1 Japan Industry Standard, "Method of test for splitting tensile strength of concrete"
2 Japan Industry Standard, "Method of test for compressive strength of concrete"
3 Japan Industry Standard, "Method of tensile test for metallic materials"
4 Sophia, H, "Identification of stiffness reductions using natural frequencies" ASCE 121 (121): 1106-1113, 1995
5 Public works research institute, "Design and constructional manual of steel bridge deck reinforcement by using SFRC" 2009
6 Shi, Z. Y, "Damage localization by directly using incomplete mode shapes" ASCE 126 (126): 656-660, 2000
7 Yong, Xia, "Damage identification of structures with uncertain frequency and mode shape data" 31 (31): 1053-1066, 2002
8 Pandey, A, "Damage detection from changes in curvature mode shapes" 145 (145): 321-322, 1991
9 Juang, J. N, "An eigensystem realization algorithm for modal parameter identification and model reduction" 8 (8): 620-627, 1985
1 Japan Industry Standard, "Method of test for splitting tensile strength of concrete"
2 Japan Industry Standard, "Method of test for compressive strength of concrete"
3 Japan Industry Standard, "Method of tensile test for metallic materials"
4 Sophia, H, "Identification of stiffness reductions using natural frequencies" ASCE 121 (121): 1106-1113, 1995
5 Public works research institute, "Design and constructional manual of steel bridge deck reinforcement by using SFRC" 2009
6 Shi, Z. Y, "Damage localization by directly using incomplete mode shapes" ASCE 126 (126): 656-660, 2000
7 Yong, Xia, "Damage identification of structures with uncertain frequency and mode shape data" 31 (31): 1053-1066, 2002
8 Pandey, A, "Damage detection from changes in curvature mode shapes" 145 (145): 321-322, 1991
9 Juang, J. N, "An eigensystem realization algorithm for modal parameter identification and model reduction" 8 (8): 620-627, 1985