Production of Prosthetics and orthotics materials with improved tensile strength and elongation at break from venial acetate, lowdensity polyethylene and additive blends

Production of Prosthetics and orthotics materials with improved tensile strength and elongation at break from venial acetate, lowdensity polyethylene and additive blends

  IJETT-book-cover  International Journal of Engineering Trends and Technology (IJETT)          
  
© 2017 by IJETT Journal
Volume-52 Number-3
Year of Publication : 2017
Authors : Asmamaw Tegegne, Yenealem Yilma
DOI :  10.14445/22315381/IJETT-V52P225

Citation 

Asmamaw Tegegne, Yenealem Yilma "Production of Prosthetics and orthotics materials with improved tensile strength and elongation at break from venial acetate, lowdensity polyethylene and additive blends", International Journal of Engineering Trends and Technology (IJETT), V52(3),162-174 October 2017. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group

Abstract
Polymers including Ethylene vinyl acetate (EVA) and low density polyethylene (LDPE) are some of the useful materials for different engineering applications including artificial legs, hands or prosthetic and orthotics. In most countries in Africa (particularly in Ethiopia) prosthetic and orthotics service is mostly applicable in limited hospitals. Raw materials (pure EVA) are brought from abroad and molding is carried out locally. This time provision of raw materials is reduced due to lack of supplier. Moreover the mechanical properties of these materials have certain draw backs on service properties .Some of the problems are high thermal expansion, poor weather resistance subjected to stress cracking, failure in strength . To alleviate these problems it is required to produce the raw materials locally with improved mechanical properties that prolong the service life, as result of which the foreign currency will be saved. The objective of this research is thus to produce prosthetic and orthotics raw materials from EVA/LDPE blend with improved tensile strength and elongation. To carry out this research thermoplastic LDPE, EVA, color pigment, calcium carbonate, and black carbons were used as charged materials (constituents). Samples were produced in sheet form for further analysis. The research was conducted experimental ly. Blending, molding, and testing of the produced material were carried out using different appropriate devices, tools and equipment. It was observed that the addition of additives improve the mechanical properties especially tensile strength. From the gauge reading it was recorded that the maximum tensile strength was 10.5 M pa and the minimum tensile strength was 2.8 Mpa, at the same time the maximum elongation at break was 469.8% and the minimum elongation at break 40.2%. The other results were in between these ranges, which are better than the material sample produced from pure EVA (maximum tensile strength of 2.3 Mpa and the elongation of 265 %). It is expected that the result of the research will reduce the foreign exchange consumption of the country and satisfy the demand of hospitals and patients.

Reference
[1] Brey, ‘Prosthetics,’ Technology and Ethics (ed. C. Mitcham), MacMillan Encyclopedia of Science, London: Elsevier, MacMillan Press, pp. 1527-1532, 2005.
[2] Sadhu Veera Bhadraiah, Creation of Crosslinkable Interphases in Polymer Blends by means of Novel Coupling Agents, 40 th International Symposium on Macromolecules,pp.1. 2004.
[3] I.O. Ucar, et al, Combined XPS and contact angle studies of ethylene vinyl acetate and polyvinyl acetate blends, Elsevier., pp.9587– 9594 Turkey, 2011.
[4] Hussein A. Shnawa et al, Thermal Properties of Low Density Polyethylene with Oyster Shell Composite: World Applied Sciences Journal vol.14 , pp. 1730-1733,2011.
[5] Bistra Andersen, Environmental Stress Cracking Resistance of LDPE/EVA Blends, Bulgaria, pp.33,2004.
[6] OthmanY.Alothman, Processing and Characterization of High Density Polyethylene/Ethylene Vinyl Acetate Blends with Different VA Content, king Saud university, Saudi Arabia, © 2012.
[7] Zach T. Harvey, et al, Prosthetic Advances, Journal of Surgical Orthopaedic Advances, Southern Orthopaedic Association, pp.58–64, 2012.
[8] Susan Kapp,etal,Lower Limb Prosthetics ,pp553-580.
[9] Hojjat et al, Effect of EVA Content upon the Dielectric Properties in LDPE-EVA Films, International Journal of Engineering Research, Vol 4, pp .69 – 72,2015.
[10] S. Park et al, Properties of the Blends of Ethylene- Vinyl Acetate and Ethylene- ?-Olefins Copolymers, Vol. 13, 2005, pp 243-25.
[11] Takidis G et al, Compatibility of Low-Density Polyethylene/Poly (Ethylene-co-vinyl Acetate) Binary Blends Prepared by Melt Mixing. Journal of Applied Polymer Science; pp. 841-852, 2003.
[12] A. A. Basfar et al, Mechanical and Thermal properties of blends of Low density Polyethylene and Ethylene Vinyl Acetate crosslinked by both dicumyl Peroxide and Ionizing Radiation for Wire and Cable Applications Journal of Applied Polymer Science, Vol.107, pp.642–649,2008.
[13] Jinxia Li, Blends of EPDM rubber/ Thermoplastics, Lulea University of Technology, pp.12, 2008.

Keywords
Prosthetic, Orthotic, Blending, Low density poly ethylene, Ethylene vinyl acetate, Mechanical property.