副教授、副研究员

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刘东光

发布时间:2017-07-04 浏览次数:53

刘东光,2011毕业于浙江大学、博士、男,198110月,副研究员,硕导

研究方向:材料表面处理技术、耐磨涂层

承担课题:

1、主持国家自然科学基金项目:硬质碳氮涂层制备技术及摩擦磨损性能研究、2014-2016

2XX无人机微波组件盖板及壳体镁合金材料表面专题研究

3、多芯片微波组件电子电镀、精细化学镀、国防基础科研项目(A1120110020)、2011-2015

4XX星热控涂层湿法和干法制备专题关键技术、2013-2015

5、星载复合材料XX天线表面金属化电讯件项目

6 XX导弹XXX体阳极氧化着色/环境试验设计师、2015-2017

7、增材制造天线阵子件表面金属化光整技术研究、2014-2017

8Al-Si复合材料表面改性技术研究 2012-2014

9、金刚石铜复合材料表面改性专题研究技术、2013-2015

10XX空间站空间环境、XX雷达大面积XX天线关键技术研究子课题:柔性薄膜天线制备、2012-2017

11、十二五”国家科技支撑计划项目“超耐磨人工髋关节”2012BAI18B042012-2015

12、国家自然科学基金面上项目:钛合金表面碳基多层复合膜结构设计与生物摩擦磨损性能研究、2008-2011

代表性成果:

[1]刘东光,一种镁合金微波组件盖板表面复合处理方法ZL201410414332.4  (授权)

[2] 刘东光,一种镁锂合金盖板表面的处理方法 201618003088.2(国防发明专利)

[3]刘东光,曹立荣,电镀沉积金锡合金镀层的方法CN201310420602.8 (授权)

[4]刘东光、胡江华,一种金刚石铜复合材料表面镀金方法CN201410407949.3 (受理) 

[5]刘东光、曹立荣,电镀沉积银锡合金镀层的方法CN201310404950.6 (授权)

[6]刘东光,一种镁锂合金材料表面耐摩导电复合处理方法,CN2016101750540 (受理)

[7] 刘东光,李敏等,一种激光粉末烧结尼龙材料表明金属化方法2015107211703 (受理)

[8]钛合金材料表面耐磨双层碳氮薄膜制备方法CN201410383041.3  (受理)

[9] 一种用于高温共烧陶瓷表面二次金属化镀镍的方法 CN2015105962549(受理)

[10] 高硅铝复合材料的镀金方法ZL201310553767.2 (授权)

[11] Ti-TiN-CNx梯度多层薄膜及其制备方法201010143619 [P]. (授权)

[12] 一种超硬碳薄膜及其制备方法: 中国、发明专利 200910100211.1 [P]. (授权)

[13] 一种含钛非晶碳高硬耐磨薄膜: 中国、发明专利 200910100211.1 [P]. (授权)

1.Super-low friction nickel based carbon nanotube composite coating electro-deposited from eutectic solvents diamond related materials 74 (2017) 229-232

2.Investigation of silicon carbon nitride nanocomposite films as a wear resistant layer in vitro and in vivo for joint replacement applications, Colliods and surface B: biointerface. 153 (2017) 41-51

3.Crystalline carbon nitride film synthesized by ion beam assisted magnetron sputtering and thermal annealing in nitrogen gas, Diamond & Related Materials 55 (2015) 102–107 (SCI) 1/3

4.Correlated extended X-ray absorption fine structure and transmission electron microscopy studies the microstructure of low friction Ti-C-N film. Surface & Coatings Technology 266 (2015) 88–92 (SCI), 1/4

5. A smart anticorrosion coating based on hollow silica nanocapsules with inorganic salt in shells. Journal of Coatings Technology and Research (2016) DOI: 10.1007/s11998-016-9830-4 

6. Interface features of carbon nitride films deposited on Si substrate, Vacuum 125C (2016) pp. 36-39 (SCI), 1/4

7.Two-phase nanostructure carbon nitride films prepared by magnetron sputtering and thermal annealing. Surface & Coatings Technology, 2010, 205 (1): 152-157 (SCI)  1/5

8.Improving mechanical properties of a-CNx films by Ti-TiN/CNx gradient multilayer. Applied Surface Science, 2010, 257 (2): 487-494. (SCI) 

9. Interface and superhardness of TiN/CNx multilayer films. Surface & Coatings Technology, 2010, 205 (7): 2386-2392.

10 Synthesis, structure and mechanical properties of fullerene-like carbon nitride films deposited by DC magnetron sputtering. Surface & Coatings Technology, 2010, 205 (7): 2474-2482.

11.Microstructure and mechanical properties of carbon nitride multilayer films deposited by DC magnetron sputtering. Surface & Coatings Technology. 2011, 205 (8-9): 3080-3086. (SCI)  1/5

12.Tribological and mechanical behaviors of TiN/CNx multilayer films deposited by magnetron sputtering. Thin solid films. 2011, 519 (15): 4842-4848 (SCI)  1/5

13 Microstructure, corrosion resistance and biocompatibility of titanium incorporated amorphous carbon. Surface & Coatings Technology, 2011. 206 (1):165-171 (SCI) 1/4

14.ELECTROLESS MULTILAYER FILMS ON DIAMOND/Cu HEAT SINK COMPOSITE MATERIAl 2015 AISM Gulin China(1):165-171