THERMAL SCIENCE
International Scientific Journal
A MATHEMATICAL MODEL OF META-ARAMID FIBRID FORMATION
ABSTRACT
Meta-aramid fibrid is a key material for aramid paper preparation. Its formation mechanism is elucidated and a mathematical model is established to reveal the main effects of coagulation properties and shear stress on the properties of aramid paper.
KEYWORDS
PAPER SUBMITTED: 2015-12-02
PAPER REVISED: 2016-01-18
PAPER ACCEPTED: 2016-09-04
PUBLISHED ONLINE: 2017-09-09
THERMAL SCIENCE YEAR
2017, VOLUME
21, ISSUE
Issue 4, PAGES [1651 - 1655]
- Parrish, E., et al., U. S. Patent 2988782, 1961
- Seretis, G. V., et al., On the Strength and Failure Mechanism of Woven Para-Aramid Protection Fabrics, Mechanics of Materials, 97 (2016), June, pp. 92-99
- Li, Z., et al., Aramid Fibers Reinforced Silica Aerogel Composites with Low Thermal Conductivity and Improved Mechanical Performance, Composites: Part A, 84 (2016), May, pp. 316-325
- Yahaya, R., et al., Effect of Fibre Orientations on the Mechanical Properties of Kenaf-Aramid Hybrid Composites for Spall-Liner Application, Defence Technology, 12 (2016), 1, pp. 52-58
- Wang, X., et al., Low Velocity Impact Properties of 3D Woven Basalt/Aramid Hybrid Composites, Composites Science and Technology, 68 (2008), 2, pp. 444-450
- Larin, B., et al., Combined Effect of Shear and Fibrous Fillers on Orientation-Induced Crystallization in Discontinuous Aramid Fiber/Isotactic Polypropylene Composites, Polymer, 49 (2008), 1, pp. 295-302
- Shabbir, S., et al., Miscibility Studies of PVC/Aramid Blends, Colloid Polym Sci., 286 (2008), 6-7, pp. 673-681
- Wawro, D., et al., Chitosan Microfibrids: Preparation, Selected Properties and Application, Fibers & Textils in Eastern Europe, 14 (2006), 3, pp. 97-101
- Kucharska, M., et al., Potential Use of Chitosan-Based Material in Medicine, Progress on Chemistry and Application of Chtin and Its Derivatives, 15 (2010), pp. 169-176
- Yao, L. R., et al., Fabrication of Meta-Aramid Fibrid by Precipitation, Fibers and Polymers, 13 (2012), 3, pp. 277-281
- Yao, L. R., et al., Comparative Study on Fibrid Formation Models, Fibers and Polymers, 14 (2013), 2, pp. 324-329
- Kalb, B., et al., Hydrodynamically Induced Formation of Cellulose Fibers II. Fiber Formation by De-formation of Drops with Zero Interfacial Tension, Journal and Colloid and Interface Science, 82 (1981), 2, pp. 286-297