Properties of Lightweight Matrix Using Industrial by-Products according to Mixing Ratio of NaOH and KOH
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2018-09-01 https://doi.org/10.14419/ijet.v7i3.34.19385 -
Lightweight matrix, Alkali stimulant, Industrial by-products, Non-cement, Blast furnace salg -
Abstract
Background/Objectives:When producing 1 ton of cement, it produces 0.9 tons of carbon dioxide, so it is very important to reduce the use of cement or to find an alternative material.
Methods/Statistical analysis: In order to replace cement which is frequently used to make lightweight cured products, blends of blast furnace slag, polysilicon and paper ash were used as binders. In order to stimulate the hardening of blast furnace slag, comparative analysis of characteristics of alkali stimulants was carried out by using KOH and NaOH as alkali stimulants.
Findings: In order to improve the foaming performance for the production of lightweight Matrix, we used polysilicon and paper ash as well as blast furnace slag as one of industrial by - product a binder. KOH and NaOH were used as alkali stimulants. The experimental results are as follows.When alkali stimulants are used, the density decreases and the absorption rate increases. It is considered that the use of an alkali stimulant causes air bubbles to occur, resulting in a lower density and an increased absorption rate. The use of NaOH rather than KOH seems to result in better bubble generation. Strength was significantly decreased when alkali stimulants were used, but it was confirmed that the strength of NaOH was increased than that of KOH.
Improvements/Applications: As a result of this study, we will fabricate a lightweight matrix that can be used as a prototype by using NaOH according to KS F 2701 standards.
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References
[1] Park, S.G. (2014). Lightweight Properties of Matrix using Paper Ash according to Replacement Ratios of Fly Ash and Polysilicon Sludge. Journal of the Korean Recycled Construction Resources Institute, 2(2), 166-171.
Retrieved from
http://www.dbpia.co.kr/Article/NODE07020135
[2] Lim, J.G. (2015). Properties of Inorganic Binder Using the Blast Furnace Slag and Polysilicon Sludge. JOURNAL OF THE ARCHITECTURAL INSTITUTE OF KOREA Structure & Construction, 31(6), 43-50.
Retrieved from
http://www.dbpia.co.kr/Article/NODE06363994
[3] Moon, J,H. (2012). Dynamic Property of Binary Carbon Inorganic Composite Based on Polysilicon sludge. ARCHITECTURAL INSTITUTE OF KOREA, 32(2), 551-552. Retrieved from
http://www.dbpia.co.kr/Article/NODE02216868
[4] Lee, S.H. (2014). Properties of Portland Cement Clinker Using Polysilicon Sludge. Journal of the Korean Recycled Construction Resources Institute, 2(4), 328-334.
Retrieved from
http://www.dbpia.co.kr/Article/NODE07020165
[5] Lee, Y. (2017). Properties of Lightweight Matrix Using Paper Ash and Diatomite (Masters dissertation). HanBat National University. Korea.
[6] Kim, W.J. (2015). The Density and Strength Properties According to the Mixing Time of the Lightweight Composites using the Paper Ash. Korea Concrete Institute. 657-658. Retrieved from
http://www.dbpia.co.kr/Article/NODE06358692
[7] Moon. J.H. (2013). The Evaluation of Polysilicon Sludge Application asa Replacement for Cement Admixture(Masters dissertation). HanBat National University. Korea.
[8] Lee, K.P. (2010). A Study on the Strength and Flowing Properties of the Eco-friendly Inorganic composites by using Alkali accelerator and Paper-ash. Korea Concrete Institute. 41-42.
Retrieved from
http://www.dbpia.co.kr/Article/NODE02275605
[9] Yoon, Y.J. (2017). Fundamental Properties of Powdered Alkaline Activated Admixture Blast Furnace Slag Fine Powder Concrete(Masters dissertation). Korea National University of Transportation. Korea.
Retrieved fromhttp://www.riss.kr/link?id=T14545966
[10] Kwak, Y.J. (2013). Engineering PropertyofUsing NaOH Solution's Concentration in Blast Furnace-Based Alkali Activated Mortar (Masters dissertation). CheongJu University. Korea.
[11] Lee, K.P. (2011). Cementless Type Eco-friendly Lightweight Composite Panel Using Industrial by-Product. JOURNAL OF THE ARCHITECTURAL INSTITUTE OF KOREA Structure & Construction, 27(11), 111-118. Retrieved from
http://www.dbpia.co.kr/Article/NODE01734259
[12] Naver Wikipedia
Retrieved from http://terms.naver.com/
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How to Cite
Hyun Shin, J., Gyu, W., & Soo Lee, S. (2018). Properties of Lightweight Matrix Using Industrial by-Products according to Mixing Ratio of NaOH and KOH. International Journal of Engineering & Technology, 7(3.34), 576-579. https://doi.org/10.14419/ijet.v7i3.34.19385Received date: 2018-09-09
Accepted date: 2018-09-09
Published date: 2018-09-01