1 Wang, Q. Z., "The Flattened Brazilian Disc Specimen Used for Testing Elastic Modulus, Tensile Strength and Fracture Toughness of Brittle Rocks:Analytical and Numerical Results" 41 (41): 245-253, 2004
2 Hondros, G., "The Evaluation of Poisson’s Ratio and the Modulus of Materials of a Low Tensile Resistance by the Brazilian (Indirect Tensile) Test with Particular Reference to Concrete" 10 (10): 243-268, 1959
3 Akazawa, T., "Tension Test Method for Concrete, International Association of Testing and Research Laboratories for Materials and Structures"
4 Zhou, Y., "Suggested Methods For Determining the Dynamic Strength Parameters and Mode-I Fracture Toughness of Rock Materials" 49 : 105-112, 2012
5 Fahad, M. K., "Stresses and Failure in the Diametral Compression Test" 31 (31): 3723-3729, 1996
6 Rodríguez, J., "Splitting Tests:An Alternative to Determine the Dynamic Tensile Strength of Ceramic Materials" 4 (4): C8-101-C108-106, 1994
7 Yoo, Y. -H., "Spherical Nano-Indentation of a Hard Thin Film/Soft Substrate Layered System: II. Evolution of Stress and Strain Fields" 12 (12): 69-78, 2004
8 Yoo, Y. -H., "Spherical Nano-Indentation of a Hard Thin Film/Soft Substrate Layered System: I. Critical Indentation Depth" 12 (12): 59-67, 2004
9 Dai, F., "Semicircular Bend Testing with Split Hopkinson Pressure Bar for Measuring Dynamic Tensile Strength of Brittle Solids" 79 (79): 123903-, 2008
10 Yong Xiao, "Research on the Critical Condition of Brittle-Ductile Transition about Micro-Milling of KDP Crystal and Experimental Verification" 한국정밀공학회 16 (16): 351-359, 2015
1 Wang, Q. Z., "The Flattened Brazilian Disc Specimen Used for Testing Elastic Modulus, Tensile Strength and Fracture Toughness of Brittle Rocks:Analytical and Numerical Results" 41 (41): 245-253, 2004
2 Hondros, G., "The Evaluation of Poisson’s Ratio and the Modulus of Materials of a Low Tensile Resistance by the Brazilian (Indirect Tensile) Test with Particular Reference to Concrete" 10 (10): 243-268, 1959
3 Akazawa, T., "Tension Test Method for Concrete, International Association of Testing and Research Laboratories for Materials and Structures"
4 Zhou, Y., "Suggested Methods For Determining the Dynamic Strength Parameters and Mode-I Fracture Toughness of Rock Materials" 49 : 105-112, 2012
5 Fahad, M. K., "Stresses and Failure in the Diametral Compression Test" 31 (31): 3723-3729, 1996
6 Rodríguez, J., "Splitting Tests:An Alternative to Determine the Dynamic Tensile Strength of Ceramic Materials" 4 (4): C8-101-C108-106, 1994
7 Yoo, Y. -H., "Spherical Nano-Indentation of a Hard Thin Film/Soft Substrate Layered System: II. Evolution of Stress and Strain Fields" 12 (12): 69-78, 2004
8 Yoo, Y. -H., "Spherical Nano-Indentation of a Hard Thin Film/Soft Substrate Layered System: I. Critical Indentation Depth" 12 (12): 59-67, 2004
9 Dai, F., "Semicircular Bend Testing with Split Hopkinson Pressure Bar for Measuring Dynamic Tensile Strength of Brittle Solids" 79 (79): 123903-, 2008
10 Yong Xiao, "Research on the Critical Condition of Brittle-Ductile Transition about Micro-Milling of KDP Crystal and Experimental Verification" 한국정밀공학회 16 (16): 351-359, 2015
11 Frocht, M. M., "Photoelasticity" John Wiley 121-131, 1948
12 Siviour, C. R., "Novel Measurements of Material Properties at High Rates of Strain using Speckle Metrology" 57 (57): 326-332, 2009
13 이수진, "Microstructural Variations and Machining Characteristics of Silicon Nitride Ceramics from Increasing the Temperature in Laser Assisted Machining" 한국정밀공학회 15 (15): 1269-1274, 2014
14 Pramanik, B., "Indirect Tensile Characterization of Graphite Platelet Reinforced Vinyl Ester Nanocomposites at High-Strain Rate" 4 (4): 201-214, 2014
15 Grantham, S. G., "High-Strain Rate Brazilian Testing of an Explosive Simulant using Speckle Metrology" 15 (15): 1867-1870, 2004
16 Siviour, C. R., "High Strain Rate Properties of a Polymer-Bonded Sugar: Their Dependence on Applied and Internal Constraints" 464 (464): 1229-1255, 2008
17 Hertz, H., "Gesammelte Werke (Collected Works)"
18 최윤종, "Fracture Analysis for Ceramic Disk with Semi-Elliptical Crack and Pore" 한국정밀공학회 15 (15): 433-438, 2014
19 최원석, "Fractal Dimensional Analysis on Glass Fracture" 한국정밀공학회 16 (16): 1655-1660, 2015
20 Wang, Q., "Dynamic Split Tensile Test of Flattened Brazilian Disc of Rock with SHPB Setup" 41 (41): 252-260, 2009
21 Xia, K., "Dynamic Rock Tests using Split Hopkinson (Kolsky) Bar System-A Review" 7 (7): 27-59, 2015
22 Es-Saheb, M. H., "Diametral Compression Test: Validation using Finite Element Analysis" 57 (57): 501-509, 2011
23 Sivakugan, N., "Determination of c and π of Rocks from Indirect Tensile Strength and Uniaxial Compression Tests" 8 (8): 59-65, 2014
24 Zhang, Q. B., "Determination of Mechanical Properties and Full-Field Strain Measurements of Rock Material under Dynamic Loads" 60 : 423-439, 2013
25 Wang, Q.-Z., "Determination of Fracture Toughness KIC by using the Flattened Brazilian Disk Specimen for Rocks" 64 (64): 193-201, 1999
26 Carneiro, F. L. L. B., "Concrete Tensile Strength, Union of Testing and Research Laboratories for Materials and Structures"
27 Wright, P. J. F., "Comments on an Indirect Tensile Test on Concrete Cylinders" 7 (7): 87-96, 1955
28 Swab, J. J., "Analysis of the Diametral Compression Method for Determining the Tensile Strength of Transparent Magnesium Aluminate Spinel" 172 (172): 187-192, 2011
29 Zhang, Q. B., "A Review of Dynamic Experimental Techniques and Mechanical Behaviour of Rock Materials" 47 (47): 1411-1478, 2014
30 Jia-Chang Wang, "A Novel Fabrication Method of High Strength Alumina Ceramic Parts Based on Solvent-based Slurry Stereolithography and Sintering" 한국정밀공학회 14 (14): 485-491, 2013
31 Dong, S., "A Finite Element Analysis for using Brazilian Disk in Split Hopkinson Pressure Bar to Investigate Dynamic Fracture Behavior of Brittle Polymer Materials" 25 (25): 943-952, 2006
32 Martin, E., "A Brazilian Disk Test for the Evaluation of the Shear Strength of Epoxy-Joined Ceramics" 9 (9): 808-815, 2012