The development of products from new materials: biocomposites application in product design

Authors

DOI:

https://doi.org/10.5433/2236-2207.2014v5n2p149

Keywords:

Product design, Design methodology, New materials, Biocomposites

Abstract

With the advancement of science and technology every day brings new materials with special properties that allow innovation in design solutions. In this light, this work aims to address the relationship of product development with the use of new materials. This approach was analyzed by performing a projetual year in which the proposed design methodology by Rozenfeld et al was used. (2006). Because it is the application of a new material, and this has not yet been fully characterized and widespread, it was necessary to investigate the characteristics of the material at the beginning of the project, to subsequently analyze the possibilities of applications. Thus, the development of the product left on the characteristics of the new material.

Downloads

Download data is not yet available.

Author Biographies

Eliana Paula Calegari, Universidade Federal do Rio Grande do Sul - UFRGS

Doctoral student in the Postgraduate Program in Design at the Federal University of Rio Grande do Sul.

Branca Freitas de Oliveira, Universidade Federal do Rio Grande do Sul - UFRGS

Postdoctoral degree from the Federal University of Rio Grande do Sul-UFRGS. Doctorate in Civil Engineering from UFRGS. Professor at UFRGS

Denise Maria Lenz, Universidade Luterana do Brasil - ULBRA

PhD in co-tutelage in Chemistry from the Université de Paris VII - Denis Diderot. Professor at the Universidade Luterana do Brasil. .

References

AGROPLAST. Sacos plásticos para mudas, flores e plantas. Disponível em: http://www.agroplast.com.br/. Acesso em: 20 maio 2014.

ASHBY, M. F.; JOHNSON, K. Materials and design: the art and science of material selection in product design. Amsterdam: Elsevier/ButterworthHeinemann, 2010.

ASHBY, M. F.; JONES, D. R. H. Engenharia de materiais. Rio de janeiro: Elsevier, 2007.

AVÉROUS, L.; BOQUILLON, N. Biocomposites based on plastificized starch: thermal and mechanical beharviours. Carbohydrate Polymers, London, v. 52, p. 111-122, 2004.

BASF. Plásticos biodegradáveis. Disponível em: http://www.basf.com.br/. Acesso em: 15 maio 2014.

BAXTER, M. Projeto de produto: guia prático para o design de novos produtos. Tradução Itiro Iida. São Paulo: Edgard Blucher, 2000.

BEYLERIAN, G. M.; DENT, A. Ultra materials: how materials innovation is chanching the world. Kingdom: Thame & Hudson, 2007.

BOMFIM, G. A. Metodologia para desenvolvimento de Projetos. Campina Grande: Editora Universitária, 1984.

BONSIEPE, G.; KELLNER, P.; POESSNECKER, H. Metodologia experimental: desenho industrial. Brasília: CNPq/Coordenação editorial. 1984.

CARASHI, J. C.; LEÃO, A. L. Compósitos de Polihidroxidobutirato com Fibras Naturais. In: CONGRESSO BRASILEIRO DE POLÍMEROS, 6., 2001, Gramado, RS. Anais ... Gramado: UFRS, 2001. p. 566-569.

CORDEIRO, I. M. C. C. et al. Economical analysis of cultivation systems with Schizolobium parahyba var. amazonicum (Huber ex Ducke) Barneby (Parica) and Ananas comosus var. erectifolius (L.B. Smith) Coppus & Leal (Curaua) crop at Aurora Para, Brazil. Revista de la Facultad de Agronomía de la Universidad del Zulia, v. 26, n. 2, p. 243-265, 2009.

DIAS, M. R. A. C. Percepção dos materiais pelos usuários: modelo de avaliação permatus. Tese (Doutorado em Engenharia e Gestão do Conhecimento) -Universidade Federal de Santa Catarina, Florianopolis, 2009.

DOORDAN, D. P. On Materials. Design Issues, n. 19, p. 3-8, 2003.

FERRANTE, M. Seleção de materiais. São Carlos: EdUFSCar, 2002.

GODA, K.; TAKAGI, H.; NETRAVALI, A. N. Fully biodegradable green composites reinforced with natural fibers. In: THOMAS, Sabu; POTHAN, Laly A. (Ed.). Natural fibre reinforced polymer composites from macro to nanoscale. Philadelphia: EAC and Old City Publishing, 2009. p. 329-360.

HARNNECKER, F.; ROSA, D. S.; LENZ, D. M. Biodegradable Polyester-Based Blend Reinforced with Curaua Fiber: Thermal, Mechanical and Biodegradation Behaviour. Journal of Polymers and the Environment, v. 20, n.1, p. 237-244, 2012.

LEE, B. H.; KIM, H. E.; LEE, S.; JIM, H. J.; DORGAN, J. R. Bio-composites of kenaf fibers in polylactide: Role of improved interfacial adhesion in the carding process. Composites Science and Technology, v. 69, p. 2573–2579, 2009.

LÖBACH, B. Design industrial: bases para a configuração dos produtos industriais. São Paulo: Edgard Blucher, 2001.

MANZINI, E. The material of invention. London: The design council, 1989.

MOHANTY, A. K. et al. Natural Fibers, Biopolymers, and Biocomposites: na Introduction. London: Taylor & Francis, 2005.

MONTEIRO, S.N.; DE DEUS, J.F.; D’ALMEIDA, J.R.M. Mechanical and structural characterization of curaua fibers. In: TMS Conference. Characterization of Minerals, Metals & Materials, San Antonio, USA, 2006. p. 1-8.

MUNARI, B. Das coisas nascem coisas. São Paulo: Martins Fontes, 1998.

PELLICANO, M.; PACHEKOSKI, W.; AGNELLI, J. A. M. Influência da adição de amido de mandioca na biodegradação da blenda polimérica PHBV/Ecoflex®. Polímeros, São Carlos, v.19, n.3, p. 212–217, 2009.

PSF. Embalagens plásticas: sacos para mudas. Disponível em: http://www.psfembalagens.com.br/ produtos/sacos-para-mudas. Acesso em: 12 set. 2014.

ROZENFELD, H. et al. Gestão de desenvolvimento de produtos: uma referência para a melhoria do processo. São Paulo: Saraiva, 2006.

SILVA, R. V.; AQUINO, E. M. F. Curaua fiber: A New Alternative to Polymeric Composites. Journal of Reinforced Plastics and Composites, v. 27, n. 1, p. 103-112, 2008.

SISALTEC. Aproveitamento industrial de resíduos. Disponível em: http://sisaltec.com.br. Acesso em: 10 set. 2014.

STAEHLE, R. W. Engineering with advanced and new materials. Materials Science and Engineering, A198, p. 245-256, 1995.

STEPHAN, A. P. 10 cases do design brasileiro. São Paulo: Edgard Blucher, 2010.

VERNEY, J. C. K.; LIMA, M. F. S.; LENZ, D. M. Properties of SBS and sisal fiber composites: ecological material for shoe manufacturing. Materials Research, São Carlos, v. 4, n. 11, p. 447-451, 2008.

XIONG, H.; SUN, S.; JIANG, V. Application of modern new materials in product design. In: INTERNATIONAL CONFERENCE ON, 9., 2008. Kunming: IEEE, 2008. p. 759 -764.

YHHG. Polipropileno enxertado com anidrido maleico (MA-g-PP). Disponível em: http://www.yhhg.com/po/product/PP_SZ01.HTML. Acesso em: 12 abr. 2014.

Published

2014-12-02

How to Cite

Calegari, E. P., Oliveira, B. F. de, & Lenz, D. M. (2014). The development of products from new materials: biocomposites application in product design. Projetica, 5(2), 149–168. https://doi.org/10.5433/2236-2207.2014v5n2p149

Issue

Section

Artigos

Most read articles by the same author(s)

Similar Articles

1 2 > >> 

You may also start an advanced similarity search for this article.