TY  - JOUR
T1  - A Potential Finite Element Scheme for Elastic Solids
AU - Vijayaganth, G. 
JO  - Journal of Engineering and Applied Sciences
VL  - 12
IS  - 15
SP  - 3936
EP  - 3937
PY  - 2017
DA  - 2001/08/19
SN  - 1816-949x
DO  - jeasci.2017.3936.3937
UR  - https://makhillpublications.co/view-article.php?doi=jeasci.2017.3936.3937
KW  - Concentrates
KW  -punishment
KW  -accomplished
KW  -interjecting
KW  -non-linear
KW  -India
AB  - This research concentrates on the re-enactment of mechanical contact between nonlinearly versatile questions for example, the human&#146;s segments body. The response&#146;s calculation compels that follow up on the contact a surface (contact strengths) is the key for outlining a dependable contact taking care of calculation. In customary techniques, contact powers are frequently characterized as intermittent elements of misshapening which prompts poor merging qualities. This issue turns out to be particularly genuine in ranges with muddled self-contact, for example, skin folds. We present a novel punishment limited component detailing taking into account the idea of material profundity, the separation between a molecule inside an article and the object&#146;s limit. By directly interjecting pre registered material profundities at hub focuses, contact powers can be logically coordinated over contact surfaces without raising computational expense. The coherence accomplished by this definition bolsters an effective and dependable arrangement of the nonlinear framework. This calculation is actualized as a major aspect of our verifiable limited component program for static, quasistatic and dynamic examination of nonlinear viscoelastic solids. We exhibit its viability on a movement demonstrating sensible impacts for example, collapsing skin and sliding contacts of tissues included in knee flexion. The limited component model of the leg and its interior structures was gotten from the visible human dataset.
ER  - 