On mechanical properties and bioactivity of PVDF-BCP composites

Silva, L. M.; Rosso, J. M.; Bonadio, T. G. M.; Silva, D. M.; Dias, G. S.; Weinand, W. R.; Tominaga, T. T.; Miyahara, R. Y.; Cótica, L. F.; Santos, I. A.; Freitas, V. F.

doi:10.1590/0366-69132018643712325

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Articles • Cerâmica 64 (371) • Jul-Sep 2018 • https://doi.org/10.1590/0366-69132018643712325 copy

On mechanical properties and bioactivity of PVDF-BCP composites

Propriedades mecânicas e bioativas do compósito PVDF-BCP

Authorship SCIMAGO INSTITUTIONS RANKINGS

Abstract

A ceramic/polymer biocomposite with high potential for multifunctional practical applications in bone tissue engineering was synthesized by using a well-known piezoelectric polymer, polyvinylidene fluoride (PVDF), and a high bioactive biphasic calcium phosphate (BCP) ceramic obtained from recycled fish bones. High-bioactivity was observed for the PVDF-BCP composite when it was subjected to conditions that simulate the animal body once a very thick apatite layer (9 μm) was grown on its surface in an immersion experiment (7 days) in simulated body fluid. The structural characteristics of the PVDF-BCP composite showed similarities with highly bioactive young animal bones, overlapped with PVDF polymorphic phases. Mechanical tests revealed properties very similar to those of the human bone tissue with a resistance strength reaching 80 MPa. Together, all these factors indicated a very promising material for application in osseous implants/replacement with postoperative recovery controlled/accelerated by external stimuli.

Keywords:
biocomposites; PVDF; hydroxyapatite; bioactivity; biomaterials

Table I - Mechanical properties for PVDF polymer, BCP ceramic, PVDF-BCP composite, cortical and cancellous human bone tissues: Vickers hardness (HV), Young’s or elastic modulus (E), shear modulus (G), maximum compressive strength (σ), Poisson’s ratio (ν), density (ρ), and shear (VS), longitudinal (VL), and mean (VM) velocities of sound in the medium.

Compound	H_V (GPa)	E (GPa)	G (GPa)	σ (MPa)	ν	ρ (kg/m³ )	V_S (m/s)	V_L (m/s)	V_M (m/s)
100% PVDF	0.211±0.005	1.34±0.12	0.59±0.02	77.5±1.7	0.02	1698	623	891	815
PVDF-BCP	0.212±0.007	4.55±0.50	1.97±0.07	80.4±0.8	0.31	2160	891	1713	1230
100% BCP	1.148±0.050	26.01±3.01	11.35±0.46	66.6±0.5	0.33	2360	2066	4090	2861
Cortical tissue	0.59±0.200 ³⁷37. Am. Soc. Test. Mater., ASTM C773-88: “Standard test method for compressive (crushing) strength of fired whiteware materials”, B. Stand. (2011).	18.30±3.50 ³⁷37. Am. Soc. Test. Mater., ASTM C773-88: “Standard test method for compressive (crushing) strength of fired whiteware materials”, B. Stand. (2011).	3.30±0.50 ³⁷37. Am. Soc. Test. Mater., ASTM C773-88: “Standard test method for compressive (crushing) strength of fired whiteware materials”, B. Stand. (2011).	107±4.3 ³⁸38. Am. Soc. Test. Mater., ASTM E1876-09: “Standard test method for dynamic Young’s modulus, shear modulus, and Poisson’s ratio by impulse excitation of vibration”, B. Stand. (2012).	0.37	1810 ³⁸38. Am. Soc. Test. Mater., ASTM E1876-09: “Standard test method for dynamic Young’s modulus, shear modulus, and Poisson’s ratio by impulse excitation of vibration”, B. Stand. (2012).	1922	4203	2689
Cancellous tissue	0.52±0.150 ³⁷37. Am. Soc. Test. Mater., ASTM C773-88: “Standard test method for compressive (crushing) strength of fired whiteware materials”, B. Stand. (2011).	13.00±1.47 ³⁷37. Am. Soc. Test. Mater., ASTM C773-88: “Standard test method for compressive (crushing) strength of fired whiteware materials”, B. Stand. (2011).	--	--	0.34	1100 ³⁸38. Am. Soc. Test. Mater., ASTM E1876-09: “Standard test method for dynamic Young’s modulus, shear modulus, and Poisson’s ratio by impulse excitation of vibration”, B. Stand. (2012).	2100	4258	2917

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