Development of fibre properties in mill scale high- and low consistency refining of thermomechanical pulp (Part 1)-Reference-Cited by-同舟云学术

Development of fibre properties in mill scale high- and low consistency refining of thermomechanical pulp (Part 1)

Published:2020-09-16 Issue:4 Volume:35 Page:589-599
ISSN:2000-0669
Container-title:Nordic Pulp & Paper Research Journal
language:en
Short-container-title:

Author:

Ferritsius Rita¹²,Sandberg Christer³²,Ferritsius Olof²,Rundlöf Mats⁴,Daniel Geoffrey⁵,Mörseburg Kathrin⁶,Fernando Dinesh⁵

Affiliation:

1. StoraEnso Paper Kvarnsveden Mill , Borlänge , Sweden

2. 6311 Mid Sweden University , Sundsvall , Sweden

3. Holmen Paper , Norrköping , Sweden

4. Capisco , Mariehov Kanalbyn 108 , Söderköping , Sweden

5. 8095 SLU , Dept. of Forest Biomaterials and Technology , Box 7008 , Uppsala , Sweden

6. 376550 RISE-PFI , Høgskoleringen 6b , Trondheim , Norway

Abstract

Abstract The aim of this study was to evaluate changes in fibre properties with high (HC)- and low consistency (LC) refining of TMP and determine how these contribute to tensile index. Two process configurations, one with only HC refining and another with HC refining followed by LC refining were evaluated in three TMP mainline processes in two mills using Norway spruce. An increase in tensile index for a given applied specific energy was similar for all LC refiners in the three lines, despite differences in the fibre property profiles of the feed pulps. Compared with only HC refined pulps at a given tensile index, HC+LC refined pulps had greater fibre wall thickness, similar fibre length, strain at break and freeness, but lower light scattering coefficient, fibre curl and external fibrillation. The degree of internal fibrillation, determined by Simons’ stain measurements, was similar for both configurations at a given tensile index. The results indicate that the increase in tensile index in LC refining is largely influenced by a decrease in fibre curl and in HC refining by peeling of the fibre walls. Compared at a given tensile index, the shive content (Somerville mass fraction) was similar for both HC+LC and HC refining.

Publisher

Walter de Gruyter GmbH

Subject

General Materials Science,Forestry

Link

https://www.degruyter.com/document/doi/10.1515/npprj-2020-0027/pdf

Reference47 articles.

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