An Overview Of Ballistic Protective Clothing

Authors

  • Pooja Kumari Department of Fashion Technology B.P.S Mahila University, khanpur kalan (sonepat),Haryana,India.
  • Dr. Lalit Jajpura Department of Fashion Technology B.P.S Mahila University, khanpur kalan (sonepat),Haryana,India.
  • Neetu rani Department of Fashion Technology B.P.S Mahila University, khanpur kalan (sonepat),Haryana,India.

Keywords:

Ballistic protection, high modulus, energy absorption, para-aramid fibers, high molecular weight

Abstract

Ballistic protective clothes are of great importance depending on the rapid developments in military area. Ballistic protection is one of the main functional characteristics of military textiles. Ballistic protective clothes protect the body by the absorption of the kinetic energy of the bullets and shrapnel. High strength fabrics are used in many industrial areas in connection with ballistic protection such as body armors, inner parts of plane or vehicles. The main parameters that affect the energy absorption are the fiber type, fabric construction, tightness and mass per unit area of the fabric and the number of the fabric layers used in the clothing material. The fibers used for this purpose should have high tenacity, high modulus and lower elasticity properties. Recently, para-aramid fibers are the most used fibers for ballistic protective clothes. Along with para-aramids, high molecular weight polyethylene fibers also are of importance commercially. Also, there are fibers for ballistic protection such as wholly aromatic polyester fibers, PBO and PIPD. Also, carbon nanotubes and spider silk fibers are thought to have great potential applications for ballistic-resistance materials with their remarkable properties. This article presents information about the ballistic protection mechanism of textile materials, the fibers used in those fabrics and the method, which is used to compare ballistic resistance of textile materials.

References

. Mäkinen H (1991) Analysis of problems in the protection of fire fighters by personal protective equipment and clothing - development of a new turnout suit. Tampere University of Technology /Finnish

. Institute of Occupational Health, Helsinki 1991, 201 pp.

. Oakley E, Howard N (1984) The design and function of military footwear: a review following experiences in the South Atlantic. Ergonomics. 28 (6) 631- 637.

. Neeves RE, Barlow DA, Richards JG, Provost-Craig M & Castagno P (1989) Physiological and biomechanical changes in fire fighters due to boot design modifications. Sports Science Center,

. University of Delaware, Newark, Delaware, August 1989, 38 pp.

. Steemson J (1988) Foot work. Occupational Safety and Health. (March) 12-18.

. Gazette of India Extraordinary Part-II, Section - 3, Sub-Section (ii)

. Realff, M. L., Seo, M., Boyce, M., Schwartz, P. &Backer, S., Mechanical properties of fabric woven from yams produced by different spinning technology: Yarn failure as a function of gauge length. Textile Res. J., 61 (1991) 517.

Downloads

Published

30-09-2015

How to Cite

Pooja Kumari, Dr. Lalit Jajpura, & Neetu rani. (2015). An Overview Of Ballistic Protective Clothing. International Journal for Research Publication and Seminar, 6(3), 1–5. Retrieved from https://jrps.shodhsagar.com/index.php/j/article/view/617

Issue

Section

Original Research Article