Methods for Evaluating Mechanical Properties of Cement-based Tubes

被引：0

作者：

Nie G. ^{[1
]}

Bao Y. ^{[1
]}

Wan D. ^{[1
]}

Tian Y. ^{[1
]}

机构：

[1] State Key Laboratory of Green Building Materials, China Building Materials Academy, Beijing

来源：

Bao, Yiwang (ywbao@ctc.ac.cn) | 2018年 / Cailiao Daobaoshe/ Materials Review卷 / 32期

关键词：

Bending strength; Cement-based tubes; Closed ring method; Elastic modulus; Split ring method; Three-point bending method;

D O I：

10.11896/j.issn.1005-023X.2018.12.025

中图分类号：

学科分类号：

摘要：

Cement-based tubes are widely used in the municipal, industrial, energy and other fields, and the accurate determination of the mechanical properties is very important to the structural performance evaluation and quality control of the tube components. To solve the difficult technical issues for the mechanical determination of the cement-based tubes, the analytic formulas of the elastic modulus and bending strength were deduced based on the theory of material mechanics for the split ring and closed ring samples, respectively. The split ring method, closed ring method and three-point bending method were used to evaluate the elastic modulus and bending strength of the split ring, closed ring and beam pieces which were prepared by the sulphoaluminate cement mortar, respectively. The experimental results show that the elastic modulus and bending strength measured by the three methods are very close, and demonstrate the validity and correctness of the split ring method and closed ring method. © 2018, Materials Review Magazine. All right reserved.

引用

页码：2072 / 2077and2084

共 16 条

[1] Rostami V., Shao Y., Boyd A.J., Durability of concrete pipes subjected to combined steam and carbonation curing, Construction and Building Materials, 25, (2011)
[2] Fuente A., Escariz R.C., Figueiredo A.D., Et al., A new design method for steel fibre reinforced concrete pipes, Construction and Building Materials, 30, (2012)
[3] Binici H., Durgun M.Y., Rizaoglu T., Et al., Investigation of durability properties of concrete pipes incorporating blast furnace slag and ground basaltic pumice as fine aggregates, Scientia Iranica, 19, 3, (2012)
[4] He T., Duan M.L., Wang J.L., Et al., On the external pressure capacity of deepwater sandwich pipes with inter-layer adhesion conditions, Applied Ocean Research, 52, (2015)
[5] Noushini A., Aslani F., Castel A., Et al., Compressive stress-strain model for low-calcium fly ash-based geopolymer and heat-cured Portland cement concrete, Cement and Concrete Composites, 73, (2016)
[6] Nath P., Sarker P.K., Flexural strength and elastic modulus of ambient-cured blended low-calcium fly ash geopolymer concrete, Construction and Building Materials, 130, (2017)
[7] Chen B., Cai Y.B., Ding J.T., Et al., Measurement of early age concrete elastic modulus based on thermal stress test, Journal of Building Materials, 19, 4, (2016)
[8] Tang J.Y., Gao D.Y., Zhu H.T., Et al., Influence of steel fiber on flexural property of high strength concrete, Journal of Building Materials, 13, 1, (2010)
[9] Emiroglu M., Beycioglu A., Yildiz S., ANFIS and statistical based approach to prediction the peak pressure load of concrete pipes including glass fiber, Expert Systems with Applications, 39, (2012)
[10] Rao S.K., Sravana P., Rao T.C., Experimental studies in ultrasonic pulse velocity of roller compacted concrete pavement containing fly ash and M-sand, International Journal of Pavement Research and Technology, 9, (2016)

← 1 2 →