Marcos Roberto Monteiro scite author profile

Resumo: Este artigo tem a intenção de divulgar e apresentar a inserção da área ou da cadeia produtiva de Compósitos Poliméricos com Fibras Vegetais Naturais dentro do contexto do Projeto Fênix Amazônico. Duas frentes de pesquisa e desenvolvimento na área de compósitos de polímeros com fibras naturais vegetais são propostas: uma que trabalharia com sistemas de produção com maquinário relativamente barato e simples, para que as comunidades rurais da Amazônia pudessem absorver tal tecnologia; uma outra frente para desenvolver materiais compósitos com tecnologia de fabricação mais avançada. Deste modo esperamos despertar o interesse da comunidade científica e tecnológica das mais diversas áreas em colaborar com o desenvolvimento de novas tecnologias que possam ser utilizadas para a recuperação de áreas degradadas da Amazônia. Palavras-chave: Compósitos poliméricos, fibras vegetais naturais, termoplástico/madeira, biodiversidade, Floresta Amazônica, parceria. Development of Polymeric Composites with Natural Fibers: A Contribution to the Sustainability of AmazonAbstract: This paper presents the research on Polymeric Composites with Natural Fibers in the Amazon Fenix Project. Two research and development fields based on polymeric composites with natural vegetable fibers are proposed: the first one considers production systems with simple, cheap machinery to facilitate technology assimilation by rural communities in the Amazon; the second one aims at developing composite materials with advanced production technology. It is hoped to raise awareness for scientific and technological development for the recovery of degraded areas in Amazon.

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Determination of biodiesel blend levels in different diesel samples by 1H NMR

Monteiro

Ambrozin

Lião

et al. 2009

Fuel

137

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Comprehensive multiphase NMR spectroscopy: A new analytical method to study the effect of biodiesel blends on the structure of commercial rubbers

Silva

Filho

Simpson

et al. 2016

Fuel

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h i g h l i g h t sWe evaluate the effect of biodiesel on commercial rubber at molecular level. The new CMP-NMR probe was successful to study the phases in the fuel-rubber system. We observed that the biodiesel penetrates at EPDM despite the opposite report. It is observed the increasing on rubbers softening after biodiesel immersion. a b s t r a c t Biodiesel has been incorporated into the energy matrix in several countries, but its compatibility with some materials used in automotive engines is of growing concern. In the present study, comprehensive multiphase (CMP) NMR is applied to understand the different phases in fuel-rubber systems. CMP NMR is a novel technology that integrates all the hardware from solution-, gel-and solid-state into a single NMR probe, permitting all phases to be studied in samples in their natural unaltered state. Transverse relaxation experiments in combination with inverse diffusion editing permit the increasing mobility of the rubbers chains with biodiesel exposure to be monitored. Conversely diffusion editing and RADE experiments highlight the more rigid domains. In summary NR and NBR showed the absence of highly rigid domains after exposure to biodiesel whereas SBR and EPDM especially better retained their structural integrity. 13 C editing protocols and 13 C-1 H HSQC confirmed the increasing gel-like properties of NR, NBR and SBR with exposure to biodiesel. However, variable contact time experiments showed that biodiesel penetrates even the most resilient EPDM pores causing relaxation of the polymer chains and demonstrates that NMR is sensitive enough to highlight even the very slight swelling of the EPDM. Through these results it is possible to observe that the elastomer that exhibits the lowest susceptibility to biodiesel in molecular terms was EPDM, followed by SBR, NR, and NBR. It was also observed that biodiesel molecules were present in the EPDM structure despite the literature reporting its general resilience to biodiesel.

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Treatment of clay with KF: New solid catalyst for biodiesel production

Alves

Rocha

Monteiro³

et al. 2014

Applied Clay Science

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Direct analysis of biodiesel microemulsions using an inductively coupled plasma mass spectrometry

Amais

Garcia

Monteiro

et al. 2010

Microchemical Journal

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