INVESTIGADORES
AREA Maria Cristina
congresos y reuniones científicas
Título:
Office paper recyclability: fibrous characteristics
Autor/es:
BENITEZ J.; KOGA, M.E.T.; OTERO DE ALMEIDA, M.L; FELISSIA, F.; PARK, S.W.; AREA, M.C.
Lugar:
Colonia del Sacramento
Reunión:
Congreso; 6th International Colloquium on Eucalyptus Pulp (6th ICEP); 2013
Institución organizadora:
ICEP
Resumen:
Recyclability is the ability of a material to reacquire the
same properties it had originally. The aim of this work was to verify the
recyclability of three printing and writing papers, from the characteristics of
their fibers after two recycles. Three ECF bleached kraft eucalyptus bond
commercial papers from Argentina and Brazil were studied (A, B, C). The papers
were repulped and refined using different levels and intensities of energy (1st
recycle). Laboratory sheets were produced, and they were repulped and refined
again (2nd recycle). The microscopic characteristics of repulped papers were
obtained by authomatic equipment based on image analysis. Differences found in
the behavior of the different samples can be explained by fiber parameters. The
fiber length was significantly different in the three papers (A> B> C)
and globally decreased in the second recycle (about 6%). Sample A had the
highest initial fiber length and length/width, but it largely decreased with
refining conditions in the 1st recycle (length fall 12%, generating fines by
cutting), whereas it fall 9% between the 1st and 2nd recycles, and nothing with
refining conditions in the 2nd recycle. Sample B fall by 5% with refining
conditions in the 1st recycle, and 9% between the 1st and the 2nd recycle, but
suffered few alteration in the second recycle. Fiber length of sample C was unaffected
by refining conditions and only decreased 9% between the 1st and 2nd recycles.
In all cases, the generated fines increased lightly with refining in the first
recycle, but were two-fold higher in the second recycle than in the first one.
The fiber coarseness of the 3 samples was similar in the first recycle, but
decreases significantly in the 2nd recycle.