DESIGN AND OPTIMIZATION OF POLY LACTIC ACID/BIOGLASS COMPOSITE SCREW FOR ORTHOPEDIC APPLICATIONS

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HOSSEINI EMAD; Zargar Kharazi Anooshe

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Journal: JOURNAL OF SIMULATION AND ANALYSIS OF NOVEL TECHNOLOGIES IN MECHANICAL ENGINEERING (JOURNAL OF SOLID MECHANICS IN ENGINEERING) Year:2016 | Volume:9 | Issue:1 Page(s): 31-48

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Title

DESIGN AND OPTIMIZATION OF POLY LACTIC ACID/BIOGLASS COMPOSITE SCREW FOR ORTHOPEDIC APPLICATIONS

Author(s)

HOSSEINI EMAD | Zargar Kharazi Anooshe | Issue Writer Certificate

Keywords

POLY-L-LACTIC ACIDQ1

BIOACTIVE GLASS FIBERSQ1

COMPOSITE SCREWQ1

FLEXURAL STRENGTHQ1

Abstract

Considering their suitable strength and ability to properly stabilize, metal screws are used to repair bone fractures. However, problems such as osteoporosis due to high elasticity of metals relative to bones, and local infections caused by releasing metallic ions have motivated research on replacing metallic screws with non metallic ones. Use of bioresorbable screws could eliminate disadvantages associated with metals such as removal operations, corrosion and stress shielding. In this study, the composite containing POLY-L-LACTIC ACID and BIOACTIVE GLASS FIBERS were considered for the design of the screw using ABAQUS software (V6.11). The elastic constants were first estimated in micro analysis then transferred to macro analysis for modeling in two-layer situations composed of unidirectional fibers and random fibers (UD/R) and also for modeling in three-layer situations composed of unidirectional fibers, fibers with an angle of ±20 degree in relation to force vector, and random fibers (UD /±20/R) with various percentages of layer thickness. Results show that in the analysis with %65 layers of unidirectional fibers, %10 layers by fibers with an angle of ±20 degree, and %25 of layers with random fibers, flexural modulus, FLEXURAL STRENGTH, and longitudinal elasticity coefficient were estimated about 22.7 GPa, 347 MPa, and 24.8 GPa respectively, the last one being slightly higher than that of cortical bone. Considering similar results for cortical bones, our designed COMPOSITE SCREWs are robust enough to replace metal screws for repairing orthopedic fractures.

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APA: Copy

HOSSEINI, EMAD, & Zargar Kharazi, Anooshe. (2016). DESIGN AND OPTIMIZATION OF POLY LACTIC ACID/BIOGLASS COMPOSITE SCREW FOR ORTHOPEDIC APPLICATIONS. JOURNAL OF SIMULATION AND ANALYSIS OF NOVEL TECHNOLOGIES IN MECHANICAL ENGINEERING (JOURNAL OF SOLID MECHANICS IN ENGINEERING), 9(1 ), 31-48. SID. https://sid.ir/paper/171307/en

Vancouver: Copy

HOSSEINI EMAD, Zargar Kharazi Anooshe. DESIGN AND OPTIMIZATION OF POLY LACTIC ACID/BIOGLASS COMPOSITE SCREW FOR ORTHOPEDIC APPLICATIONS. JOURNAL OF SIMULATION AND ANALYSIS OF NOVEL TECHNOLOGIES IN MECHANICAL ENGINEERING (JOURNAL OF SOLID MECHANICS IN ENGINEERING)[Internet]. 2016;9(1 ):31-48. Available from: https://sid.ir/paper/171307/en

IEEE: Copy

EMAD HOSSEINI, and Anooshe Zargar Kharazi, “DESIGN AND OPTIMIZATION OF POLY LACTIC ACID/BIOGLASS COMPOSITE SCREW FOR ORTHOPEDIC APPLICATIONS,” JOURNAL OF SIMULATION AND ANALYSIS OF NOVEL TECHNOLOGIES IN MECHANICAL ENGINEERING (JOURNAL OF SOLID MECHANICS IN ENGINEERING), vol. 9, no. 1 , pp. 31–48, 2016, [Online]. Available: https://sid.ir/paper/171307/en

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