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等离子清洗的应用：
1) He wants to plasma clean the surfaces of fibers in order to change the surface properties and further improve the performances of the fibers.

    用于等离子清洗纤维表面，从而改变纤维表面性性质，提高纤维的性能。
 2) The application of the Cleaner is for scientific reseaches of modification.
    用于改性的科学研究。

In general, our plasma cleaners have been used for plasma modification of fiber surfaces.  The plasma treatment has been applied to structural fibers (e.g. carbon, Kevlar, polyethylene fibers) to modify the fiber surface chemistry in order to improve adhesion to the matrix material in fiber-reinforced composite materials. Plasma surface modification has also been applied to fibers and fiber meshes used as scaffolds in tissue engineering and biomedical applications.  The plasma treatment makes the fiber surface more hydrophilic to promote cell attachment and growth on the tissue scaffold. Below is a list of technical references from researchers that have reported using our plasma units for plasma surface modification of fibers for the applications described above. 

    总体而言，Harrick 等离子清洗机用于纤维表面的等离子改性。等离子体处理可用于结构性纤维如碳纤维、凯夫拉、聚乙烯纤维等的纤维表面化学性能的改性，以此提高粘附与纤维增强复合材料中基质的特性。等离子体处理也应用于组织工程学及生物医学等。等离子体处理可提高纤维表面的亲水性。下面的资料是研究人员使用我们的等离子体处理仪应用于纤维改性方面的技术参考资料，请查阅。

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FIBERS IN COMPOSITE MATERIALS
* Yuan, Xiaowen, Krishnan Jayaraman, Debes Bhattacharyya. "Effects of Plasma Treatment in Enhancing the Performance of Woodfibre-Polypropylene Composites." Composites: Part A (2004) 35(12): 1363-1374.

* S. Feih and P. Schwartz, "Modification of the carbon fiber/matrix interface using gas plasma treatment with acetylene and oxygen", J. Adhesion Sci. Technol., 12, 523-539 (1998).

* Waldman, D., Y. Zou, A. Netravali. "Ethylene/Ammonia Plasma Polymer Deposition for Controlled Adhesion of Graphite Fibers to PEEK. I. Characterization of Plasma Formed Polymers." J. Adhes. Sci. Technol. (1995) 9: 1475-1503.

FIBERS IN TISSUE ENGINEERING
* Moroni, L., M. Curti, M. Welti, S. Korom, W. Weder, J. R. De Wijn, C. A. Van Blitterswijk. "Anatomical 3D fiber-deposited scaffolds for tissue engineering: Designing a neotrachea." Tissue Eng. (2007) 13(10): 2483-2493.

* He, W., T. Yong, Z. W. Ma, R. Inai, W. E. Teo, S. Ramakrishna. "Biodegradable polymer nanofiber mesh to maintain functions of endothelial cells." Tissue Eng. (2006) 12(9): 2457-2466.

* Ma, Z. W., W. He, T. Yong, S. Ramakrishna. "Grafting of Gelatin on Electrospun Poly(caprolactone) Nanofibers to Improve Endothelial Cell Spreading and Proliferation and to Control Cell Orientation." Tissue Eng. (2005) 11(7/8): 1149-1158.

* Vehof, Johan W. M., Paul H. M. Spauwen, John A. Jansen. "Bone Formation in Calcium-Phosphate-Coated Titanium Mesh." Biomaterials (2000) 21: 2003-2009.

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