碳化混凝土再碱化过程中,由于物理和化学作用,对钢筋与混凝土的粘结性能有影响.采用拉拔试验,考虑到电流密度、再碱化时间、碳酸钠溶液浓度等因素研究了再碱化后钢筋混凝土的粘结强度.采用扫描电镜(SEM)分析了混凝土的微观结构,结果表明,再碱化后,钢筋混凝土的粘结强度得到明显提高;电流、碳酸钠溶液浓度以及再碱化时间对再碱化后的粘结强度有显著影响;混凝土的微观结构发生了改变,孔隙率减小,有利于粘结强度的增加.
During the electrochemical realkalisation treatment for carbonated concrete,the bond strength between rebar and concrete is changed due to the physical and chemical action.The pull-out test is used to study the effect of current density,realkalisation time,concentration of sodium carbonate solution,realkalisation time on the bond strength between rebar and concrete.The microstructure of the concrete is studied using scanning electron microscope (SEM).Test results show that after electrochemical realkalisation treatment(ERT),the bond strength of reinforced concrete is increased.Current density,realkalisation time and concentration of sodium carbonate solution have significant effect on the bond strength after ERT.The microstructure of the concrete is changed after ERT.The porosity is decreased,and it makes for the increase of the bond strength.
参考文献
| [1] | Velivasakis E E;Henriksen S K;Whitmore D .Chloride extraction and realkalisation of reinforced concrete stop steel corrosion[J].Journal of Performance of Constructed Facilities,1998,12(02):77. |
| [2] | Ali M G;Rasheeduzzafar .Cathodic protection current accelerates alkali-silica reaction[J].ACI Materials Journal,1993,90(03):247. |
| [3] | Locke C E;Dehghanian C;Gibbs L.Effect of impressed current on bond strength between steel rebar and concrete[A].Anaheim,1983:178. |
| [4] | Rasheeduzzafar Ali M G;Al-Sulaimani G J .Degradation of bond between reinforcing steel and concrete due to cathodic protection current[J].ACI Materials Journal,1993,90(01):8. |
| [5] | Jiang Jhy Chang;Weichung Yeih;Ran Huang .Degradtion of the bond strength between rebar and concrete due to the impressed cathodic current[J].Journal of Marter Sci Techn,1999,7(02):89. |
| [6] | Chang J J .A study of the bond degration of rebar duo to cathodic protection current[J].Cement and Concrete Research,2002,32(05):657. |
| [7] | Ihekwaba N M;Hope B B .Hydrogen uptake and steel properties due to electrochemical chloride extraction from reinforced concrete[J].Materials Science Forum,1998,289-292(01):29. |
| [8] | Neville A M.Properties of concrete[M].England:Longman Group Limited,1995:195. |
| [9] | Marta Castellote;Irene Llorente;Carmen Andrade .In-situ monitoring the realkalisation process by neutron diffraction: Electroosmotic flux and portlandite formation[J].Cement and Concrete Research,2006(5):791-800. |
| [10] | 成立,黄绪泉,王小萍.电化学除盐对混凝土微观结构的影响[J].重庆建筑大学学报,2008(03):138-142. |
| [11] | Francois R;Arnaud M;Arlignie G et al.Method for the mechanicalphysical and chemical study of the steel-concrete interface[J].Materials and Structures,1993,26:575. |
| [12] | Bredenkamp S;Kruger D;Bredenkamp G L .Direct electric curing of concrete[J].Magazine of Concrete Research,1993,45(162):71. |
| [13] | Jiang Jhy Chang;Weichung Yeih;Ran Huang;Jack Maochieh Chi .MECHANICAL PROPERTIES OF CARBONATED CONCRETE[J].Journal of the Chinese Institute of Engineers,2003(4):513-522. |
| [14] | A.Gerdes,F.H.Wittmann.复碱化混凝土孔溶液的pH值[J].建筑材料学报,2003(02):111-117. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%