Browse > Article

A Study on the Nonlinear Viscoelastic Properties of PBXs  

Shim Jung-Seob (Agency for Defense Development)
Kim Hyoun-Soo (Agency for Defense Development)
Lee Keun-Deuk (Agency for Defense Development)
Kim Jeong-Kook (Agency for Defense Development)
Publication Information
Journal of the Korea Institute of Military Science and Technology / v.7, no.2, 2004 , pp. 100-108 More about this Journal
Abstract
Nitramine-polymer composites suffer from a problem known as dewetting. Dewetting adversely affects the performance and the sensitivity characteristics of an explosive composition. Voids, which are generated between explosive particles and binder on dewetting, act as initiation sites. For a PBXs as well as propellants, where good adhesion and mechanical properties are of great importance, dewetting therefore must be prevented by strong adhesion between the filler and the binder. The surface energy of materials is measured by Wilhelmy plate and wicking method. The interfacial energy between the filler and the binder is calculated from the disperse phase and the polar phase of surface energy. Time dependent compressive properties of composite explosives have been determined by stress-strain curves obtained at different strain rates and temperatures. The interfacial state of the PBX was observed through SEM. It was found from the result that the interface between the explosive and the binder becomes better adhesion with decreasing interfacial tension and increasing work of adhesion. The result clearly shows that the castable PBX has good adhesion more than the pressable PBX.
Keywords
복합화약;표면에너지;계면장력;부착력;비선형 점탄성 특성;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Anderson, L. L., 'A Predictive Model for the Mechanical Behavior of Particulate Composites, Ph. D Dissertation, Univ. of Massachsetts, 1996
2 Erman, B. and Flory, P. J., 'Theory of Elasticity of Polymer Networks II. the Effect of Geometric Constraints on Junctions', J. Chem. Phys., vol. 68, 1978, pp.5363-5369
3 William, W. G., 'Elasticity and Chain Dimensions in Gaussian Networks', Macromolecules, vol. 8, 1975, pp.865-868
4 Kaelble, D. H., Dynes, P. J. and Cirlin, E. H., 'Interfacial Bonding and Environmental Stability of Polymer Matrix Composites', J. Adhesion, vol. 6, 1974, pp.23-48.
5 Ozupek, S. and Becker, E. B., 'Constitutive Equations for Solid Propellants', J. Eng. Mat. Tech., vol. 119, 1996, pp.125-132
6 Wu, S., 'Polymer Interface and Adhesion', Dekker, NY, 1982, pp.184
7 Williams, D. J., 'Polymer Science and Engineering', Englewood Cliffs, New Jersey, 1971, pp.301
8 Erman, B., Waggner, W. and Flory, P. J. 'Elastic Modules and Degree of Cross-Linking of Poly (Ethyl-Acrylate) Network', Macromolecules, vol. 13, 1980, pp.1554
9 Chen, U. D., So, H., 'Statistical Model for Predicting the Strength of Solid-Filled Rubbers', Poly. Eng. Sci., vol. 15, 1989, pp. 2884-2888
10 Baijal, M. D., 'Plastics Polymer Science and Technology', John Wiley and Sons Inc., New York, 1982, pp.326
11 Aklonis, J. J. and Macknight, W. R, 'Introduction to Polymer Viscoelasticity', 2nd. Ed.. John Wiley and Sons Inc., New York, 1983, pp.299- 302