(2017), The Engineering Properties of High Fluidity mortar with High Volume Slag
Cement., Journal of the Korea Institute for Structural Maintenance and Inspection,
a, 21, 12-20.
(2017), The Fundamental Properties of High Fluidity Mortar with Activated Ternary
Blended Slag Cement., Journal of the Korea Institute for Structural Maintenance and
Inspection, b, 21, 74-82.
(2012), Effect of Natural Pozzolana and Marble Powder on the Properties of Selfcompacting
Concrete., Constr. Build. Mater., 31, 251-257.
(2012), Properties of Self-compacting Mortar Made with Various Types of Sand., Cement
Concr. Compos., 34, 1167-1173.
(2006), A Porosimetric Study of Calcium Sulfoaluminate Cement Pastes Cured at Early
Ages., Cement Concr. Res., 36, 1042-1047.
(2016), Physico-chemical Interaction Between Mineral Admixtures and OPC-calcium Sulfoaluminate
(CSA) Cements and Its Influence on Early-age Expansion., Cement Concr. Res., 80, 10-20.
(2009), Properties of Mixing Proportions with Compressive Strength Level of High
Flowing Self-Compacting Concrete., Journal of the Korean Society of Civil Engineers
A, a, 29(2A), 163-169.
(2009), Properties of Hydration Heat with Compressive Strength Level of High Flowing
Self-Compacting Concrete., Journal of the Korean Society of Civil Engineers A, b,
29(5A), 531-541.
(2010), High Fluidity Concrete., Magazine of the Korea Concrete Institute, a, 22,
45-47.
(2010), Chloride Ion Penetration Properties of Normal Strength High-fluidity Concrete
Using Lime Stone Powder., Journal of the Korea Institute for Structural Maintenance
and Inspection, b, 14(4), 160-168.
(2012), An Experimental Study on the Influence of the Qualities of Ordinary Portland
Cement on the Flowability of High Flow Concrete., Journal of the Korea Concrete Institute,
24, 37-44.
(2016), Absorption Properties of Coarse Aggregate according to Pressurization for
Development of High Fluidity Concrete under High Pressure Pumping., Journal of the
Korea Institute for Structural Maintenance and Inspection, 20(3), 122-129.
EFNARC (2002), Specification and Guidelines for Self-Compacting Concrete.
EFNARC (2005), The European Guidelines for Self-Compacting Concrete Specification.
(2006), The Effect of Fly Ash and Limestone Fillers on the Viscosity and Compressive
Strength of Self-compacting Repair Mortars., Cement Concr. Res., 36, 1719-1726.
(2001), The Influence of Mineral Admixtures on the Rheology of Cement Paste and Concrete.,
Cement Concr. Res., 31, 245-255.
(2010), Combined Effect of Mineral Admixtures with Superplasticizers on the Fluidity
of the Blended Cement Paste., Constr. Build. Mater., 24, 1418-1423.
(2010), Prediction of Setting Time of the Concrete Incorporating Blast Furnace Slag
with Equivalent Age Method., Journal of The Architectural Institute of Korea Structure
& Construction, 26, 71-78.
(2013), An Experimental Study on the Mixing of Normal Strength and High Fluidity
Concrete Using Ground Granulated Blast Furnace Slag., Journal of the Architectural
Institute of Korea Structure & Construction, 29(6), 81-88.
(2015), Effects of Replacement Ratio and Fineness of GGBFS on the Hydration and Pozzolanic
Reaction of High-Strength High-Volume GGBFS Blended Cement Paste., Journal of the
Korea Concrete Institute, 27, 115-125.
(2012), Effects of Aggregate Grading on the Performance of High-Flowing Concrete
with General Strength., Journal of the Korea Institute for Structural Maintenance
and Inspection, 16(6), 63-72.
(2015), Shrinkage Properties and Cracking of High-Strength Concrete containing High-volume
Blast Furnace Slag., Journal of The Architectural Institute of Korea Structure & Construction,
31, 51-58.
(2000), A Study on the Engineering Properties of Concrete Using Blast-furnace Slag
Powder., Journal of the Korea Concrete Institute, 12, 49-58.
(2013), The Analysis of Crack in PSC Girder Using High Flowing Concrete., Journal
of the Korea Institute for Structural Maintenance and Inspection, 17(3), 126-135.
(2010), Relationship between Fluidity and Stability of Self-consolidating Mortar
Incorporating Chemical and Mineral Admixtures., Constr. Build. Mater., 24, 1262-1271.
(2016), Effects of Red Mud on Properties of Self-compacting Mortar., J. Clean. Prod.,
135, 1170-1178.
(2013), Effect of Mineral Admixtures on Fluidity and Stability of Self-consolidating
Mortar Subjected to Prolonged Mixing Time., Constr. Build. Mater., 40, 1029-1037.
(2004), New Applications of Calcium Sulfoaluminate Cement., Cement Concr. Res., 34,
671-676.
(2005), Rheological Properties of Cementitious Materials Containing Mineral Admixtures.,
Cement Concr. Res., 35, 842-849.
(2009), Effect of Particle Size Distribution of Binder on the Fluidity of High Flowing
Concrete., Journal of the Architectural Institute of Korea Structure & Construction,
25(8), 167-174.
(2012), Blends of Limestone Powder and Fly-ash Enhance the Response of Self-compacting
Mortars., Constr. Build. Mater., 27, 398-403.
(2005), From Mini-cone Test to Abrams Cone Test: Measurement of Cement-based Materials
Yield Stress Using Slump Tests., Cement Concr. Res., 35, 817-822.
(2005), A Study on the Applicability of Vibration in Fresh High Fluidity Concrete.,
Cement Concr. Res., 35, 1834-1845.
(2015), Fresh-state Properties of Self-compacting Mortar and Concrete with Combined
Use of Limestone Filler and Fly ash., Mater. Res., 18(5), 1097-1108.
(2012), Viscosity and Hardened Properties of Self-compacting Mortars with Binary
and Ternary Cementitious Blends of Fly Ash and Silica Fume., Constr. Build. Mater.,
37, 326-334.