The elastic modulus of paper coating in tension and compression

P Alam; Xu Q; Martti Toivakka; H Hämäläinen; S Syrjälä

The elastic modulus of paper coating in tension and compression

P Alam, Xu Q, Martti Toivakka, H Hämäläinen, S Syrjälä

Research output: Chapter in Book/Conference proceeding › Conference contribution › Scientific › peer-review

Abstract

The mechanical properties of paper coatings were studied in tension and compression. Coatings were formulated with soft and hard latexes and using different latex fractions for the sake of comparison. The elastic modulus was determined under static loading conditions and showed no effect when using different loading rates. Voigt, Reuss and Halpin-Tsai models were used to predict the elastic modulus of coatings in compression and tension. In tension, the models showed a high level of variability and no particular model could be deemed suitable for predicting the tensile modulus of coatings. In compression, the Voigt model was shown to predict the elastic modulus of coatings to within one standard deviation of the experimental mean and the reason for the success of the Voigt model as a means of predicting the compressive modulus is related to its micro-deformational characteristics.

Original language	Undefined/Unknown
Title of host publication	TAPPI Coating and Graphics Arts Conference
Publisher	TAPPI Press
Pages	–
Publication status	Published - 2007
MoE publication type	A4 Article in a conference publication
Event	conference - Duration: 1 Jan 2010 → …

Conference

Conference	conference
Period	01/01/10 → …

Cite this

@inproceedings{e11c8c34531e4abc8d84e0a6392bbeb4,

title = "The elastic modulus of paper coating in tension and compression",

abstract = "The mechanical properties of paper coatings were studied in tension and compression. Coatings were formulated with soft and hard latexes and using different latex fractions for the sake of comparison. The elastic modulus was determined under static loading conditions and showed no effect when using different loading rates. Voigt, Reuss and Halpin-Tsai models were used to predict the elastic modulus of coatings in compression and tension. In tension, the models showed a high level of variability and no particular model could be deemed suitable for predicting the tensile modulus of coatings. In compression, the Voigt model was shown to predict the elastic modulus of coatings to within one standard deviation of the experimental mean and the reason for the success of the Voigt model as a means of predicting the compressive modulus is related to its micro-deformational characteristics.",

author = "P Alam and Xu Q and Martti Toivakka and H H{\"a}m{\"a}l{\"a}inen and S Syrj{\"a}l{\"a}",

year = "2007",

language = "Odefinierat/ok{\"a}nt",

pages = "–",

booktitle = "TAPPI Coating and Graphics Arts Conference",

publisher = "TAPPI Press",

note = "conference ; Conference date: 01-01-2010",

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TY - GEN

T1 - The elastic modulus of paper coating in tension and compression

AU - Alam, P

AU - Q, Xu

AU - Toivakka, Martti

AU - Hämäläinen, H

AU - Syrjälä, S

PY - 2007

Y1 - 2007

N2 - The mechanical properties of paper coatings were studied in tension and compression. Coatings were formulated with soft and hard latexes and using different latex fractions for the sake of comparison. The elastic modulus was determined under static loading conditions and showed no effect when using different loading rates. Voigt, Reuss and Halpin-Tsai models were used to predict the elastic modulus of coatings in compression and tension. In tension, the models showed a high level of variability and no particular model could be deemed suitable for predicting the tensile modulus of coatings. In compression, the Voigt model was shown to predict the elastic modulus of coatings to within one standard deviation of the experimental mean and the reason for the success of the Voigt model as a means of predicting the compressive modulus is related to its micro-deformational characteristics.

AB - The mechanical properties of paper coatings were studied in tension and compression. Coatings were formulated with soft and hard latexes and using different latex fractions for the sake of comparison. The elastic modulus was determined under static loading conditions and showed no effect when using different loading rates. Voigt, Reuss and Halpin-Tsai models were used to predict the elastic modulus of coatings in compression and tension. In tension, the models showed a high level of variability and no particular model could be deemed suitable for predicting the tensile modulus of coatings. In compression, the Voigt model was shown to predict the elastic modulus of coatings to within one standard deviation of the experimental mean and the reason for the success of the Voigt model as a means of predicting the compressive modulus is related to its micro-deformational characteristics.

M3 - Konferensbidrag

SP - –

BT - TAPPI Coating and Graphics Arts Conference

PB - TAPPI Press

T2 - conference

Y2 - 1 January 2010

ER -