Browse > Article
http://dx.doi.org/10.6111/JKCGCT.2017.27.4.167

Development of high performance patching repair mortars with light weight and sulfuric acid resistance properties  

Kim, Kyoungmin (Daewoo Institute of Construction Technology)
Park, Junhui (SERIC Research & Development Center)
Ahn, Tae-ho (International Sustainable Engineering Materials(ISEM)Center, Ceramic Materials Institute & Division of Advanced Materials Sci. Eng., Hanyang University)
Publication Information
Journal of the Korean Crystal Growth and Crystal Technology / v.27, no.4, 2017 , pp. 167-172 More about this Journal
Abstract
In this study, high performance patching repair mortars with light weight and sulfuric acid resistance properties were suggested. Their performance estimation were investigated based on KS F 4042 using patching repair mortar with light weight aggregate and soluble polymer of Type I and sulfuric acid resistance mortar of Type II, From these results, it was confirmed that these motors were satisficed and improved by all standard tests of KS F 4042.
Keywords
Patching repair mortar; Light weight aggregate; Sulfuric acid resistance; Soluble polymer; Durability;
Citations & Related Records
연도 인용수 순위
  • Reference
1 C.H. Lee, "Evaluation of durability on domestic repair materials" (Master Thesis, University of Seoul, Seoul, 2007) p. 1.
2 C.S. Lee, H.S. Lee, Y.H. Kim and Y.O. Kim, "An experimental study on the evaluation of durability of domestic repair materials", KSCE Civil Expo 2007, October 10-12, Daegu, Korea (2007) 2354.
3 Y.L. Song, B.Y. Moon, D.Y. Lee, M.C. Han and C.G. Han, "Effect of the desulfurized plaster replacement ratio on the quality of mortar using blast furnace slag powder and cyclic aggregate", JAIK 36 (2016) 341.
4 M.W. Jun, "Evaluation of the performance of polymermodified cement mortar as a repair material" (Master Thesis, Pusan National University, Pusan, 2004) p. 1.
5 J.H. Park, S.Y. Bang, T.H. Ahn and K.M. Kim, "A study on the development of environmental adaptive repair mortars with lightweight properties based on polymer cement", KCI 28 (2016) 411.
6 J.H. Park, S.Y. Bang, T.H. Ahn and K.M. Kim, "properties of repair mortars incorporating pozzolanic materials and bottom ash aggregates with the resistance to sulfuric acid attack", KCI 28 (2016) 69.