杨树桐

发布者:王博成发布时间:2017-05-04浏览次数:41574


姓名:杨树桐                                               
职称教授、博士生导师

职务:副院长

专业:土木工程  

所在单位(系、所、中心等):工程学院土木工程系
通讯地址:青岛市黄岛区滨海街道三沙路1299号 中国海洋大学工程学院

电子信箱:shutongyang2013@163.com

办公室电话:86-532-60891548

传真:86-532-60891550


学习经历
1. 1998.9~2002.7
:中国海洋大学工程学院建筑工程专业,获工学学士学位

2. 2002.9~2008.9:大连理工大学土木水利学院结构工程专业硕博连读,获工学博士学位


工作经历
1. 2007. 3~2007. 5
:香港城市大学建筑系科研助理

2. 2008. 9~2009. 9:山东科技大学土木建筑学院道桥系讲师

3. 2010. 8~2010. 11:澳大利亚西澳大学工学部机械工程学院应用力学与材料研究所访问学者

4. 2009.10至今:中国海洋大学工程学院土木工程系讲师、副教授、教授、博士生导师


研究方向/岗位职责
1.
混凝土断裂力学
2.
混凝土结构加固与锚固理论及工程应用

3. 复材—海洋骨料混凝土结构

4.固废资源化在土木工程材料中的应用


讲授课程
1.
本科生课程: 材料力学
2.
研究生课程: 数值计算方法、混凝土断裂力学


主要科研项目:

1.国家自然科学基金面上项目:海水冻融与干湿循环双重作用下碱激发海砂再生骨料混凝土性能劣化规律与提升技术(2022.1~2025.12项目主持人

2.国家自然科学基金面上项目:FRP筋海水珊瑚骨料混凝土力学性能与耐久性能研究(2018.1~2021.12项目主持人

3.国家自然科学基金面上项目:FRP筋嵌入法加固混凝土结构及粘结界面的断裂力学性能研究(2014.1~2017.12项目主持

4.国家自然科学基金青年基金项目:基于断裂力学的砂浆锚杆与混凝土粘结锚固理论及试验研究(2010.1~2012.12项目主持人

5.山东省自然科学基金重点项目:基于非线性断裂力学的混凝土强度理论及其在梁抗弯设计中的应用(2021.1~2023.12项目主持人

6.山东省重点研发项目:装配组合结构楼板嵌入式钢次梁-混凝土框架主梁连接节点研发与关键技术(2019.8~2022.8项目主持人

7.青岛市科技惠民示范引导专项:碱激发再生骨料混凝土制备技术及在滨海地区路面工程中的应用(2021.1~2023.1项目主持人

8.青岛市应用基础研究项目:玄武岩纤维筋锚杆在滨海地区支护工程中的应用基础研究(2013.9~2015.9项目主持人


学术兼职:
1.
青岛市力学学会副理事长

2. 山东省人工智能学会智慧建造专业委员会副主任委员

3. 中国大坝工程学会大坝混凝土与岩石断裂力学专业委员会专家委员


学术成就、奖励及荣誉:

12010 大连理工大学优秀博士学位论文

22011 湖北省科技进步一等奖(总排名8

32016 青岛市自然科学奖(总排名1

42014 中国海洋大学“第十六届天泰优秀人才奖”

52019 中国海洋大学“第二十一届天泰优秀人才奖”


代表性论著*为通讯作者)

1. Shutong Yang*, Zhongke Sun, Junhao Wang, Tiange Yang, Zhenhua Ren, Tian Lan. Closed-form solution for predicting tensile strength and fracture toughnessof ultra-high-performance concrete. Cement and Concrete Composites, 2023, 136: 104860.SCIEI检索)

2. Shutong Yang*, Mingxin Wang, Tian Lan, Shutong Liu*, Zhongke Sun. Fracture model for predicting tensile strength and fracture toughness of concrete under different loading rates. Construction and Building Materials, 2023, 365: 129978.SCIEI检索)

3. Shutong Yang*, Chang Liu, Zhongke Sun, Mingqi Xu, Yaodong Feng. Effects of resin pre-coating treatment and fibre reinforcement on adhesive bonding between CFRP sheet and concrete. Composite Structures, 2022, 292: 115610.SCIEI检索)

4. Shutong Yang, Junhao Wang, Kun Dong*, Xiaoqi Zhang, Zhongke Sun. A predictive solution for fracture modeling of alkali-activated slag and fly ash blended sea sand concrete after exposure to elevated temperature. Construction and Building Materials, 2022, 329: 127111.SCIEI检索)

5. Shutong Yang*, Tian Lan, Zhongke Sun, Mingqi Xu, Mingxin Wang, Yaodong Feng. A predictive model to determine tensile strength and fracture toughness of 3D printed fiber reinforced concrete loaded in different directions. Theoretical and Applied Fracture Mechanics, 2022, 119: 103309.SCIEI检索)

6. Shutong Yang*, Tiange Yang, Zhongke Sun, Zhenhua Ren. A predictive model for determining shear strength and shear fracture energy of FRP bars in alkali-activated slag seawater coral aggregate concrete. Journal of Building Engineering, 2022, 59: 105085.SCIEI检索)

7. Shutong Yang*, Miao Yu, Kun Dong, Yushan Yang. Local bond strength prediction of deformedreinforcing bars in concrete consideringheterogeneity at interface regions. Magazine of Concrete Research, 2022, 74(5): 251–270.SCIEI检索)

8. Zhongke Sun, Shutong Yang*, Meiyan Hang, Junhao Wang, Tiange Yang. Optimization design of ultrahigh-performance concrete based on interaction analysis of multiple factors. Case Studies in Construction Materials, 2022, 16: e00858.SCIEI检索)

9. Shutong Yang*, Linzhen Li, Zhongke Sun, Junhao Wang, Qianhui Guo, Yushan Yang. A closed-form fracture model to predict tensile strength and fracturetoughness of alkali-activated slag and fly ash blended concrete made bysea sand and recycled coarse aggregate. Construction and Building Materials, 2021, 300: 123976.SCIEI检索)

10. Shutong Yang*, Chaohui Zang, Jinjin Xu, Guoxi Fan. Determination of fracture parametersof seawater sea sand concrete based on maximum fracture load. Journal of Materials in CivilEngineering-ASCE, 2020, 32(1): 04019315:1-11.SCIEI检索)

11. Shutong Yang, Miao Yu, Kun Dong*, Yushan Yang. Properties of alkali-resistant glass fiberreinforced coral aggregate concrete. Materials, 2020, 13(16): 3450.SCIEI检索)

12. Shutong Yang*, Xianshun Zhang, Miao Yu, Jie Yao. An analytical approach to predictfracture parameters of coral aggregate concrete immersed in seawater. Ocean Engineering,2019, 191: 106508:1-14.SCIEI检索)

13. Weiying Xu, Shutong Yang*, Chengji Xu, He Sun. Study on fracture properties ofalkali-activated slag seawater coral aggregate concrete. Construction and Building Materials,2019, 223: 91-105.SCIEI检索)

14. Shutong Yang*, Jinjin Xu, Chaohui Zang, Rui Li, Qiubo Yang, Shuguang Sun. Mechanicalproperties of alkali-activated slag concrete mixed by seawater and sea sand. Construction andBuilding Materials, 2019, 196: 395-410.SCIEI检索)

15. Shutong Yang*, Chao Yang, Meilin Huang, Yang Liu, Jitong Jiang, Guoxi Fan. Study on bond performance between FRP bars and seawater coral aggregate concrete. Constructionand Building Materials, 2018, 173: 272-288.SCIEI检索)

16. Shutong Yang*, Yang Liu, Xiaoliang Xu, Jiazong Gong, Chao Yang. Determination of boundary effect on mode II fracture energy of FRP sheet-to-concrete bonded joints. Engineering Fracture Mechanics, 2017, 181: 130-142. SCIEI检索)

17. Shutong Yang*, Yujia Chen, Derun Du, Guoxi Fan. Determination of boundary effect on shear fracture energy at steel bar-concrete interface. Engineering Fracture Mechanics, 2016, 153: 319-330. SCIEI检索)

18. Shutong Yang*, Xiaoqiang Yue, Xiaosong Liu, Yao Tong. Properties of self-compacting lightweight concrete containing recycledplastic particles. Construction and Building Materials, 2015, 84: 444-453. SCIEI检索)

19. Shutong Yang*, Xiaozhi Hu, Kezhi Leng, Yalin Liu. Correlation between Cohesive Crack-Tip Local Fracture Energy and Peak Load in Mortar Specimens. Journal of Materials in Civil Engineering-ASCE, 2014, 26(10): 04014069.SCIEI检索)

20. Shutong Yang*, Weiping Huang, Yalin Liu. Push-out test to study bond properties of mortar-concrete interface. Magazine of Concrete Research, 2014, 66(21): 1104-1115.SCIEI检索)

21. Shutong Yang*Xiaozhi Hu, Zhimin Wu. Influence of local fracture energy distribution on maximum fracture load of three-point-bending notched concrete beams. Engineering Fracture Mechanics, 2011, 78(18): 3289-3299.SCIEI检索)





Resume in English

YANG Shutong               
Title:Professor, Doctoral supervisor, Vice dean
Department: Department of civil engineering in college of engineering, Ocean University of China
Address:1299 Sansha Road, Qingdao, P. R. China
E-mail: shutongyang2013@163.com

Office Phone: 86-532-60891548

Fax: 86-532-60891550


Education
1. 1998.9~2002.7: Ocean University of China, Eng. B in Architectural Engineering

2. 2002.9~2008.9: Dalian University of Technology, Ph.D in Structural Engineering


Work Experience

1. 2007. 3~2007. 5: Research Assistant in Department of Architecture in City University of Hong Kong

2. 2008. 9~2009. 9: Lecturer in College of Architecture and Civil Engineering in Shandong University of Science and Technology

3. 2010. 8~2010. 11Visiting Associate Professor in School of Mechanical Engineering in the University of Western Australia

4. 2009.10~NowLecturer, Associate professor, Professor, Doctoral supervisor in College of Engineering in Ocean University of China


Research Interests / responsibilities
1. Fracture mechanics of concrete

2. Strengthening and anchorage of concrete structures

3. FRP reinforced ocean aggregate concrete structures

4. Application of solid waste recycling in construction materials


Courses

1. Mechanics of Materials

2. Methods of Numerical Computation

3. Fracture Mechanics of Concrete


Research Projects

1. Be in Charge of “Performance degradation and improvement technology ofalkali-activated sea sand recycled aggregate concrete under the dualaction of freeze-thaw and dry-wet cycles by seawater” supported by National Science Foundation of China (from 2022.1 to 2025.12)

2. Be in Charge of “Study on mechanical properties and durability of FRP bar reinforced coral concrete” supported by National Science Foundation of China (from 2018.1 to 2021.12)

3. Be in Charge of Study on fracture mechanical properties in NSM FRP strengthenedconcrete structures and interfaces supported by National Science Foundation of China (from 2014.1 to 2017.12)

4. Be in Charge of Theoretical and Experimental Study on Bond Performance between Grouted Anchors and Concrete Based on Fracture Mechanicssupported by National Science Foundation of China (from 2010.1 to 2012.12)

5. Be in Charge of “Strength theory of concrete and its application in design of concrete beams in bending based on fracture mechanics” supported by Major Program of Natural Science Foundation of Shandong Province (from 2021.1 to 2023.12)

6. Be in Charge of “Development and key technique of connecting joint between concrete frame main beam and inserted steel secondary beam with fabricated composite structure slab” supported by Key research and development program of Shandong Province (from 2019.8 to 2022.8)

7. Be in Charge of “Production technique of alkali-activated recycled aggregate concrete and its application in road engineering in coastal regions” supported by Special project of science and technology benefiting the people of Qingdao (from 2021.1 to 2023.1)

8. Be in Charge of “Basic Research on Application of Basalt FRP Rods in Supporting Engineering in Coastal Regions” supported by BasicResearch for Application of Qingdao (from 2013.9 to 2015.9)


Major Publication (*Corresponding author):

1. Shutong Yang*, Zhongke Sun, Junhao Wang, Tiange Yang, Zhenhua Ren, Tian Lan. Closed-form solution for predicting tensile strength and fracture toughnessof ultra-high-performance concrete. Cement and Concrete Composites, 2023, 136: 104860.

2. Shutong Yang*, Mingxin Wang, Tian Lan, Shutong Liu*, Zhongke Sun. Fracture model for predicting tensile strength and fracture toughness of concrete under different loading rates. Construction and Building Materials, 2023, 365: 129978.

3. Shutong Yang*, Chang Liu, Zhongke Sun, Mingqi Xu, Yaodong Feng. Effects of resin pre-coating treatment and fibre reinforcement on adhesive bonding between CFRP sheet and concrete. Composite Structures, 2022, 292: 115610.

4. Shutong Yang, Junhao Wang, Kun Dong*, Xiaoqi Zhang, Zhongke Sun. A predictive solution for fracture modeling of alkali-activated slag and fly ash blended sea sand concrete after exposure to elevated temperature. Construction and Building Materials, 2022, 329: 127111.

5. Shutong Yang*, Tian Lan, Zhongke Sun, Mingqi Xu, Mingxin Wang, Yaodong Feng. A predictive model to determine tensile strength and fracture toughness of 3D printed fiber reinforced concrete loaded in different directions. Theoretical and Applied Fracture Mechanics, 2022, 119: 103309.

6. Shutong Yang*, Tiange Yang, Zhongke Sun, Zhenhua Ren. A predictive model for determining shear strength and shear fracture energy of FRP bars in alkali-activated slag seawater coral aggregate concrete. Journal of Building Engineering, 2022, 59: 105085.

7. Shutong Yang*, Miao Yu, Kun Dong, Yushan Yang. Local bond strength prediction of deformedreinforcing bars in concrete consideringheterogeneity at interface regions. Magazine of Concrete Research, 2022, 74(5): 251–270.

8. Zhongke Sun, Shutong Yang*, Meiyan Hang, Junhao Wang, Tiange Yang. Optimization design of ultrahigh-performance concrete based on interaction analysis of multiple factors. Case Studies in Construction Materials, 2022, 16: e00858.

9. Shutong Yang*, Linzhen Li, Zhongke Sun, Junhao Wang, Qianhui Guo, Yushan Yang. A closed-form fracture model to predict tensile strength and fracturetoughness of alkali-activated slag and fly ash blended concrete made bysea sand and recycled coarse aggregate. Construction and Building Materials, 2021, 300: 123976.

10. Shutong Yang*, Chaohui Zang, Jinjin Xu, Guoxi Fan. Determination of fracture parametersof seawater sea sand concrete based on maximum fracture load. Journal of Materials in CivilEngineering-ASCE, 2020, 32(1): 04019315:1-11.

11. Shutong Yang, Miao Yu, Kun Dong*, Yushan Yang. Properties of alkali-resistant glass fiberreinforced coral aggregate concrete. Materials, 2020, 13(16): 3450.

12. Shutong Yang*, Xianshun Zhang, Miao Yu, Jie Yao. An analytical approach to predictfracture parameters of coral aggregate concrete immersed in seawater. Ocean Engineering,2019, 191: 106508:1-14.

13. Weiying Xu, Shutong Yang*, Chengji Xu, He Sun. Study on fracture properties ofalkali-activated slag seawater coral aggregate concrete. Construction and Building Materials,2019, 223: 91-105.

14. Shutong Yang*, Jinjin Xu, Chaohui Zang, Rui Li, Qiubo Yang, Shuguang Sun. Mechanicalproperties of alkali-activated slag concrete mixed by seawater and sea sand. Construction andBuilding Materials, 2019, 196: 395-410.

15. Shutong Yang*, Chao Yang, Meilin Huang, Yang Liu, Jitong Jiang, Guoxi Fan. Study on bond performance between FRP bars and seawater coral aggregate concrete. Constructionand Building Materials, 2018, 173: 272-288.

16. Shutong Yang*, Yang Liu, Xiaoliang Xu, Jiazong Gong, Chao Yang. Determination of boundary effect on mode II fracture energy of FRP sheet-to-concrete bonded joints. Engineering Fracture Mechanics, 2017, 181: 130-142. 

17. Shutong Yang*, Yujia Chen, Derun Du, Guoxi Fan. Determination of boundary effect on shear fracture energy at steel bar-concrete interface. Engineering Fracture Mechanics, 2016, 153: 319-330.

18. Shutong Yang*, Xiaoqiang Yue, Xiaosong Liu, Yao Tong. Properties of self-compacting lightweight concrete containing recycledplastic particles. Construction and Building Materials, 2015, 84: 444-453.

19. Shutong Yang*, Xiaozhi Hu, Kezhi Leng, Yalin Liu. Correlation between Cohesive Crack-Tip Local Fracture Energy and Peak Load in Mortar Specimens. Journal of Materials in Civil Engineering-ASCE, 2014, 26(10): 04014069.

20. Shutong Yang*, Weiping Huang, Yalin Liu. Push-out test to study bond properties of mortar-concrete interface. Magazine of Concrete Research, 2014, 66(21): 1104-1115.

21. Shutong Yang*Xiaozhi Hu, Zhimin Wu. Influence of local fracture energy distribution on maximum fracture load of three-point-bending notched concrete beams. Engineering Fracture Mechanics, 2011, 78(18): 3289-3299.