Effects of an AMPS-modified Polyacrylic Acid Superplasticizer on the Performance of Concrete Materials
来源期刊:Journal Of Wuhan University Of Technology Materials Science Edition2015年第3期
论文作者:陈宝璠
文章页码:533 - 540
摘 要:A self-made 2-acrylamide-2-methyl propylene sulfonic(AMPS)-modified polyacrylic acid superplasticizer and two other commercially available superplasticizers with different molecular structures are used in this study to investigate the effect of an AMPS-modifi ed polyacrylic acid superplasticizer on the properties of concrete materials. In the experiments, initial and 1.5 h slumps over time after admixtion are determined by adding different dosages of three superplasticizers into the premixed concrete to characterize the slump loss resistance of the premixed concrete. The water-reducing rates of three different types of concrete are determined to characterize the water-reducing capacity of the concrete with each superplasticizer. The 3, 7 and 28 d compressive strength is determined to characterize the mechanical properties of the concrete with each superplasticizer. In the meanwhile, 1, 1.5 and 2.0 h slump loss rates over time after admixtion are determined by adding different dosages of the three superplasticizers into the high-performance concrete(HPC) to characterize the slump loss resistance of HPC. The 7, 28, 60 and 90 d compressive strength is determined to characterize the compressive properties of HPC with each superplasticizer. The dry shrinkage rates of three different types of HPC are determined with each superplasticizer. Electric fl ux after standard curing for 56 d and chloride ion diffusion coeffi cient after curing for 28 d of HPC are determined to characterize the impermeability of HPC with each superplasticizer. The cross-section was examined using a scanning electron microscopy(SEM) system. Results demonstrate that the AMPS-modifi ed polyacrylic acid superplasticizer has better water-reducing effect and slump than the two commercially available polyacrylic acid superplasticizers. The AMPS-modifi ed polyacrylic acid superplasticizer also shows signifi cant improvement of the compressive strength, especially in comprehensive performance of HPC. In conclusion, the AMPS-modifi ed polyacrylic acid superplasticizer is particularly suitable for the preparation of HPC.
陈宝璠
摘 要:A self-made 2-acrylamide-2-methyl propylene sulfonic(AMPS)-modified polyacrylic acid superplasticizer and two other commercially available superplasticizers with different molecular structures are used in this study to investigate the effect of an AMPS-modifi ed polyacrylic acid superplasticizer on the properties of concrete materials. In the experiments, initial and 1.5 h slumps over time after admixtion are determined by adding different dosages of three superplasticizers into the premixed concrete to characterize the slump loss resistance of the premixed concrete. The water-reducing rates of three different types of concrete are determined to characterize the water-reducing capacity of the concrete with each superplasticizer. The 3, 7 and 28 d compressive strength is determined to characterize the mechanical properties of the concrete with each superplasticizer. In the meanwhile, 1, 1.5 and 2.0 h slump loss rates over time after admixtion are determined by adding different dosages of the three superplasticizers into the high-performance concrete(HPC) to characterize the slump loss resistance of HPC. The 7, 28, 60 and 90 d compressive strength is determined to characterize the compressive properties of HPC with each superplasticizer. The dry shrinkage rates of three different types of HPC are determined with each superplasticizer. Electric fl ux after standard curing for 56 d and chloride ion diffusion coeffi cient after curing for 28 d of HPC are determined to characterize the impermeability of HPC with each superplasticizer. The cross-section was examined using a scanning electron microscopy(SEM) system. Results demonstrate that the AMPS-modifi ed polyacrylic acid superplasticizer has better water-reducing effect and slump than the two commercially available polyacrylic acid superplasticizers. The AMPS-modifi ed polyacrylic acid superplasticizer also shows signifi cant improvement of the compressive strength, especially in comprehensive performance of HPC. In conclusion, the AMPS-modifi ed polyacrylic acid superplasticizer is particularly suitable for the preparation of HPC.
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