Your search keyword '"Sofia Reyier Österling"' showing total 3 results

1. Characterization and impact of fiber size variability on the mechanical properties of fiber networks with an application to paper materials

Author

August Brandberg, Sofia Reyier Österling, Artem Kulachenko, and Ulrich Hirn

Subjects

Paper, Cellulose fiber, Matches, Shape and size, Pulp, Textile fibers, Properties of fiber, Micromechanical modelling, Degrees of freedom (mechanics), Standardized methods, Paper and paperboard, Micro-mechanics, General Materials Science, Fiber sizes, Cellulose, Paper materials, Materials, Fiber networks, Applied Mathematics, Mechanical Engineering, Pappers-, massa- och fiberteknik, Paper, Pulp and Fiber Technology, Condensed Matter Physics, Fibers, Mechanics of Materials, Modeling and Simulation, Gaussian noise (electronic), Distribution functions, Sheets

Abstract

Cellulose fibers come in a wide range of shapes and sizes. The heterogeneity of the fiber length, width, wall thickness, curl and external fibrillation is detrimental to the mechanical performance of products such as paper and paperboard. Although micro-mechanical models of these materials sometimes incorporate features of this heterogeneity, so far there is no standardized method of fully incorporating this. We examine a large number of industrial mechanical fiber pulps to determine what information such a standardized method would have to have. We find that the method must allow for both non-Gaussian distributions and dependence between the variables. We present a method of characterizing mechanical pulp under these conditions that views the individual fiber as outcome of a sampling process from a multivariate distribution function. The method is generally applicable to any dataset, even a non-Gaussian one with dependencies. Using a micro-mechanical model of a paper sheet the proposed method is compared with previously presented methods to study whether incorporating both a varying fiber size and dependencies is necessary to match the response of a sheet modeled with measured characterization data. The results demonstrate that micro-mechanical models of paper and paperboard should not neglect the influence of the dependence between the characteristic shape features of the fibers if the model is meant to match physical experiments. © 2022 The Authors

Published

2022

2. MECHANICAL PULPING: The influence of fiber dimensions on mechanical pulp long fiber tensile index and density

Author

Olof Ferritsius, Rita Ferritsius, and Sofia Reyier Österling

Subjects

Materials science, Pulp (paper), Ultimate tensile strength, engineering, General Materials Science, Forestry, Composite material, engineering.material

Abstract

This study discusses how fiber dimensions affect the tensile index and density of long fiber laboratory sheets. Five commercial mechanical pulps (three TMP grades, one SGW and one CTMP) were fracti ...

Published

2012

3. MECHANICAL PULPING: Development of TMP fibers in LC- and HC- refining

Author

Olof Ferritsius, Sofia Reyier Österling, and Rita Ferritsius

Subjects

Materials science, Chromatography, General Materials Science, Forestry, Fiber, Refining (metallurgy)

Abstract

Low consistency (LC) refining and high consistency refining (HC) has been studied in a TMP mill. When strength properties were increased, the development of fiber properties was different in LC- an ...

Published

2012