Estudo cinético da reação heterogênea de despolimerização do PET pós-consumo em meio alcalino: influência da velocidade de agitação

Curti, Priscila Schroeder; Fo, Adhemar Ruvolo

doi:10.1590/s0104-14282006000400006

Cited by 6 publications

(3 citation statements)

References 16 publications

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“…The infrared spectrum of PET flakes is shown in Figure 1. The spectrum presented in about 3000 cm -1 band of a CH stretch of aromatic compounds, characteristic of polyesters, in 1715 cm -1 stretch of the carbonyl C = O, indicating the hydrolytic degradation suffered by the residue [6] in 1238 cm -1 stretch a C (O)-O ester groups [7] .…”

Section: Vibrational Spectroscopy In the Infrared Region Of The Waste...mentioning

confidence: 99%

Composites of Cement Matrix Containing Residue of PET Bottles and Stone Dust Replacing the Conventional Materials - Physical Chemistry and Mechanics Evaluations

Pereira

Morais

Rodrigues

et al. 2012

MSF

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The development of technologies that use clean energy and integrated waste management of the residues domestic and industrial aimed a sustainable engineering in the socio-business concepts is an urgent necessity. This present paper has as objective the production of cement composites trace 1:1,2:0,8 (cement : dust stone: gravel) replacing the sand and dust stone for PET waste in the levels of 3, 6, 9, 12 and 15 %, to evaluate the aging time. The materials were characterized using thermal analysis, FTIR and the composites by particle size analysis, unconfined compression strength, among others. The particle size analysis allowed the calculation of fineness modulus, which was 2.59, 1.66, and 3.99 for the dust stone, gravel and PET, respectively. There was a decreasing trend of resistance with the PET increasing in the composition.

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Section: Vibrational Spectroscopy In the Infrared Region Of The Waste...mentioning

confidence: 99%

Composites of Cement Matrix Containing Residue of PET Bottles and Stone Dust Replacing the Conventional Materials - Physical Chemistry and Mechanics Evaluations

Pereira

Morais

Rodrigues

et al. 2012

MSF

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“…Apesar da grande variedade de resinas utilizadas comercialmente, cerca de 90% de todo o volume de material polimérico produzido no Brasil está concentrado em cinco polímeros principais e seus derivados que são: polietileno (PE), polipropileno (PP), poli(cloreto de vinila) (PVC), poliestireno (PS) e poli(tereftalato de etileno) (PET) (BELCHIOR, 2006). Em particular, o PET é o polímero que apresenta a maior percentagem de descarte em volume nos lixões municipais brasileiros e a maior porcentagem de reciclagem (CURTI;).…”

Section: Introductionunclassified

“…Existe grande interesse ambiental e econômico quanto à reutilização dos rejeitos poliméricos pós-industriais e pós-consumo, devido ao grande volume de descarte destes no meio ambiente e ao valor agregado que podem apresentar (CURTI;. Esses resíduos, em geral, levam muito tempo para sofrerem degradação espontânea e, quando queimados, produzem gases tóxicos BONELLI, 1994;MANCINI, 2004).…”

Section: Introductionunclassified

Alternativas para o Reaproveitamento de Rejeitos Industriais de Poli(tereftalato de etileno) Reciclado

Bimestre¹

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PET recycled and processed from flakes with different amount of water uptake: characterization by DSC, TG, and FTIR-ATR

Rúvolo-Filho

Curti

2007

J Mater Sci

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Estudo cinético da reação heterogênea de despolimerização do PET pós-consumo em meio alcalino: influência da velocidade de agitação

Cited by 6 publications

References 16 publications

Composites of Cement Matrix Containing Residue of PET Bottles and Stone Dust Replacing the Conventional Materials - Physical Chemistry and Mechanics Evaluations

Composites of Cement Matrix Containing Residue of PET Bottles and Stone Dust Replacing the Conventional Materials - Physical Chemistry and Mechanics Evaluations

Alternativas para o Reaproveitamento de Rejeitos Industriais de Poli(tereftalato de etileno) Reciclado

PET recycled and processed from flakes with different amount of water uptake: characterization by DSC, TG, and FTIR-ATR

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