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[必]工 作 量： 约9000字, equation, citation, title 扣一扣不会到九千字
[必]工作报酬： 0.7/字*急件1.2*9000=7560
[必]涉及语言： 英文润稿
[必]所属领域： 工程类：电浆、高分子膜表面处理、一点点生物(杀菌)实验
[必]文件类型： 论文
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[选]工作要求： 使用追踪修订功能
[选]其他事项： 领域较杂(50％电浆特性、40％表面处理分析、10％杀菌实验)
若有只能接部分润稿,也欢迎来信讨论
未来还有几本论文要润 希望能找到长期合作对象
[选]试 译 文： Figure 40 demonstrates the surface morphology and surface
roughness of control and plasma treated PP surfaces by
AFM analysis. The control PP shows a smooth surface with
the roughness of 9.8 nm. After plasma treatment, the surface
roughness increases merely by 0-6 nm. The surface roughness
does not change a lot because we treated the PP surface
in post discharge region. As plasma discharge operating in
high pressure (e.g. atmospheric pressure), the ion mean free
path is short and the electric field is comparably small in
the post discharge region, thus, the ion energy is insuffi-
-cient to provide strong ion bombardment to the PP surface.
Therefore, plasma treatment does not change the surface
roughness, and we believe that the hydrophilicity is not
caused by surface morphology.
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