Showing total 6 results

1. The Combined Effects of Moisture and Temperature on the Mechanical Response of Paper.

Author

Linvill, E. and Östlund, S.

Subjects

*MECHANICAL behavior of materials, *MOISTURE, *TEMPERATURE effect, *PAPER, *MATHEMATICAL models, *STRAINS & stresses (Mechanics), *TENSILE tests

Abstract

To model advanced 3-D forming strategies for paper materials, the effects of environmental conditions on the mechanical behavior must be quantitatively and qualitatively understood. A tensile test method has been created, verified, and implemented to test paper at various moisture content and temperature levels. Testing results for one type of paper for moisture contents from 6.9 to 13.8 percent and temperatures from 23 to 168 degrees Celsius are presented and discussed. Coupled moisture and temperature effects have been discovered for maximum stress. Uncoupled effects have been discovered for elastic modulus, tangent modulus, hardening modulus, strain at break, tensile energy absorption (TEA), and approximate plastic strain. A hyperbolic tangent function is also utilized which captures the entire one-dimensional stress-strain response of paper. The effects of moisture and temperature on the three coefficients in the hyperbolic tangent function may be assumed to be uncoupled, which may simplify the development of moisture- and temperature-dependent constitutive models. All parameters were affected by both moisture and temperature with the exception of TEA, which was found to only be significantly dependent on temperature. [ABSTRACT FROM AUTHOR]

Published

2014

2. Non-Gaussian Model for Rubber Elasticity: (II) Comparison with Experiment Data for Unswollen and Swollen Rubbers.

Author

Yoshio Hoei

Subjects

*GAUSSIAN processes, *RUBBER, *STRAINS & stresses (Mechanics), *PAPER

Abstract

Abstract  From the non-Gaussian model that has very recently been developed in the paper [I], new stress-strain equations have been derived. They have been examined in comparison with mechanical data taken from the literature for unswollen and swollen rubbers. It is found that the model can well explain the literature data. [ABSTRACT FROM AUTHOR]

Published

2008

3. Screw dislocations interacting with a partially debonded interface in cylindrically anisotropic composites.

Author

Li, B., Liu, Y., and Fang, Q.

Subjects

*SCREWS, *TORQUE, *EQUILIBRIUM, *STRAINS & stresses (Mechanics), *PAPER

Abstract

Interaction between screw dislocations and a partially debonded interface in cylindrically anisotropic composites subjected to uniform stress at infinity is investigated in this paper. Using Muskhelishvili’s complex variable method, the closed forms of complex potentials are obtained for a screw dislocation and a screw dislocation dipole located inside either matrix or inhomogeneity. Explicit expressions of stress intensity factors at the crack tips, image forces and image torques acting on dislocation or the center of dipole are provided. The results show that the crack and dislocation geometry combination plays an important role in the interaction between screw dislocations and interface crack. Furthermore, it is found that the anisotropy of solids may change the shielding and anti-shielding effects arising from screw dislocations and the equilibrium position of screw dislocations. The presented solutions are valid for anisotropic, orthotropic or isotropic composites and can be reduced to some novel or previously known results. [ABSTRACT FROM AUTHOR]

Published

2007

4. Mechano-sorptive creep in wood fibres.

Author

Anne-Mari Olsson, Lennart Salmén, Michaela Eder, and Ingo Burgert

Subjects

*CREEP (Materials), *STRAINS & stresses (Mechanics), *HUMIDITY, *PAPER

Abstract

Abstract?? In order to investigate the way in which fibre properties affect the mechano-sorptive creep phenomenon in paper, single wood fibres were exposed to tensile stresses at a constant humidity of 80% relative humidity (RH) and in a cyclic humidity environment varying between 80 and 30% RH. Contrary to earlier claims, it was demonstrated that single wood fibres exposed to a cyclic RH show a considerably higher creep than that corresponding to the highest RH experienced in the cycle, i.e., a mechano-sorptive behaviour. The creep strain rate at cyclic humidity was shown to be a function of the creep rate at constant climate, and to be an apparent linear function of the applied stress. [ABSTRACT FROM AUTHOR]

Published

2007

5. On Material Characterization of Paper Coating Materials by Microindentation Testing.

Author

Barbier, Christophe, Larsson, Per-Lennart, Östlund, Sören, Hallbäck, Nils, and Karathanasis, Michael

Subjects

PAPER coatings, STRAINS & stresses (Mechanics), DEFORMATIONS (Mechanics), STRENGTH of materials, SURFACE coatings

Abstract

Microindentation as a method for determining important material properties of paper coating materials is studied experimentally and numerically. The bulk of the investigation is concentrated upon the short-lived elastic part of a spherical indentation test, but determination of the failure stress of the coating is also discussed. The results indicate that microindentation can be a powerful tool for material characterization of these materials, but only if careful efforts are made to account for the influence from plasticity as well as from boundary effects. [ABSTRACT FROM AUTHOR]

Published

2005

6. Wound stress of permeable papers with air-entrainment.

Author

K. Tanimoto, K. Kohno, S. Takahashi, M. Sasaki, and F. Yoshida

Subjects

WINDING machines, STRAINS & stresses (Mechanics), TORQUE, PAPER

Abstract

Summary The quality of a wound roll is highly dependent upon the in-roll stress distribution, which is controlled by the operating parameters of the center-wind torque, nip and tension. With increasing demands for higher performance of paper winding systems in terms of higher winding speeds, wider web widths and larger wound roll diameters, it becomes of vital importance to determine and understand the optimum operating conditions of these machines. In this paper, a numerical formulation for estimating the in-roll stress of a wound roll is proposed with taking account of the effect of nonlinearity in web compressibility, air-entrainment and permeance. The in-roll stress is calculated as the superposition of the stress increments caused by each winding. The theory of elasto-hydrodynamic lubrication with the compressibility of air is introduced to evaluate the effect of air-entrainment at the roll-inlet. Permeance of air is newly incorporated into the winding model, which is expressed under the assumption that permeance is proportional to the pressure difference of both sides of a web. In order to assure the applicability of the proposed theory, winding tests were conducted using the dry-end section of the paper-making pilot machine. The numerical analysis and experimental observation show the significant effect of the air-entrainment and permeance upon the in-roll stress. [ABSTRACT FROM AUTHOR]

Published

2003