Abstract
The subject of predicting and evaluating the influence of dynamic effect in materials appears to be a subject of increasing awareness and importance to the scientific community. In Civil Engineering Technology this problem is considered as a most important and timely topic particularly as it relates to the establishment of appropriate design methodology associated with masonry and concrete material structures of both the reinforced and non-reinforced types.
Keywords
- Compressive Strength
- Uniaxial Compressive Strength
- Plain Concrete
- Fibre Reinforce Concrete
- Dynamic Tensile Strength
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
This is a preview of subscription content, log in via an institution.
Buying options
Tax calculation will be finalised at checkout
Purchases are for personal use only
Learn about institutional subscriptionsPreview
Unable to display preview. Download preview PDF.
References
Atchley, B. L., and Furr, H. L., Strength and Energy Absorption Capabilities of Plain Concrete Under Dynamic and Static Loading, ACI Journal November (1967) 745–756.
Bazant, Z. P., Endochronic Inelasticity and Incremental Plasticity, International Journal of Solids and Structures 16 no. 9, Sept. (1978), 151–165.
Bazant, Z. P., A New Approach to Inelasticity and Failure of Concrete, Sand, and Rock: Endochronic Theory Proceedings of the 11th Annual Meeting, Society of Engineering Science, G. J. Dvorak, ed., ( Duke University, Durham, NC, 1876 ), pp. 158–159.
Bhargave, J., and Rehnstrom, A., Dynamic Strength of Polymer Modified and Fiber-Reinforced Concretes, Cement and Concrete Research 7 (1977), 199–207.
Bicanic, N. and Zienkiewicz, O. C., Constitutive Model for Concrete Under Dynamic Loading, Earthquake Engineering and Structural Dynamics 1 (1983), 689–710.
Birkimer, D. L. and Lindemann, R., Dynamic Tensile Strength of Concrete Materials, ACI, Journal, Proc. 68 (1971), 47–49 and Supplement No. 68–8 (1971).
Buyukozturk, O. and Tseng, T. M., Concrete in Biaxial Cyclic Compression Journal of Structural Engineering, ASCE, 110 no. 3, Mar. (1984), 461476.
Chen, A. C. T. and Chen, W. F., Constitutive Equations and Punch-Indentation of Concrete, Journal of Engineering Mechanics Division, ASCE, 101 no. EM6, Dec. (1975), 889–906.
Chen, W. F. and Suzuhi, H., Constitutive Models for Concrete, presented at the October 16–20, 1978, ASCE Annual Convention and Exposition and Continuing Education Program, Chicago, Illinois.
Chen, W. F. and Ting, E. C., Constitutive Models for Concrete Structures, Journal of Engineering Mechanics Division, ASCE, 106 no. EM 1, Feb. (1980), 1–19.
Goldsmith, W. and Austin, C. F., Some Dynamic Characteristics of Rocks, Stress Waves in Anelastic Solids, (Springer, Berlin, Germany, 1964 ), p. 277.
Goldsmith, W., Austin, C. F., Wang, C. C. and Finnegan, S., Stress Waves in Igneous Rocks, Journal of Geophysical Research 71, no. 8 (1966), 2055.
Goldsmith, W., Kenner, V. H. and Ricketts, E. E., Dynamic Loading of Several Concrete-Like Mixtures, Proc. ASCE, J. Structural Division, 94, ST7 (1968), 1803–1827.
Goldsmith, W., Polivka, M., and Yang, T., Dynamic Behavior of Concrete Experimental Mechanics, Feb. (1966), 65–79.
Green, H., Impact Strength of Concrete, Institution of Civil Engineers, Proc. 28 (1964), 361–396.
Gregson, V. G., Jr., A Shock Wave Study of Fondu-Fyre WA-1 and a Concrete, ( General Motors Materials and Structures Laboratory, Report MSL, 1971 ).
Griner, G. R., Dynamic Properties of Concrete Master’s Thesis, University of Florida (1974). Also Griner, G. R., Sierakowski, R. L., and Ross, C. A., Dynamic Properties of Concrete Under Impact Loading Bulletin No. 45, (The Shock and Vibration Information Center, NRL, Washington, D. C., June 1975 ).
Griner, G. R., Sierakowski, R. L. and Ross, C. A., Dynamic Properties of Concrete Under Impact Loading, Shock and Vibration Bulletin Part 5, (1975), 131–142.
Hoff, G. C., Selected Bibliography on Fiber-Reinforced Cement and Concrete, Supplement No. 2, Miscellaneous paper C-76-6, (U. S. Army Waterways Experiment Station, Vicksburg, Miss, 1979 ).
Hughes, B. P. and Gregory, R., Concrete Subjected to High Rates of Loading in Compression, Magazine of Concrete Research 24, (1972), 25–36.
Hughes, B. P. and Watson, A. J., Compressive Strength and Ultimate Strain of Concrete Under Impact Loading, Magazine of Concrete Research 30, (1978), 189–199.
Kormeling, J. A., Zielinski, A. J., and Reinhardt, H. W., Experiments on Concrete Under Single and Repeated Impact Loading, Report No. 5-80-3, ( Delft University of Technology, Stevin Laboratory, May 1980 ).
Landon, J. W. and Ouinney, H., Experiments with the Hopkinson Pressure Bar., Proc. Roy. Soc. A., 103, (1923), 622.
McHenry, D. and Shideler, J. J., Review of Data on Effect of Speed in Mechanical Testing of Concrete, ASTM STP 185, (1956), 72–82.
Ngo, D. and Scordelis, A. C., Finite Element Analysis of Reinforced Concrete Structures, ACI Journal 64 no. 3, Mar. (1967).
Nilsson, L., Impact Loading of Concrete Structures, Publication No. 79, Department of Structural Mechanics, Chalmers University of Technology, (1979).
Perzyna, P., Fundamental Problems in Viscoplasticity, Advances in Applied Mechanics 9, (1966), 263–377.
Phillips, D. V. and Zienkiewicz, O. C., Finite Element Nonlinear Analysis of Concrete Structures, Proceedings, Institute of Civil Engineers, 61 part 2, Mar. (1976), 59–88.
Popovics, S. A., Numerical Approach to the Complete Stress-Strain Curve of Concrete Cement and Concrete Research 3 (1973), 583–599.
Pozzo, E., Rheological Model of Concrete in the Dynamic Field, Mecanica, June (1970) 143–158.
Read, H. E. and Maiden, C. J., The Dynamic Behavior of Concrete, (Topical Report 3 SR-707, Systems, Science and Software, La Jolla, CA, August, 1971 ).
Seabold, R. H., Dynamic Shear Strength of Reinforced Concrete Beams — Part III, Tech. Report R-695, Naval Civil Engineering Lab., Port Hueneme, CA, Sept. (1970).
Sierakowski, R. L., Malvern, L. E., Collins, J. A., Milton, K. E. and Ross, C. A., Penetrator Impact Studies of Soil /Concrete, Final Report, U. S. AFOSR Grant No. 77–3209 and AFAL TR-78-9, University of Florida, Gainesville, FL, November 30 (1977), 109–110.
Sierakowski, R. L., Malvern, L. E. and Doddington, H., Hopkinson Bar Tests of Three-Fourths Inch Diameter Concrete Specimens, Unpublished (1981).
Suaris, W. and Shah, S. P., Properties of Concrete Subjected to Impact, ASCE Jounal of Structural Engineering, v. 109, July (1983), pp 1727–1741.
Suaris, W., and Shah, S. P., Impact Test Methods for Fibre Reinforced Concrete, ACI Special Publication, 1984,
Takeda, J., Tachikawa, J., and Fujimoto, K., Mechanical Behavior of Concrete Under Higher Rate of Loading than in the Static Test, Proceedings of the Symposium on the Mechanical Behavior of Materials, Kyoto, August, 2124, Vol. II (1974), 479–486.
Tang, T., Malvern, L. E., Jenkins, D. A., Dynamic Compressive Testing of Concrete and Mortar, Proceedings Fifth Engineering Mechanics Division, ASCE, Laramie, WY, August 1–3, 1984, pp. 663–666.
Valanis, K. C., A Theory of Viscoplasticity Without a Yield Surface, Part I — General Theory, and Part II — Application to Mechanical Behavior of Metals, Archives of Mechanics 23, no. 4, (1971), 517–551.
Valanis, K. C. and Lee, C. F., Some Recent Development of the Endochronic Theory with Applications, Nuclear Engineering and Design 69, (1982) 327–344.
Watstein, D., Effect of Straining Rate on the Compressive Strength and Elastic Properties of Concrete, ACI Proc. 47, no. 52, April (1953), 729–744.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1985 Martinus Nijhoff Publishers, Dordrecht
About this chapter
Cite this chapter
Sierakowski, R.L. (1985). Dynamic Effect in Concrete Materials. In: Shah, S.P. (eds) Application of Fracture Mechanics to Cementitious Composites. NATO ASI Series, vol 94. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-5121-1_19
Download citation
DOI: https://doi.org/10.1007/978-94-009-5121-1_19
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-010-8764-3
Online ISBN: 978-94-009-5121-1
eBook Packages: Springer Book Archive