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yingzi1120: 金币+200, 翻译EPI+1, ★★★★★最佳答案, 谢谢 2015-09-21 11:15:59
1. 我们 已在文中 前言部分 增加了 关于 纳米A 的阐述。如下:纳米A 具有 硬度大,高耐磨 以及 较强的耐腐蚀 性等特性。是 具有广阔前景 的纳米材料,基于 它本身的 物理化学性质,近年来 国内外科研工作者 对 其在 很多领域 进行了 拓展应用
1. We have added elaboration of Nanomaterial A in the section of introduction. For instance, with advantages of high hardness, high wearability and strong corrosion resistance, Nanomaterial A is enjoying a wide prospect. Based on the physical and chemical properties of itself, in recent year, researchers from home and abroad have conducted studies on the expanding application of such material in various fields.
2.我们只是想说明 图片上 各个区域 的 成分,因此 任意选择了 一个浓度下 的 样品 进行表征。
We did this only for explaining the components of each region in figure, so we randomly selected a sample in a certain concentration for characterization.
3.基于本文前面的分析,粉体浓度 在10g/L时 制备的 涂层中 分体含量 达到最大值,表面形貌 及 硬度 也达到最佳。因此,这里选取 溶液中 粉体含量 是10g/L 来分析 样品的 电化学腐蚀性能。
3,Based on previous analysis in this paper, with nanopowder concentration of 10g/L, the fission content in coat reaches the max value, the surface appearance and hardness reach the max as well. Therefore, we selected 10g/L of nanopowder concent in solution for analyzing electrochemical corrosion resistance of the sample
4..在前期的 工艺条件 探索中,4A/cm2的电流密度 在本研究中 是最佳的 条件,并没有出现 烧焦或是粉化 现象。且已有 很多相关文献 使用的 电流密度 也在4A/cm2左右。
4,In the early exploration of process conditions, we found 4A/cm2 is the optimal current density, under which, no burning or pesting phenomenon emerged. In addition, there have been lots of relative references in which the current density was set as about 4A/cm2.
5.这是因为 研究分析 沉积过程 要求物体表面 要 非常稳定 且 细致均匀,否则 会引入 外来干扰因素,无法充分说明 电沉积形核结晶 的机制。而基体表面 满足 不了需求,为了 排除干扰,更加准确的 分析 沉积过程,本文 选自了 相对稳定的 B来分析 这个沉积过程。
5 This is because in analysis of sedimentation process, a highly stable,uniform and particular surface should be guarranteed, otherwise outside interference factors will be introduced, leading to the failure in fully demonstrating the mechanism of electrodeposition crystal nucleation. On this basis, (这里是不是漏掉了“A”表面无法满足)the surface of Nanomaterial A can hardly meet such requirements, so we selected the more stable B to analyze the sedimentation process in higher accuracy.
6.复合材料 对于 实际应用 是非常重要的,然而 很多类似的 工作 分析 并不全面,尤其是 对于C粉体 在 涂层中的 沉积过程 报道的 并不多。本文 通过 多种表征手段 对 制备的 复合材料进 行分析,得出了 一些重要的 数据和结论,希望对 其他相关的工作者 能有 一定的借鉴意义。
6. Composite material plays a vital role in practical application, however, many analyses on compasite material, especially on the sedimentation process of C power are not comprehensively written enough. In this paper, through multiple characterization methods, we analyzed the resulted composite material and obtained some data and conclusions, which are expected to be of reference significance to relative researchers.
7.对于 复合沉积研究,虽然 已有很多报道。然而,很多科研工作者的 分析研究 并不全面,尤其是 运用 电化学手段 分析C粉体 微粒 对 沉积过程的 影响报道 更为少之。对于C粉体微粒的 研究也较少,前人在 复合材料 制备上 多集中于 SiO2, TiO2,Al2O3 等粉体微粒。
7, There have been lots of reports on composite deposition, however many of researches within are not comprehensively written. Especially on the sedimentation process of C powder particles by electrochemistry method, reports are fewer. In addition, studies on C power practicles are few, former researches mostly focused on SiO2, TiO2,Al2O3 as the powder particles for preparing composite materials. |
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