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The Stress Strain Curve of Paper
Trans. of the VIIth Fund. Res. Symp. Cambridge, 1981, 1981The explanation of the in-plane tensile stress-strain curve of paper has long been a matter for debate. In an earlier study it was shown that the elastic modulus of paper is given by an equation Ep = aφEf, where a is a function of the orientation distribution of the fibres in the sheet, φ describes the efficiency of stress transfer between them, and Ef
R. S. Seth, D. H. Page
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Stress-strain curve of paper revisited
Nordic Pulp & Paper Research Journal, 2012Abstract We have investigated a relation between micromechanical processes and the stress-strain curve of a dry fiber network during tensile loading. By using a detailed particle-level simulation tool we investigate, among other things, the impact of “non-traditional” bonding parameters, such as compliance of bonding regions, work of ...
Svetlana Borodulina +3 more
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The stress-strain curve of Luflexen in tension
Journal of Materials Science, 2001This work investigated the stress-strain properties of a low density polyethylene based on novel metallocene catalysts, marketed by BASF under the trade name of Luflexen. It was found that the polymer exhibited rubber-like properties similar to those associated with the styrene-butadiene block copolymers.
R. N. Haward, G. Healey, A. K. Wood
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Stress-strain curves of superplastic alloys
Journal of Materials Science, 1987Force-elongation and stress-strain curves have been analysed for superplastically deformed alloys tested in uniaxial tension under constant cross-head velocity conditions. By considering instability criteria the curves can be divided into three characteristic stages.
A. Juhász +3 more
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2004
Abstract The stress-strain curves in this data set are representative examples of the behavior of several cast alloys under tensile or compressive loads. The curves are arranged by alloy designation. Each figure cites the original source of the curve and provides pertinent background information as available.
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Abstract The stress-strain curves in this data set are representative examples of the behavior of several cast alloys under tensile or compressive loads. The curves are arranged by alloy designation. Each figure cites the original source of the curve and provides pertinent background information as available.
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Stress-strain behavior for curved exponential strips
Bulletin of Mathematical Biology, 1985zbMATH Open Web Interface contents unavailable due to conflicting licenses.
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Stress‐Strain curves for solid polymers
Polymer Engineering & Science, 1995AbstractIn order to provide nw experimetnal facts required for constructing a nonlinear constitutive equationfor solid polymers, some tests wee conducted on amorphous pojymers of polycarbonate and poly(methyl methacrylate) and for a crystalline polymer of polyxymethylene under varous strain paths such as comprssion, torsion and combined tension‐torsion.
Masayoshi Kitagawa +2 more
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Analysis of Stress Strain Curves
The Journal of the Royal Aeronautical Society, 1955It is gratifying to learn from Mr. Nicholls (May 1955, p. 364) that he is favourably impressed with the exponential function, and it is to be hoped that he, and others interested in stress-strain relationships, may find it to be of practical value.While the modifications which he suggests are quite legitimate, they tend to mask the essential simplicity
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1992
The uniaxial tension test is a convenient method for the determination of mechanical properties of a material. A typical curve in the system nominal stress-Cauchy strain is presented in Fig. 5.1, in which the following characteristic points are indicated: 1: proportional limit σ p ; 2: elastic limit σ H ; 3: yield point σ o ; 3–4: platform of ideal ...
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The uniaxial tension test is a convenient method for the determination of mechanical properties of a material. A typical curve in the system nominal stress-Cauchy strain is presented in Fig. 5.1, in which the following characteristic points are indicated: 1: proportional limit σ p ; 2: elastic limit σ H ; 3: yield point σ o ; 3–4: platform of ideal ...
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Development of stress/strain curves for 80In15Pb5Ag
Journal of Electronic Materials, 1999Experimental studies relating stress to strain under large strain conditions were conducted for 80In15Pn5Ag, at strain rates of 0.21 × 10−3 s−1, 0.42 × 10−3 s−1, and 2.1 × 10−3 s−1; and at temperatures of −65, 0, 25, 75, 100, and 125°C. The ultimate tensile stress of 80In15Pb5Ag as a function of temperature and strain rate was plotted.
L. K. Edwards, W. A. Nixon, R. S. Lakes
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