Byun, J. K. (2015). "Restrained stress and sracking behaviour in early age concrete–Test
and engineering approach." Ph.D. Dissertation, Dong-A University.
Gutsch, A.W. (1999). "Stoffeigenschaften jungen betons – Versuche und modellle." Deutscher
Ausschuß für Stahlbeton, Heft 495, Beuth Verlag (in German).
Korea Road and Transportation Association (2012). "Korean highway bridge design code
(Limit States Design Method)." (in Korean).
Lura, P. (2003). "Autogenous deformation and internal curing of concrete." Delft University
Press, pp. 80-82.
Ministry of Land, Transport and Maritime Affairs (MLTMA) (2009). Standard Specification
for Concrete (in Korean).
Röhling, S. (2005). "Zwangsspannungen infolge hydratationswärme." Verlag+Technik GmbH,
Düsseldorf, pp. 5-10 and pp. 188-190 (in German).
Rostásy, F. S. (2001). "Frühe risse in massigen betonbauteilen ingenieurmodelle für
die planung von gegenmaßnahmen." Deutscher Ausschuß für Stahlbeton, Heft 520, Beuth
Verlag (in German).
Schleeh, W. (1962). "Die zwängspannungen in einseitig festgehaltenen wandscheiben."
Beton- und Stahlbetonbau 57 H.3, 1962, pp. 64-72 (in German).
Schöppel, K., Plannerer, M. and Springenschmidt, R. (1994). "Determination of restraint
stresses and of material properties during hydration of concrete with the temperature
stress testing machine." Proceeding of the International RILEM Symposium on Thermal
Cracking in Concrete at Early Ages, pp. 153-160.
Springenschmidt, R., Breitenbücher, R. and Mangold, M. (1994). "Development of the
cracking frame and the temperature stress testing machine." Proceeding of the International
RILEM Symposium on Thermal Cracking in Concrete at Early Ages, pp. 137-144.
Staffa, M. (1993). "Vermeidung von hydratationsrissen in stahlbetonwänden." Dissertation,
Technische Universität Berilin (in German).
TNO (2014). DIANA user's manual, TNO DIANA Bv.