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References (47)
-
(1973)
Temperature profiles in paper during straining -
(1985)
Visco-elastic properties of wet webs under dynamic conditions -
W. Wagner, A. Pruss (2002)
The IAPWS Formulation 1995 for the Thermodynamic Properties of Ordinary Water Substance for General and Scientific UseJournal of Physical and Chemical Reference Data, 31
-
(1962)
Stress relaxation and work hardening in paper -
(1963)
Response of paper to low frequency sinusoidal strain -
K. Ebeling (1970)
Distribution of Energy Consumption during Straining of Paper. -
(2002)
A micro-mechanical model for mechano-sorptive creep in paper -
H. Kiiskinen, J. Paltakari, P. Pakarinen (2000)
Drying and paper quality -
A. Nissan, S. Sternstein (1962)
Cellulose as a viscoelastic materialPure and Applied Chemistry, 5
-
(1980)
The influence of drying time and temperature on drying stress and related mechanical properties of paper. In: The Influence of Drying Strategies on the Mechanical Properties of Paper -
J. Kubát (1987)
Stress Relaxation in SolidsNature, 205
-
S. Borodulina, A. Kulachenko, M. Nygårds, S. Galland (2012)
Stress-strain curve of paper revisitedNordic Pulp & Paper Research Journal, 27
-
(1971)
Wet web strength related to papermaking -
R. Barker (1963)
An Approximate Relation Between Elastic Moduli and Thermal ExpansivitiesJournal of Applied Physics, 34
-
H. Wiklund, T. Uesaka (2012)
Simulations of shearing of capillary bridges.The Journal of chemical physics, 136 9
-
J. Kubát (1969)
RHEOLOGY OF PAPER -
James Brander (1983)
The Role of fundamental research in paper making : transactions of the symposium held at Cambridge, September 1981 -
Triaxial deformation of paper under tensile load -
R. Dougherty (1998)
Temperature and pressure dependence of hydrogen bond strength: A perturbation molecular orbital approachJournal of Chemical Physics, 109
-
G. Batten, A. Nissan (1987)
Unified theory of the mechanical properties of paper and other H-bond-dominated solids. IIITappi Journal, 70
-
J. Skowronski, A. Robertson (1986)
The deformation properties of paper: tensile strain and recovery, 12
-
(1951)
Some factors affecting the stress–strain characteristics of paper. Sven -
F. Bolam, Board Federation (1976)
The fundamental properties of paper related to its uses : transactions of the symposium held at Cambridge, September, 1973 -
(1995)
Thermally cycled creep of paper -
J. Kubát, Sverker Martin-Lof, Christer Soremark (1969)
THERMAL EXPANSIVITY AND ELASTICITY OF PAPER AND BOARD -
A. DeMaio, T. Patterson (2006)
Influence of bonding on the tensile creep behavior of paper in a cyclic humidity environmentMechanics of Time-Dependent Materials, 10
-
E. Back, L. Andersson (1993)
The Effect of Temperature on Wet Web Strength PropertiesJapan Tappi Journal, 47
-
Jarmo Kouko, K. Salminen, M. Kurki (2007)
Laboratory scale measurement procedure for the runnability of a wet web on a paper machine, Part 2, 89
-
C. Habeger, D. Coffin (2000)
The role of stress concentrations in accelerated creep and sorption-induced physical aging., 26
-
T. Yamauchi, S. Okumura, M. Noguchi (1990)
Acoustic emission as an aid for investigating the deformation and fracture of paper, 16
-
A. Abdel-azim (2011)
Fundamentals of Heat and Mass Transfer -
(1997)
EFFECT OF MOISTURE AND TEMPERATURE ON THE MECHANICAL PROPERTIES OF PAPER -
(1997)
Characterization and mechanisms of changes in wood pulp fibres caused by water removal -
Caroline Hyll, H. Vomhoff, M. Nygårds (2012)
Analysis of the plastic and elastic energy during the deformation and rupture of a paper sample using thermographyNordic Pulp & Paper Research Journal, 27
-
(1967)
Internal stresses , dimensional stability and deformation of paper -
(1976)
Influence of temperature and humidity on the elastic and expansional properties of paper and the constituent fibre -
(1978)
Factors influencing the strength properties of wetwebs. In: Fiber-Water Interactions in Paper-Making -
Fluid Mechanics (2021)
Fluid MechanicsNature, 283
-
W. Batchelor, Ziqi Wu, R. Johnston (2002)
Measurement of Z-direction Moisture Transport and Shrinkage in the Drying of PaperAppita Journal, 57
-
Janne Keränen, J. Paaso, O. Timofeev, H. Kiiskinen (2009)
Moisture and temperature measurement of paper in the thickness directionAppita Journal, 62
-
(2012)
Direct simulations of fiber network and failure -
(1993)
Observation of deforming and fracturing process of paper by use of thermography -
H. Kiiskinen, K. Lyytikäinen, J. Hämäläinen (1998)
Specific heats of dry scandinavian wood pulps, 24
-
(1998)
Rheology and moisture effects -
Factors that affect the stiffness of paper -
A. Tanaka, Y. Otsuka, T. Yamauchi (1997)
In-plane fracture toughness testing of paper using thermographyTappi Journal, 80
-
(2009)
Effects of strain rate on the stress relaxation of wet paper
- Publisher
- Springer Journals
- Copyright
- Copyright © 2014 by Springer Science+Business Media Dordrecht
- Subject
- Engineering; Continuum Mechanics and Mechanics of Materials; Mechanics; Characterization and Evaluation of Materials; Polymer Sciences
- ISSN
- 1385-2000
- eISSN
- 1573-2738
- DOI
- 10.1007/s11043-014-9246-4
- Publisher site
- See Article on Publisher Site
Abstract
The influence of increasing temperature on the strength and relaxation of wet press-dry paper was studied using a tensile tester equipped with a special heating chamber. The heating chamber made fast heating possible without detectable moisture loss. The results showed that temperature had a significant influence on the straining, relaxation and re-straining behavior of wet paper. The majority of observed changes due to increased temperature seem to originate from the softening of wet fibers. The observed short time scale phenomena in wet paper have practical significance for fiber webs dried under tension in paper machines. Straining–relaxation–de-straining cycles were used to analyze the effect of heating on the work of straining and apparent plastic and elastic work. Heating affected the amount of mechanical energy absorbed by the sample and the amount of elastic energy recoverable in a straining–relaxation–de-straining cycle. Increased temperature reduced the work of straining and both elastically and plastically absorbed energy. The hysteresis work of the examined wet papers was estimated to correspond to a 1–22 mK temperature change. This suggests that temperature changes in wet paper induced by straining play no role in practice. After mechanical conditioning, tensile stiffness in the re-straining of wet paper depended only marginally on temperature, whereas in initial straining the effect of temperature was clearly stronger. The linear thermal expansion coefficient of wet paper in the machine direction was estimated and the influence of moisture content on the linear thermal expansion coefficient of paper was found to be relatively small.
Journal
Mechanics of Time-Dependent Materials – Springer Journals
Published: Nov 1, 2014