Wang. New building materials. China Electric Power Press,1April, 997.
Wang. Building materials science (first edition). China Water Resources and Hydropower Press, 1997 February.
Wang. Building materials science (revised edition). China Water Resources and Hydropower Press, June 2000.
, edited by Wang. Building decoration material technology. Dalian University of Technology Press, 1995 August.
Wang. Building codes. China Building Materials Publishing House (2nd Edition), June 2006.
Editor Wang. Technical principles of building materials. China Building Materials Industry Press, March 2006.
Wang, Editor-in-Chief, Property Management, Peking University Publishing House, 2006.
Wang, editor-in-chief, Regulations on Property Management, Peking University Publishing House, 2006.
Wang, Building Decoration Materials, Peking University Publishing House, 2006.
Wesley Wang, Detail Drawing of Masonry Design and Structure (by Christian Beer) (5th Edition),
Chemical Industry Press, 2007 65438+ 10 1) Wang, Zhang Qi. Research status of corrosion behavior of reinforced concrete structures. Technology and application of building materials
2) Wang, Liu Jialu. Living environment and green building materials. Housing industry
3) Wang. Research progress on high technology of industrial solid waste in China. World scientific and technological research and development
4) Wang, Yang Xin. Research progress on toughening methods and evaluation methods of high performance concrete. Proceedings of the 5th National Symposium on High Performance Concrete, Shenyang: Liaoning University Press.
5) Wang, Zheng, Ren. Present situation and progress of high fluidity of high performance concrete. Proceedings of the 5th National Symposium on High Performance Concrete, Shenyang: Liaoning University Press.
⑥ Wang,,. Study on rheological properties of high performance formwork concrete. Proceedings of the 5th National Symposium on High Performance Concrete, Shenyang: Liaoning University Press, April 20, 2004, 4.20, P232.
⑦ Wang, Wang and Cao. Summary of research on concrete structure model. Proceedings of the 5th National Symposium on High Performance Concrete, Shenyang: Liaoning University Press, April 20, 2004.
8) Wang and Wang Danjiang. Research status of freeze-thaw damage of concrete. Proceedings of the 5th National Symposium on High Performance Concrete, Shenyang: Liaoning University Press, April 20, 2004.
9) Wang, Wang. Application of fractal in concrete. Proceedings of the 5th National Symposium on High Performance Concrete, Shenyang: Liaoning University Press, April 20, 2004.
10) Wang. Research progress on high technology of industrial solid waste in China. Proceedings of the International Symposium on Sustainable Development of Center for Transportation Research and Education Concrete Technology, Iowa State University, USA. Beijing, China
1 1) Cao, Wang. Study on non-sintering MgO-MgCL2-H2O ceramsite. Proceedings of the International Symposium of Center for Transportation Research and Education, Sustainable Development and Concrete Technology, Iowa State University, USA. Beijing, China
12) Wang, Wang. Research and application progress of fly ash activation technology. Proceedings of the International Symposium on Sustainable Development and Concrete Technology at the Transportation Research and Education Center of Iowa State University, USA. Beijing, China
13) Ren, Wang. Study on high content of fly ash in Dipy building formwork concrete. Proceedings of the International Symposium on Sustainable Development and Concrete Technology at the Transportation Research and Education Center of Iowa State University, USA. Beijing, China
14) Dong, Kang Dejun, Wang. Summary of pozzolanic effect of fly ash in fly ash concrete. Foreign building materials science and technology
And Wang. Preparation of silica gel and ultrafine powder from fly ash. New building materials, 2004(6): 19-2 1.
16) Wang He and Ren Qifang. Application of industrial waste residue in glass-ceramics. Research and Application of Green Building Materials, Building Materials Industry Press.
17) Wang,. Present situation and development trend of wood calcium water reducer. Research and Application of Green Building Materials, Building Materials Industry Press.
18) Wang, Yang Xinchao, Cao. Feasibility study on co-production technology of coal-fired power generation and cement production. World scientific and technological research and development
19) Wang BM, Wang Lijun, Zain, Lai FC. Development of expansive agent for alkali slag concrete. Journal of Wuhan University of Technology-Material Science Edition
20) with the king. Study on coal gangue low clinker cement. New Century Cement News, 2004 supplement, 56 issues in total/Cement 2004.
2 1) Wang. Research progress of nano-materials in concrete. Concrete, 2004, 1 1,181:18-21.
22) Wang, Xing Ke. Research progress of acrylic water reducer. Guangdong Building Materials, 2004, 12: 8-9.
23), Wang,. Preparation and characterization of nano-mesoporous silica hollow gel by atmospheric drying. Silicate journal
24) with the king. The research progress of porous silica hollow gel prepared by air pressure drying method is discussed. Journal of materials science.
25) Cha Jianming, Zhang and Wang. Research and application of biological ceramsite filter material in sewage treatment. Guangdong Building Materials, 2005,65438+1October 20th, the first issue: 8- 10.
26) Zhang and Wang. Technical research and application of ceramsite filter material for sewage treatment. Southwest water supply and drainage.
27), Wang,. Study on fly ash cement with less clinker. Technology and Application of Building Materials, No.6, 2004: 8- 10.
28) Zou Yunfeng, Wang, Study on new thermal insulation mortar for masonry. Technology and Application of Building Materials, No.6, 2004: 1-5.
29), Wang,, Cao. Research progress of low clinker cement. Cement technology, 2005, 1: 28-3 1.
30) Wang, Zhao Guofan. Discussion on mix proportion design of lightweight aggregate concrete. Journal of Cement and Concrete Research, Volume 35, Issue
3 1), Wang, Bao,. Numerical simulation of resistance characteristics of brittle materials under biaxial stress. Journal of Dalian University of Technology, Volume 45, No.3, 2005: 427-432.
32), Wang. Effect of stress parallel to crack plane on subcritical crack propagation in glass under biaxial stress. Key engineering materials
33), Wang. Numerical method of glass fracture under biaxial stress. Key engineering materials
34) Cha Jianming, Zhang, Wang, Research and application of biological ceramsite filter material in sewage treatment, Guangdong Building Materials, the first issue of 2005, P8- 10.
35) Zhang, Wang, Research and application of ceramsite filter material in sewage treatment technology, southwest water supply and drainage.
36), Wang, Research on less clinker fly ash cement, technology and application of building materials, comprehensive utilization of fly ash, p8- 10, No.6, 2004, P32-34, No.0/kloc-0, 2005.
37) Zou Yunfeng, Wang, Research on New Masonry Thermal Insulation Mortar, Technology and Application of Building Materials, No.6, 2004, p 1-5.
38), Wang, Cao, Research progress of less clinker cement, Cement Technology, 2005, 1 p28-3 1.
39) Wang Lijiu, Zhao Guofan, Research on Mix Design of Lightweight Aggregate Concrete, Research on Cement and Concrete
40), Wang, Bao, Numerical simulation of resistance characteristics of brittle materials under biaxial stress, Journal of Dalian University of Technology, 2005, Vol.45, No.3, 427-432.
4 1), 10,000, the influence of stress parallel to crack plane on subcritical crack propagation in glass under biaxial stress, the key engineering material
Numerical method of glass fracture under biaxial stress, key engineering materials
43) Wang, Li Zongmei, Preparation of concrete water reducer by nitric acid oxidation of lignite, Liaoning Building Materials, June 2005.
44) Wang, Cao Qingjian, Mathematical Simulation of Concrete Meso-structure Based on Network Model, Technology and Application of Building Materials, June 2005.
45) Wang, Jiang Zuqiang, Experimental Study on Cement Grinding Aids, Technology and Application of Building Materials, June 2005.
46), Wang, Research progress in preparation of porous silica aerogels by atmospheric drying method, material guide.
47) application of industrial waste residue fly ash in glass-ceramics.
48) Compaction coefficient of concrete mix design, collected by Fawang, Zheng and Journal of shenyang jianzhu university, 2006.4EI.
Study on preparation of mesoporous silica aerogels by atmospheric drying, Wang, Journal of Inorganic Chemistry, 2 1, 2005.
50) Study on concrete cement stone model based on aggregate ratio Cao and Wang Journal of Wuhan University of Technology
Study on preparation of silica gel and ultrafine powder from 5 1) fly ash and Wang Xin's new building material 2004.6 p 19-2 1
52) Study on Durability of Magnetized Water Concrete Zhao Wang Concrete (20 1) p 1-4 in the seventh issue in 2006.
53) Experimental Study on Filter Concrete (Wang Chi, Yu Concrete, Phase VI, 2006, p 1-454)
Preparation and Characterization of Silica Aerogels by Rapid Drying at Atmospheric Pressure, Preparation and Characterization of Nano-mesoporous Silica Aerogels by Atmospheric Pressure Drying, Journal of Silica Retrieval of Wang, Liu, 2005,23 (8) 963-967
56) Study on rapid synthesis of silica aerogels by a new atmospheric drying process; journal of dalian university of technology
57) Research progress in preparation of porous silica aerogels by atmospheric drying; Material guide king.
58) Effect of heat treatment on silica aerogels prepared by environmental drying. Time-consuming, Wang, Journal of Materials Science and Engineering; Technology. SCI retrieval journals
59) Study on Preparation of Silica Gel and Ultrafine Powder from Fly Ash, Wang, Liu, New Building Materials 2004, 6: 9-2 1.
60) Highly porous silica aerogels were synthesized by a novel rapid atmospheric drying process. , Wang, Liu Liaoning Natural Science Academic Achievement Award.