Archives of Metallurgy and Materials

Żmudzki, J.; Chladek, G.; Panek, K.; Lipiński, P.

doi:10.24425/amm.2019.131097

2019

DOI: 10.24425/amm.2019.131097

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Archives of Metallurgy and Materials

J. Żmudzki,

G. Chladek,

K. Panek

et al.

Abstract: The paper aims was assessing risks of mandible fractures consequent to impacts or sport accidents. The role of the structural stiffness of mandible, related to disocclusion state, was evaluated using the finite element method. It has been assumed, that the quasi-static stress field, due to distributed forces developed during accidents, could explain the common types of mandibular fractures. Mandibular condyles were supposed jammed in the maxillary fossae. The force of 700 N, simulating an impact on mandible, h… Show more

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Effects of bone-plate materials on the healing process of fractured tibia bone under time-varying conditions: a finite element analysis

Tan

Natarajan

Lim

et al. 2021

Mater. Res. Express

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Stress shielding is known to cause bone refracture or cause low healing rate in fractured bones. The numerical study of bone healing process of a transverse fractured tibia was conducted in this research to reduce the stress shielding. The stress and strain on the callus were evaluated when bone plates of different metallic and non-metallic biomaterials were used. Time varying material properties of the callus were applied, and loading conditions were coupled with material properties of the callus. The strain distribution on the callus, and the maximum stress on the callus and bone plate were analysed. The analysis results shows that Polyether ether ketone/Nano-Hydroxyapatite/Short Carbon Fibre (PEEK/nano-HA/SCF) is most suitable for bone plating application for tibia. PEEK/nano-HA/SCF is chosen as it provides the optimum strain in the callus to promote bone healing. It has the closest stiffness to the cortical bone and hence stress shielding is minimized extensively. It has a uniform strain distribution at the fractured site for early bone healing process.

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Effects of bone-plate materials on the healing process of fractured tibia bone under time-varying conditions: a finite element analysis

Tan

Natarajan

Lim

et al. 2021

Mater. Res. Express

View full text Add to dashboard Cite

show abstract

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Archives of Metallurgy and Materials

Cited by 1 publication

References 57 publications

Effects of bone-plate materials on the healing process of fractured tibia bone under time-varying conditions: a finite element analysis

Effects of bone-plate materials on the healing process of fractured tibia bone under time-varying conditions: a finite element analysis

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