Effect of Rice Straw Amount Portion on Physical Properties of Adding Admixtures Hollow Block

Jun Liu; Hong Hong Zhou; Bing Zhang

doi:10.4028/www.scientific.net/AMR.450-451.727

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 450-451Effect of Rice Straw Amount Portion on Physical...

Effect of Rice Straw Amount Portion on Physical Properties of Adding Admixtures Hollow Block

Abstract:

This study presents the impact of rice straw as additive material on physical properties of hollow block as compressive, flexural strength and water absorption, Softening coefficient. Through testing the hollow block physical properties, the of rice straw additive was studied. When the rice straw amount portion was 0~15%, with rice straw amount portion increased, compressive, flexural strength and water resistance effect of adding one kind of early strength agent and mixing Al2(SO4)3, CaCl2 early strength agent hollow block decreased gradually. When the rice straw amount portion was 10%, adding early strength agent Al2(SO4)3, CaCl2 ，the 28d compressive strength of hollow block was minimum, 3.5MPa; while mixing CaCl2, Al2(SO4)3 early strength agent, the hollow block softening coefficient was 0.76, water absorption rate was 3.9%, meet the requirements of national standard of common concrete hollow block. Through the experiment, the conclusion is mixing early strength agent Al2(SO4)3, CaCl2, Obviously superior to adding one kind of —early strength agent—Al2(SO4)3 or CaCl2 on the physical properties of hollow block.

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Periodical:

Advanced Materials Research (Volumes 450-451)

Pages:

727-732

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.450-451.727

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Online since:

January 2012

Authors:

Jun Liu, Hong Hong Zhou, Bing Zhang

Keywords:

Amount Portion, Hollow Block, Rice Straw

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References

[1] M.Z. Fan, J.M. Dinwoodie, P.W. Bonfield, M.C. Breese . Dimensional instability of cement bonded particle board: Modelling CBPB as a composite of two materials. Wood Science Technological, 2004.373-383.

DOI: 10.1007/s00226-003-0210-8

Google Scholar

[2] Xiao Liguang, Li Huisheng, Zhang Qizhi. Journal of Jilin Architecture and Civil Engineering Institute, vol. 22 (2005), p.1.

Google Scholar

[3] Zhao Jixin, Li Riqiang. Sci-Tech Information Development & Economy, vol. 20 (2010), p.189.

Google Scholar

[4] Guo Xingkai. Our country man-made crop straw board development prospects. Artificial board communication. (2010).

Google Scholar

[5] V.F. Rasskazov, G.D. Ashmarin and A.N. Livada. Glass and Ceramics. vol. 66 (2009), p.3.

Google Scholar

[6] Yi Min Wei, Bunichiro Tomita. The Japan Wood Research Society. (2001), p.437.

Google Scholar

[7] Wen Junqiang, Chen Yimin, Zhang Hongtao. Our country inorganic cementitious material based straw materials development present situation. The Tenth National Chemistry and application of cement and concrete technology conference abstracts, (2007).

Google Scholar

[8] Sheng Li. Journal of Anhui agricultural science. vol. (2010), p.11335.

Google Scholar

[9] A.Mansour, J.Srebric and B.J. Burley. Journal of Applied Sciences Research, vol. (2007), p.1571.

Google Scholar