THERMAL SCIENCE
International Scientific Journal
EFFECT OF STRUCTURE ON DYNAMICAL STAB-RESISTANCE BEHAVIORS OF LAMINATES COMPOSITE
ABSTRACT
The dynamic stab-resistance behaviors of laminate composites composed of TA15, TA1 titanium with various thicknesses of ultra-high-molecular-weight polyethylene, and polyester fabrics are characterized under dynamic stab testing conditions and analyzed by a new method using the average velocity of tension-compaction-plastic deformation process to calculate the ratio of energy in different damage process. The damaged area is observed by optical microscopy and SEM, and the impact force-time curve and damage degree are analyzed, and the energy of different processes during the dynamic stab test is calculated. The results show that laminates with the structure of high strength material among the low strength materials have much better performance than other specimens.
KEYWORDS
PAPER SUBMITTED: 2021-02-01
PAPER REVISED: 2021-10-03
PAPER ACCEPTED: 2021-10-03
PUBLISHED ONLINE: 2022-07-16
THERMAL SCIENCE YEAR
2022, VOLUME
26, ISSUE
Issue 3, PAGES [2755 - 2763]
- Nayak, R., et al., Body Armor for Stab and Spike Protection, Part 1: Scientific Literature Review, Textile Research Journal, 88 (2018), 7, 1597608934
- Johnson, A. A., et al., Comparing The Penetrative Stab Performance of the UK HOSDB P1/B and Stan-ley Tools 1992 Trimming Blades on Certified Body Armor Specimens, The Police Journal, 90 (2017), 1, pp. 24-39
- Cheon, J., et al., Study on the Stab Resistance Mechanism and Performance of the Carbon, Glass and Aramid Fiber Reinforced Polymer and Hybrid Composites, Composite Structures, 234 (2020), Feb., pp. 1-27
- Guo, Y. X., et al., Rapid Prediction of Polymer Stab Resistance Performance, Materials & Design, 192 (2020), July, pp. 108721-108728
- Azammi, N., et al., Physical and Damping Properties of Kenaf Fibre Filled Natural Rub-ber/Thermoplastic Polyurethane Composites, Defense Technology, 16 (2020), 1, pp. 29-34
- Grover, G., et al., The Effect of Particle Size and Concentration on the Ballistic Resistance of Different Shear Thickening Fluids, Material Today: Proceedings, 28 (2020), 3, pp. 1472-1476
- Tan, Z. H., et al., Dynamic Response of Symmetrical and Asymmetrical Sandwich Plates with Shear Thickening Fluid Core Subjected to Penetration Loading, Materials and Design, 94 (2016), 3, pp. 105-110
- Xu, C. H., et al., Anti-Impact Response of Kevlar Sandwich Structure with Silly Putty, Composites Sci-ence and Technology, 153 (2017), 12, pp. 168-177
- Bakir, M., et al., Aromatic Thermosetting Copolyester Foam Core and Aluminum Foam Face Three-Layer Sandwich Composite for Impact Energy Absorption, Materials Letters, 196 (2017), 6, pp. 288-291
- Huang, W., et al., Dynamic Response of Aluminum Corrugated Sandwich Subjected to Underwater Im-pulsive Loading: Experiment and Numerical Modeling, International Journal of Impact Engineering, 109 (2017), 11, pp. 78-91
- He, J. J., et al., Egg-Shell Structure Design for Stab Resistant Body Armor, Materials Today Communi-cations, 16 (2018), Apr., pp. 26-36
- Sofiyev, A. H., et al., The Free Vibration of Sandwich Truncated Conical Shells Containing Functionally Graded Layers Within the Shear Deformation Theory, Composites Part B, 120 (2017), 1, pp. 197-211
- Serjouei, A., et al., On Improving Ballistic Limit of Bi-Layer Ceramic-Metal Armor, International Jour-nal of Impact Engineering, 105 (2017), 7, pp. 54-67
- Bambach, M. R., et al., Energy Absorbing Characteristics of Aluminum Beams Strengthened with CFRP Subjected to Transverse Blast Load, International Journal of Impact Engineering, 37 (2010), 1, pp. 259-287
- Albuja, E. H., et al., Ballistic Impact Response of Laminated Hybrid Materials Made of 5086-H32 Alu-minum Alloy, Epoxy and Kevlar ® Fabrics Impregnated with Shear Thickening Fluid, Composites, Part A,Applied Science and manufacturing, 87 (2016), 8, pp. 54-65
- He, C. H., et al. A Novel Bond Stress-Slip Model for 3-D Printed Concretes, Discrete and Continuous Dynamical Systems Series S, 15 (2021), 7, pp. 1669-1683