Effect of Interaction Between Superplasticizer and Foaming Agent on Pore Size Structure of Super Absorbent Porous Concrete Used in Sponge City

International Concrete Abstracts Portal

The International Concrete Abstracts Portal is an ACI led collaboration with leading technical organizations from within the international concrete industry and offers the most comprehensive collection of published concrete abstracts.

  


Title: Effect of Interaction Between Superplasticizer and Foaming Agent on Pore Size Structure of Super Absorbent Porous Concrete Used in Sponge City

Author(s): Weifeng Feng, Guibo Gao

Publication: Symposium Paper

Volume: 355

Issue:

Appears on pages(s): 439-446

Keywords: PCE, foaming agent, pore structure, water absorption

DOI: 10.14359/51736051

Date: 7/1/2022

Abstract:
Sponge city is also called “water-elastic city” because of its good flexibility in adapting to environmental changes and coping with natural disasters caused by rain. When it rains, the water can be absorbed and stored, and when needed, the stored water can be released and used. Sponge city can not only solve the outstanding problems such as waterlogging disasters, rainwater runoff pollution, and water resource shortages, but also help to restore the urban water ecological environment and bring comprehensive ecological environmental benefits, is one kind of ecology sustainable development city pattern. In the construction of sponge city, the concrete material with high water absorption and water storage is an extremely important building material. In this paper, the effects of different superplasticizer and foaming agents on the properties of porous water-absorbing and water-storing concrete materials are studied, and the influence of the interaction between superplasticizer and chemical foaming agent on its pore structure, compressive strength, and water absorption and water holding capacity was analyzed.

Related References:

1. Wang, L.; Yuan, G, Z.; Lv, P., “Study on the application of pervious concrete in road engineering”. Communications Standardization, V.8,2008,pp.184-186.

2. Wang, Y.; Gi, H, Y.;Feng, W, F.; Dong, H., “Comprehensive applied research of grenn ecological material in sponge city ”. Shaanxi Architecture, V.10,2016,pp.52-59.

3. Liu, Y.; Wang, Q.; Xu, F., “Preparation and versatility of foam concrete ”. Concrete, V.12,2012,pp.120-124.

4. Lei, T, J.; Li, H, R.; Geng, F., “Preparation and properties of new foam concrete foaming agent”. New building materials, V.12,2013, pp.93-96.

5. Huang, H, C., “Experimental study on the influence of foaming agent on the performance of foam concrete”. Fujian building materials, V.9,2016,pp.18-20.

6. Chen, J.; Li, B, X..; Lu, Y, R., “Experimental study on silicate sulphoaluminate cement mixture”. Journal of Chongqing Jianzhu University, V.4,2007,pp.121-124.

7. Wang, S.; Hua, X.; Xu, S, T.; Wang, J, F., Pheological characteristics of portland-sulphur aluminate composite cement slurry. Exploration Engineering (Rock & Soil Drilling and Tunneling).V.10,2016,pp.63-67.

8. Lin, N.; Wang, X, S., “Preliminary study on setting time of composite system of Portland cement and sulphoaluminate cement”. Zhongnan Hydropower, V.3,2008,pp.30-32.

9. GB/T 1346-2011,“Test methods for water requirement of normal consistency , setting time and soundness of the portland cement”,2011.

10. GB/T 17671-1999,“Methods of testing cements-Determination of strength”,1999.

11. JG/T 266-2011,“Foamed concrete”,2011.