Comparative evaluation of implant designs: Influence of diameter, length, and taper on stress and strain in the mandibular segment—A three-dimensional finite element analysis | Zendy

DuraisamySai Sadan | Zendy; Gowthama Raaj | Zendy; P Manimaran | Zendy; C. Dhinesh Kumar | Zendy; Mathivanan Abirami | Zendy

Open Access

Comparative evaluation of implant designs: Influence of diameter, length, and taper on stress and strain in the mandibular segment—A three-dimensional finite element analysis

Author(s) -

DuraisamySai Sadan,

Gowthama Raaj,

P Manimaran,

C. Dhinesh Kumar,

Mathivanan Abirami

Publication year - 2019

Publication title -

journal of pharmacy and bioallied sciences

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.268

H-Index - 36

eISSN - 0976-4879

pISSN - 0975-7406

DOI - 10.4103/jpbs.jpbs_29_19

Subject(s) - finite element method , stress (linguistics) , implant , strain (injury) , stress–strain curve , orthodontics , structural engineering , dentistry , mathematics , materials science , medicine , engineering , surgery , anatomy , linguistics , philosophy

In axial and non-axial loads, amount of stress distribution around implant-bone interface is influenced by diameter and length of implant in cortical and cancellous bone, respectively. Increased diameter of the implant produces the minimum stress in cortical bone. Increased length of the implant produces the minimum stress in cancellous bone.

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