高大晓

发布者:薛一发布时间:2017-05-04浏览次数:8167

姓名:高大晓
职称/职务:讲师

专业:机械设计及其自动化

所在单位(系、所、中心):工程学院机电系
通讯地址:青岛松岭路238号 中国海洋大学工程学院

电子信箱:gaodaxiao@ouc.edu.cn

办公室电话: 0532-66781131

传真:

学习经历
1. 1988.09-1992.07 山东工业大学焊接工艺及设备专业,获工学学士;

2. 2002.03-2004.07 天津大学机械制造及其自动化专业,获工学硕士;

3. 2005.03-2008.03 天津大学机械制造及其自动化专业,获工学博士。

工作经历
1.1992.08-1998.02 青岛自行车公司助力车研究所

2. 1998.03-2005.02 青岛平度职教中心中德双元制管理处

3.2008.06至今 中国海洋大学

研究方向/岗位职责

1. TRIZ理论及其应用

2.自然能源理论与应用

3.纳米、原子材料的制备及纳米加工技术

4.自然农业技术

5.冷核裂聚变技术

讲授课程
1.本科生课程: 机械工程控制基础、现代机械设计理论与方法

2.研究生课程: 创新设计与方法

科研项目:

1. 一种新的石墨烯生成方法的试验研究,横向课题,2014.6-2016.12,项目负责人

2. 基于惯性的永磁直线波浪能发电装置的基础研究,山东省自然科学基金,2012.08-2015.  08,项目负责人

3. 基于惯性的波浪能发电装置的发电机理和试验研究,青岛市基础研究计划项目,2012.07- 2014.7,第2申请人

代表性论著:
1. Daxiao Gao, Fangjie Wang, Zongyu Chang et al. Analysis and simulation on a novel ocean wave converter,2012 International Conference on Materials for Renewable Energy & Environment, 2012,2: 757-761.

2. 高大晓,王方杰,史宏达等,国外波浪能发电装置的研究进展,海洋开发与管理,2012.11.

3. 高大晓, 任成祖, 王志强等,铸铁基金刚石微粉砂轮电火花精密整形的实时监控,天津大学学报,2008.1.41(1):97-102.

4. 任成祖,高大晓,靳新民,铸铁基金刚石微粉砂轮电火花整形机理分析,中国机械工程,2008.3.19(5):579-584.

5. 高大晓,任成祖,王志强等,铸铁基金刚石微粉砂轮的电火花整形试验研究,天津大学学报,2007.5.40(5):584-588.

6. Chengzu Ren, Daxiao Gao, Lianhong Zhang,et al. Sphering mechanism for the green ceramic balls ground with the two-wheels grinding technique, Key Engineering Materials, 2005: 280-283.

申请的专利

1.高大晓,常宗瑜,陈通,一种新型的海带收割装置,CN201520194379.42015.09,实用新型专利。

2.高大晓,张超,王方杰,薄板气体保护焊冷弧焊的焊接装置,CN201120147272.6,2012.3,实用新型专利。

3.高大晓,赵林,常宗瑜,薄板气体保护焊冷弧焊的焊接方法及装置,CN201110120402.1,在审,发明专利。

Resume in English

GAO Daxiao
Title: Lecturer
Department: Mechanical Engineering
Address: Engineering College, Ocean University of China, 238 Songling Road, Qingdao, P. R. China, 266100
E-mail: gaodaxiao@yahoo.com.cn

Education
2005.03-2008.03 Tianjin University, Ph. D. in Mechanical Manufacture and Automation 2002.03-2004.07 Tianjin University, Eng. M. in Mechanical Manufacture and Automation
1988.09-1992.07 Shandong University of Technology, Eng. B. in Welding technology and equipment
Work Experience
1992.08-1998.02 Aided-bicycleResearch Center of Qingdao Bicycle Company

1998.03-2005.02 Qingdao  Vocational Education Center

2008.5-NowOcean University of China
Research Interests / responsibilities  
1.TRIZ Theoryand Application

2.Natural Energy Theory and Application

3.Nano-material and Mono-atom Material Preparation, Nano-fabrication Technology.

4.Natural Agricultural Technology.

5.Cold Nuclear Fission and Fusion Technology.

Courses
Cybernetics Foundation for Mechanical Engineering
Modern Mechanical  Design Theory and Methodology

Method of innovation and design

Research Projects
1. “Experimental Studies on a New Generated Method of Graphene” (from 2014 to 2016).

2. Be in charge of “Fundamental research on linear permanent magnet wave energy generator based on inertial motion” supported by Science Fundation of Shandong Province(from 2012 to 2015).
3. Key project participant of “Principle and experiment research on wave energy converter based on inertial motion ” supported by Science Fundation of Qingdao municipal government(from 2012 to 2014).
Major Publication:
1. Daxiao Gao, Fangjie Wang, Zongyu Chang et al. 2012 International Conference on Materials for Renewable Energy & Environment, 2012, 2: 757-761.
2. Gao Daxiao, Wang Fangjie, Shi Hongda et al. Development of wave energy converter abroad, Ocean Development and Management, 2012.11.
3. Gao Daxiao, Ren Chengzu, Wang Zhiqiang et al. Real-Time Monitoring and Controlling of Electro-discharge Precision Truing of Cast-Iron-Bonded Fine Grain Diamond Wheel,Journal of Tianjin University, 2008.1.41(1):97-102.

4. Ren Chengzu, Gao Daxia, Jin Xinmin, Study on the Mechanism of Electro-discharge Truing of Cast-iron-bonded Fine-grain Diamond Wheel, China mechanical engineer, 2008.3.19(5):579-584.
5. Gao Daxiao, Ren Chengzu, Wang Zhiqiang et al. Electro-discharge Truing of Cast Iron Bonded Fine Abrasive Diamond Wheel, Journal of Tianjin University, 2007.5.40(5):584-588.
6. Chengzu Ren, Daxiao Gao, Lianhong Zhang et al. Sphering mechanism for the green ceramic balls ground with the two-wheels grinding technique, Key Engineering Materials, 2005: 280-283.