DEPARTMENT OF CIVIL ENGINEERING, TSINGHUA UNIVERSITY, CHINA
Bachelor, Civil Engineering, 1995-2000
DEPARTMENT OF CIVIL ENGINEERING, TSINGHUA UNIVERSITY, CHINA
PhD, Civil Engineering, 2000-2005
Dr. Feng’s research field is the high-performance structures with emerging materials and advanced construction technics for civil engineering, including the following interests.
ALL-FRP (FIBER REINFORCED POLYMER) STRUCTURES AND FRP HYBRID STRUCTURES, including FRP-concrete-steel hybrid columns, FRP bridges and FRP-concrete hybrid bridges, FRP woven web structures, FRP transmission towers, FRP-aluminum hybrid structures, and FRP tendons/cables.
FRP STRENGTHENING EXISTING STRUCTURES, including FRP strengthening steel to resist buckling or to resist fatigue failure, steel pipeline strengthening, and anti-collapse strengthening for reinforced concrete structures.
ADVANCED CONCRETE STRUCTURES, including durable concrete structures, 3D-printed cementitious structures, cold-formed thin-walled steel reinforced concrete structures, industrialized precast concrete structures, and bionic engineering design.
INTEGRATION OF STRUCTURE AND FUNCTION FOR SUSTAINABLE DEVELOPMENT, including corrosion resistant structures in server environments, sandwich panels integrated solar cell, life-cycle behavior of desulfurization system in power stations, FRP gas flues and chimneys, and maintenance-free offshore structures.
DEVELOPMENT AND BEHAVIOR STUDY ON INNOVATIVE FRP-CONCRETE HYBRID STRUCTURES FROM OCEAN AND FOR OCEAN, National Natural Science Foundation of China (NSFC) Project No. 51478246 (2015-2018)
This project is to present an innovative FRP-concrete hybrid structure system from ocean and for ocean. The structure is composed of the fabricated FRP beam-slab system and the column of sea sand concrete-filled FRP tubes embedded FRP pultruded profiles. Two themes on materials and structures are included: the durability of FRP and sea sand concrete in the marine environment, and the short- and long-term performance of this innovative FRP-concrete hybrid structure including columns, beam-slabs and joints.
MECHANICAL BEHAVIOR AND MECHANICAL-PHOTOVOLTAIC PROPERTIES OF CURVED FRP SANDWICH PANELS WITH FLEXIBLE SOLAR CELL SKIN, National Natural Science Foundation of China (NSFC) Project No.51278276 (2013-2016)
This project is to present an innovative building system integrating functions and structure, which is assembled with FRP sandwich panels skinned with flexible solar cells to form the non-linear shapes. The key techniques and design theory are to be developed. The large size panel sample will be manufactured and tested.
LIGHTWEIGHT FRP STRUCTURE SYSTEM FOR BUILDINGS AND BRIDGES, National Program on Key Basic Research Project (973 Program) No. 2012CB026200 (2012-2016)
This project is to present the lightweight structure systems made of FRP and to study the structural behavior. The weight, ductility, and strength reliability are considered synthesizedly from the component level to the structure level.
EXCELLENT YOUNG SCIENTISTS FUND awarded by the National Natural Science Foundation of China (NSFC), 2015.
DISTINGUISHED YOUNG SCHOLAR AWARD by the Committee of FRP and Application of the China Civil Engineering Society (CCES), 2015.
EXCELLENT AWARD FOR INNOVATION IN STANDARDIZATION OF BUILDING MATERIALS by China Building Materials Federation, 2015.
NATIONAL TEACHING ACHIEVEMENT AWARD, China, Second Prize, 2014, 2nd of 5 awarded.
TEACHING ACHIEVEMENT AWARD of Tsinghua University, First Prize, 2014, 5th of 5 awarded.
NATIONAL AWARD FOR SCIENCE AND TECHNOLOGY PROGRESS, China, Second Prize, 2013, 4th of 10 awarded.
YOUNG ELITE TEACHER of Beijing Higher Education, Beijing, 2013.
BEST PAPER AWARD of the 22nd National Conference of Structural Engineering, China, First Prize, 2013, 1st author.
BEST PAPER AWARD of Natural Sciences Research of Xinjiang Province, Second Prize, 2012, 2nd author.
BEST PAPER AWARD of the Chinese Ceramic Society (CCS), China, 2012, 1st author.
BEST PAPER AWARD of the 19th National Conference of FRP Composite, Third Prize, China, 2012, 2nd author.
TEACHING ACHIEVEMENT AWARD of Tsinghua University, Second Prize, 2012, 2nd of 5 awarded.
TEACHING ACHIEVEMENT AWARD of Tsinghua University, First Prize, 2012, 1st of 5 awarded.
BEST TEACHING SOFTWARE AWARD of Tsinghua University, Second Prize, 2012, 1st of 3 awarded.
TEACHING ACHIEVEMENT AWARD of Beijing Higher Education, Beijing, First Prize, 2012, 2nd of 5 awarded.
YOUNG SCIENTIST AWARD of the Chinese Ceramic Society (CCS), China, 2011.
CCEXPO-JEC INNOVATION AWARD, China Composites Expo, China, 2010.
TEACHING ACHIEVEMENT AWARD of Tsinghua University, Second Prize, 2010, 2nd of 5 awarded.
BEST PAPER AWARD of the China Civil Engineering Society (CCES), China, Third Prize, 2009, 2nd author.
BEST PAPER AWARD for Graduates of Journal of Progress in Steel Building Structures (Chinese Journal), China, First Prize, 2009, 2nd author.
TEACHING INNOVATION AWARD, Beijing, 2008.
SCIENCE AND TECHNOLOGY PROGRESS AWARD of China Metallurgical Group Corporation (MCC), China, Grand Prize, 2008, 11th of 15 awarded.
FIRST PRIZE, BEST PLAN AWARD, AND BEST PRESENTATION AWARD of the 5th Competition of Teaching Skill for Young Teachers of Universities in Beijing, Beijing, 2007.
BEST PAPER AWARD for Honorable Mention: Applied Research Paper published in the Journal of Composites for Construction, ASEC, 2007, 1st author.
FIRST PRIZE of the Competition of Teaching Skill for Young Teachers of Tsinghua University, 2006.
BEST PAPER AWARD of the 2nd International Conference on FRP Composites in Civil Engineering (CICE 2004), Australia, 2004, 1st author.
TEACHING ACHIEVEMENT AWARD of Tsinghua University, Second Prize, 2004, 3rd of 5 awarded.
NATURAL SCIENCE AWARD of the Chinese Ministry of Education, China, First Prize, 2003, 5th of 10 awarded.
[1] Lili HU, Xiao-Ling ZHAO, Peng FENG. Fatigue behaviour of cracked high strength steel plates strengthened by CFRP, Journal of Composites for Construction, ASCE, to be online published
http://dx.doi.org/10.1061/(ASCE)CC.1943-5614.0000698
[2] Wen LIU, Shilang XU, Peng FENG. Fatigue damage propagation models for ductile fracture of ultrahigh toughness cementitious composites, International Journal of Damage Mechanics, online published
http://dx.doi.org/10.1177/1056789516635727
[3] Peng FENG, Jie WANG, Ye TIAN, Yi WANG. Mechanical behavior and design of FRP structural members at high and low service temperatures, Journal of Composites for Construction, ASCE, 2016, 04016021
http://dx.doi.org/10.1061/(ASCE)CC.1943-5614.0000676
[4] Shi CHENG, Peng FENG, Yu BAI, Lieping YE. Load-strain model for steel-concrete-FRP-concrete columns in axial compression, Journal of Composites for Construction, ASCE, 2016, 04016017
http://dx.doi.org/10.1061/(ASCE)CC.1943-5614.0000664
[5] Peng FENG, Lili HU, Peng QIAN, Lieping YE. Compressive bearing capacity of CFRP-aluminum alloy hybrid tubes, Composite Structures, 2016, 140, p.749-757
http://dx.doi.org/10.1016/j.compstruct.2016.01.041
[6] Peng FENG, Xinmiao MENG, Hanqing ZHANG. Mechanical behavior of FRP sheets reinforced 3D elements printed with cementitious materials, Composite Structures, 2015, 134, p.331-342
http://dx.doi.org/10.1016/j.compstruct.2015.08.079
[7] Kailai DENG, Peng PAN, Xin NIE, Xiaoguang XU, Peng FENG. Study of glass fiber-reinforced polymer-steel buckling restraint braces, Journal of Composites for Construction, ASCE, 2015, 19, 04015009
http://dx.doi.org/10.1061/(ASCE)CC.1943-5614.0000567
[8] Chao WU, Peng FENG, Yu BAI. Comparative study on static and fatigue performances of pultruded GFRP joints using ordinary and blind bolts, Journal of Composites for Construction, ASCE, 2015, 19, 04014065
http://dx.doi.org/10.1061/(ASCE)CC.1943-5614.0000527
[9] Peng FENG, Xinmiao MENG, Jian-fei CHEN, Lieping YE. Mechanical properties of structures 3D printed with cementitious powders, Construction and Building Materials, 2015, 93, p.486-497
http://dx.doi.org/10.1016/j.conbuildmat.2015.05.132
[10] Yu BAI, Peng FENG, Chao DING, Yue TANG, Wenlong CHENG. Self-luminous fiber-reinforced polymer composites for structural applications, Journal of Materials in Civil Engineering, ASCE, 2015, 27, 04014120
http://dx.doi.org/10.1061/(ASCE)MT.1943-5533.0001060
[11] Peng FENG, Shi CHENG, Yu BAI, Lieping YE. Mechanical behavior of concrete-filled square steel tube with FRP-confined concrete core subjected to axial compression, Composite Structures, 2015, 123, p.312-314
http://dx.doi.org/10.1016/j.compstruct.2014.12.053
[12] Nan HU, Peng FENG, Gong-Lian DAI. Structural art: past, present and future, Engineering Structures, 2014, 79, p.407-416
http://dx.doi.org/10.1016/j.engstruct.2014.08.040
[13] Peng FENG, Jie WANG, Yi WANG, David LOUGHERY, Ditao NIU. Effects of corrosive environments on properties of pultruded GFRP plates, Composites Part B: Engineering, 2014, 67, p.427-433
http://dx.doi.org/10.1016/j.compositesb.2014.08.021
[14] Peng FENG, Lili HU, Xiao-Ling ZHAO, Lu CHENG, Shanhua XU. Study on thermal effects on fatigue behavior of cracked steel plates strengthened by CFRP sheets, Thin-Walled Structures, 2014, 82, p.311-320
http://dx.doi.org/10.1016/j.tws.2014.04.015
[15] Peng FENG, Pan ZHANG, Xinmiao MENG, Lieping YE. Mechanical analysis of stress distribution in a carbon fiber reinforced polymer rod bonding anchor, Polymers, 2014, 6, p.1129-1143
http://dx.doi.org/10.3390/polym6041129
[16] Chao WU, Peng FENG, Yu BAI, Ye LU. Epoxy enhanced by recycled milled carbon fibres in adhesively-bonded CFRP for structural strengthening, Polymers, 2014, 6, p.76-92
http://dx.doi.org/10.3390/polym6010076
[17] Peng FENG, Yanhua ZHANG, Yu BAI, Lieping YE. Combination of bamboo filling and FRP wrapping to strengthen steel members in compression, Journal of Composites for Construction, ASCE, 2013, 17, p.347-356
http://dx.doi.org/10.1061/(ASCE)CC.1943-5614.0000353
[18] Peng FENG, Yanhua ZHANG, Yu BAI, Lieping YE. Strengthening of steel members in compression by mortar-filled FRP tubes, Thin-Walled Structures, 2013, 64, p.1-12
http://dx.doi.org/10.1016/j.tws.2012.11.001
[19] Jiaqi YANG, Scott T.SMITH, Peng FENG. Effect of FRP-to-steel bonded joint configuration on interfacial stresses: Finite element investigation, Thin-Walled Structures, 2013, 62, p.215-228
http://dx.doi.org/10.1016/j.tws.2012.07.020
[20] Nan HU, Peng FENG, Gonglian DAI. The gift from nature: bio-inspired strategy for developing innovative bridges, Journal of Bionic Engineering, 2013, 10, p.405-414
http://dx.doi.org/10.1016/S1672-6529(13)60246-2
[21] Peng FENG, Sawulet BEKEY, Yanhua ZHANG, Lieping YE, Yu BAI. Experimental study on buckling resistance technique of steel members strengthened using FRP, International Journal of Structural Stability and Dynamics, 2012, 12, p.153-178
http://dx.doi.org/10.1142/S0219455412004604
[22] Peng FENG, Lieping YE, Jinguang TENG. Large-span woven web structure made of fiber reinforced polymer, Journal of Composites for Construction, ASCE, 2007, 11, p.110-119
http://dx.doi.org/10.1061/(ASCE)1090-0268(2007)11:2(110)