构恢复重建良好;作用明显优于维拉帕米;(9)促进ARF中期肾小管上皮细胞PCNA的表达及EGF前体mRNA的合成,从而增加EGF的合成释放,而维拉帕米无此作用。

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推荐网络例句

According to the clear water experiment, aeration performance of the new equipment is good with high total oxygen transfer coefficient and oxygen utilization ratio.

曝气设备的动力效率在叶轮转速为120rpm~150rpm时取得最大值,此时氧利用率和充氧能力也具有较高值。

The environmental stability of that world - including its crushing pressures and icy darkness - means that some of its most famous inhabitants have survived for eons as evolutionary throwbacks, their bodies undergoing little change.

稳定的海底环境─包括能把人压扁的压力和冰冷的黑暗─意谓海底某些最知名的栖居生物已以演化返祖的样态活了万世,形体几无变化。

When I was in school, the rabbi explained everythingin the Bible two different ways.

当我上学的时候,老师解释《圣经》用两种不同的方法。