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.com

Polymer Sciences | ISSN: 2471-9935

October 02-03, 2017 Chicago, USA

3

rd

International Conference on

Polymer Science and Engineering

Green composites based on cork residues for additive manufacturing

Sara P Magalhães da Silva

1,2

and

José M. Oliveira

1,2

1

Aveiro Institute of Materials (CICECO), University of Aveiro, Portugal

2

School of Design, Management and Production Technologies, University of Aveiro, Portugal

Statement of the Problem:

An important stage of materials development is the validation of its mechanical performance prior to

the manufacturing step. In composite materials, mechanical properties are highly dependent on the interaction between polymer

matrix and the filler1-3. Cork-polymer composites (CPC) based on biodegradable matrices for fused filament fabrication (FFF)

technique were prepared. FFF, an additive manufacturing (AM), is an extrusion-based technique, in which a thermoplastic filament

is melted and selectively extruded via nozzle, deposited layer by layer4. Cork is the outer bark of Quercus Suber L. oak tree and

possesses an unique combination of properties: low density, viscoelasticity, high recovery capacity after impact, among others5.

Biodegradable polymers as neat polylactic acid (PLA) and PLA/Polyhydroxyalkanoate (PHA) blend were used as matrices in

composites formulation. The selection of an elastomeric blend, PLA/PHA, was based on the compatibility of the elastic behavior of

cork and to print a more flexible product. In order to evaluate the adhesion between cork and the polymeric matrices, morphological,

chemical and mechanical analyses were performed.

Methodology:

CPC were prepared using cork powder residues from industrial stoppers production. Both PLA/PHA blend and CPC

were prepared by melt compounding. Morphological analyses were made by scanning electron microscopy (SEM); chemical analyses

by Fourier Transform Infra-Red (FTIR); and, mechanical tests (tensile, flexural and impact).

Findings:

Morphological and chemical analyses revealed a good adhesion of cork to the biodegradable matrices. When cork was

incorporated in neat PLA, led to a more flexible material. Conclusion: The incorporation of cork powder residues into biodegradable

matrices results on the development of sustainable green composites. AM techniques can add value to these green composites by

employing them as filaments for FFF. Combining FFF with the unique cork properties and aesthetics, can potential new design

freedom solutions and products.

Biography

Sara P. Magalhães da Silva has a Master in Chemical Engineering and she is a PhD student of Materials Science and Engineering at University of Aveiro, Portugal.

Her field of research is related to the development and characterization of thermoplastic composites for injection molding applications; development of new

materials formulations for additive manufacturing; lignocellulosic residues valorization. This work is part of her PhD thesis entitled “Cork-polymer composites – A

sustainable solution in injection molding and additive manufacturing”.

José M. Oliveira has a PhD in Materials Science and Engineering. He is a Professor and head of the School of Design, Management and Production Technologies,

University of Aveiro, Portugal. His field of research is dedicated to the development and characterization of thermoplastic composites, glasses and biomaterials; the

development of new materials formulations for additive manufacturing.

sarapms@ua.pt martinho@ua.pt

Sara P Magalhães da Silva et al., Polym Sci, 3:3

DOI: 10.4172/2471-9935-C1-002