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会议时间：2018-12-17 08:00至 2018-12-19 18:00结束
会议地点： 西安 详细地址会前通知
所有的录用论文将由 Science Publishing Group出版，录用文章出版于如下期刊：
American Journal of Civil Engineering (AJCE)
ISSN Print: 2330-8729 ISSN Online: 2330-8737
American Journal of Mechanics and Applications (AJMA)
ISSN Print: 2376-6115 ISSN Online: 2376-6131
Science Discovery (SD)
ISSN Print: 2331-0642 ISSN Online: 2331-0650
(以上合作期刊可被中知网及部分国外的检索机构检索，如WorldCat, Electronic Journals Library, Zeitschriftendatenbank, EZB, Academickeys, ResearchBib, Polish Scholarly Bibliography, Wissenschaftszentrum Berlin等)
Dr. Kung-Chung Hsu, Professor
Department of Chemistry, National Taiwan Normal University, Taiwan
Biography: Dr. Kung-Chung Hsu received Ph.D in Department of Chemical Engineering at The Penn State University, in 1985. He worked as a senior scientist in the R & D Department of China Steel Corp. in 1985-1990. He was an Associated Professor in 1990-1996, and has been a professor in the Department of Chemistry of National Taiwan Normal University, Taipei, Taiwan, since 1996. Dr. Hsu has research interests in (1) preparation and application of dispersing agents in ceramic materials, (2) preparation and development of superplasticizer and self-curing agents in concrete, and (3) preparation and application of nano powder and graphene/polymer composites. So far he has published more than 50 peer-reviewed papers and obtained over 20 patents.
Topic: Pozzolanic Material/Hydrogel Composites: Synthesis and Applications in Concrete
Abstract: Superabsorbent polymers (SAP) or hydrogels can absorb water up to thousands of times its dry weight. Their high absorption property enables SAPs to be used as a concrete internal curing agent which can effectively delay the decrease in internal humidity, mitigate the drying shrinkage and autogenous shrinkage of concrete. Currently, crosslinked polyacrylic acid (PAA) and acrylic acid-co-acrylamide (P(AA/Am) are mainly used as an internal curing agent. Several papers indicated that incorporation of these hydrogels caused a reduction of compressive strength of the resulting cementitious materials.
To resolve the problem mentioned above, several pozzolanic material-containing P(AA/Am) hydrogel composites (P(AA/Am)/Po) were prepared. The pozzolanic materials such as fly ash and silica fume were used. The water absorption behavior of P(AA/Am)/Po in the pore solutions was studied. The prepared polymer composites were added in mortars and the effects of Po content on the properties of cementitious materials were investigated. The results indicated that the water absorbency of hydrogel composites in the pore solution was higher than the pure hydrogel without Po present. Mortars with P(AA/Am)/Po composite showed higher compressive strength and lower drying shrinkage than those with P(AA/Am). The reasons are that the Po-containing composite has higher compressive strength than the pure hydrogel. Furthermore, the pozzolanic material inside the composite could proceed the pozzolanic reaction with the pore solution and formed C-S-H gels.