High Strength Ultra-High Ductile Cementitious Composite Developed for Steel-Free Construction

被引：0

作者：

Lu Z. ^{[1
]}

Lin C. ^{[1
]}

Yu J. ^{[1
]}

Yu K. ^{[1
]}

机构：

[1] Research Institute of Structural Engineering and Disaster Reduction, Tongji University, Shanghai

来源：

Yu, Kequan (zjzjykq@163.com) | 2017年 / Science Press卷 / 45期

关键词：

Fracture mechanics; Reactive powder; Ultra-high ductile cementitious composite (UHDCC);

D O I：

10.11908/j.issn.0253-374x.2017.06.014

中图分类号：

学科分类号：

摘要：

In this paper, an ultra-high ductile cementitious composite (UHDCC) with a mixture of reactive powder is prepared based on the design concept of fracture mechanics. High strength and high modulus polyethylene fiber is used as reinforced materials in the composite. Axial compression test, elastic modulus test and four-point bending test are conducted to prove that the ultimate tensile stress strength of the material is up to 20 MPa, the corresponding average tensile strain is close to 9%, and the axial compressive strength exceeds 110 MPa. It is proved by four-point bending test that the flexural performance of UHDCC beam reaches the level of ordinary reinforced concrete beam with 1.5% reinforcement ratio and its ductility is good. © 2017, Editorial Department of Journal of Tongji University. All right reserved.

引用

页码：880 / 884

页数：4

共 25 条

[1] Wille K., Dong J.K., Naaman A.E., Strain-hardening UHP-FRC with low fiber contents, Materials & Structures, 44, 3, (2011)
[2] Cheyrezy M., Maret V., Frouin L., Microstructural analysis of RPC (reactive powder concrete), Cement & Concrete Research, 25, 7, (1995)
[3] Wang S., Wu C., Li V.C., Tensile strain-hardening behavior of polyvinyl alcohol engineered cementitious composite (PVA-ECC), ACI Materials Journal, 98, 6, (2001)
[4] Jun P., Mechtcherine V., Behaviour of strain-hardening cement-based composites (SHCC) under monotonic and cyclic tensile loading. Part 1: experimental, Cement & Concrete Composites, 32, 10, (2010)
[5] Zijl G.P.A.G., Wittmann F.H., Oh B.H., Et al., Durability of strain-hardening cement-based composites (SHCC), Materials & Structures, 45, 10, (2012)
[6] Zijl G.P.A.G., Improved mechanical performance: shear behaviour of strain-hardening cement-based composites (SHCC), Cement & Concrete Research, 37, 8, (2007)
[7] Richard P., Cheyrezy M., Composition of reactive powder concretes, Cement & Concrete Research, 25, 7, (1995)
[8] Zheng W., Luo B., Wang Y., Compressive and tensile properties of reactive powder concrete with steel fibres at elevated temperatures, Construction & Building Materials, 41, 2, (2013)
[9] Yigiter H., Aydin S., Yazici H., Et al., Mechanical performance of low cement reactive powder concrete (LCRPC), Composites Part B: Engineering, 43, 8, (2012)
[10] Richard P., Cheyrezy M., Reactive powder concretes with high ductility and 200-800 MPa compressive strength, ACI Special Publication, 114, (1994)

← 1 2 3 →