Experimental Study for Materials Prosthetic above Knee Socket under Tensile or Fatigue Stress with Varying Temperatures Effect

Main Article Content

Hatem Rahim Wasmi
Jumaa Salman Chiad
Adawiya Ali Hamzah

Abstract

The residual limb within the prosthesis, is often subjected to tensile or fatigue stress with varying temperatures. The fatigue stress and temperatures difference which faced by amputee during his daily activities will produces an environmental media for growth of fungi and bacteria in addition to the damage that occurs in the prosthesis which minimizingthe life of the prosthetic limb and causing disconfirm feeling for the amputee.


In this paper, a mechanical and thermal properties of composite materials prosthetic socket made of different lamination for perlon/fiber glass/perlon, are calculated by using tesile test device under varying temperatures ( from 20oC to 60oC), also in this paper a device for measuring rotational bending fatigue stress under varying temperatures was designed, manufactured, and calibrated ( this device is not available in Iraq), to achieve S – N curves for different lamination of perlon/fiber glass/perlon composite materials of prosthetic above knee socket.


In this paper, the mechanical and thermal properties set ( E, σy, σult, K, and α ) results of the above composite materials  are decreased when the temperatures are increased.


The S–N curves results of rotational bending fatigue for these lamination of composite materials are decreased when the temperatures are increased,also the endurance limit stresses (σe) are decreased with the increasing of number of perlon, and increasing temperatures, generaly after about 107 cycles.

Article Details

Section

Articles

How to Cite

“Experimental Study for Materials Prosthetic above Knee Socket under Tensile or Fatigue Stress with Varying Temperatures Effect” (2014) Journal of Engineering, 20(03), pp. 87–95. doi:10.31026/j.eng.2014.03.08.

References

Alaneme, K. K., 2011, Design of a Cantilever Type Rotating Bending Fatigue Testing Machine', Akure, PMB 704, Nigeria, Vol. 10, No. 11, PP. 1027-1039, (this paper from IVSL).

Dianyin, H., and Rongqiao, W., 2009, Experimental Study on Creep – Fatigue Interaction Behavior of GH4133B Super Alloy', Volume 515, Issues 1-2, 25 July, PP. 183-189.

Dunmin, L., Daoxiang, G., Tian, Y., and Aiping X., 2011, Mechanics and Dynamics of Active and Passive Knee Joint of Above Knee Prosthesis', IEEE, (this paper from IVSL).

Lafortune, M. A., and Henning, E. M., 1992, Cushioning Properties of Footwear During

Walking: Accelerometer and Force Platform Measurements' , No.7: PP.181-184.

Muhsin, J.J., Shaker, S.H., and Jumaa, S.CH., 2009, Analysis and Design Optimization of the Above Knee Prosthetic Socket', Thesis.

Pierce, C. J., 2010, Creep and Fatigue Interaction in the PWA1484 Single Crystal Nickel – Base Alloy',Volume 527, Issues 29- 30, 15 November, PP. 7484 – 7489.

Toh, S. L., Goh J. C. H., Tan P. H. and Tay T. E., 1993, Fatigue Testing of Energy Storing Prosthetic Feet'. Prosthetics and Orthotics Internationl No.17: PP.180-188.

Van Jaarsveld, H. W. L., Grootenboer, H. J., De Vries, J., and Koopman, H. F. J. M., 1995, Stiffness and Hysteresis Properties of Some Prosthetic Feet'. Prosthetics and Orthotics International No.14:PP. 117-124.

Zhichao, F., 2007, Fatigue-Creep Behavior of 1.25 Cr 0.5 Mo Steel at High Temperature and its Life Prediction', International Journal of Fatique, Vol.29, Issue 6, June, PP.1174-

Similar Articles

You may also start an advanced similarity search for this article.