Sawtooth-shaped stringiness with front frame formation for polyacrylic pressure-sensitive adhesives with two different molecular structures

The effect of adhesive thickness on stringiness behavior during 90 peel testing was investigated for crosslinked poly(nbutyl acrylate-acrylic acid) (A) and poly(2-ethylhexyl acrylate-acrylic acid) (B) with a constant crosslinker content. The adhesive thickness was varied over the range from 15 to 60 lm. All adhesive thicknesses exhibited sawtooth-type peeling with a front frame for B, but only the 30-lm thickness generated a front frame-type for A. The peel rate decreased from 15 to 45 lm and plateaued above 45 lm under a constant load test. These results indicate that the adhesion strength increases with adhesive thickness, but reaches a constant value at high thicknesses. The stringiness was also analysed for B and the sawtooth interval observed to increase with increasing thickness. This means the sawtooth number decreased. As a result, the concentrated stress per sawtooth induces easier peeling and so this factor tend to increase the peel rate. Conversely, the stringiness width increased with increasing thickness. The stress load over the stringiness region decreased with an increase in thickness, meaning that a decrease in the concentrated stress decreases the peel rate. The actual peel rate is influenced by the contributions of these two factors. The strain rates during constant peel rate tests decreased slightly with increasing thickness, due to a reduction in the apparent modulus. The molecular mobilities near the adherend and the backing surfaces were evidently restrained by these surfaces, and the relative rates of motion of such restrained molecules decrease with increased thickness.

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Effect of adhesive thickness on the stringiness of crosslinked polyacrylic pressure‐sensitive adhesives

Shitajima

Karyu

Fujii

et al. 2015

J of Applied Polymer Sci

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The Adhesive Thickness Dependence of Adhesion Strengthfor Pressure-Sensitive Adhesive:Interpretation from Stringiness Behavior

Shitajima¹,

Karyu²,

Fujii³

et al. 2015

Journal of the Adhesion Society of Japan

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Effect of Peel Angle on The Stringiness of CrosslinkedPolyacrylic Pressure-Sensitive Adhesives

Nakamura

Shitajima

Noda

et al. 2017

Journal of the Adhesion Society of Japan

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The effect of peel angle on the peel strength was discussed by the observation of stringiness behavior for crosslinked poly (n butyl acrylate acrylic acid)with no and two different crosslinking agent contents under constant peel load. The peel angle was varied over the range from 30 to 180°. Failure mode was cohesive failure for no crosslinked and interfacial failure for crosslinked. The stringiness shape was the sawtooth shape, but it was changed from the front frame type to the no frame type with the increasing of crosslinking degree. The highest peel rate was observed at the peel angle from 120 to 150°. The lower peel rate means the higher peel strength. This result indicates that the lowest peel strength expected to be appeared in this angle range. The stress strain curves were measured at wide strain rate range, and the obtained results were analyzed and the contour line plot of stress for wide strain and strain rate range was prepared. Using this plot, the generated stress in the fibril at the tip of stringiness zone was calculated. As a result, the generated stress was the lowest at peel angle range from 120 to 150°. This result indicates that the peel strength is the lowest in this peel angle range. These results are in accordance with the data obtained by Kaelble［Trans. Soc. Rheology, 4, 45(1960) ］ .

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Sawtooth-shaped stringiness with front frame formation for polyacrylic pressure-sensitive adhesives with two different molecular structures

Cited by 3 publications

References 19 publications

Effect of adhesive thickness on the stringiness of crosslinked polyacrylic pressure‐sensitive adhesives

Effect of adhesive thickness on the stringiness of crosslinked polyacrylic pressure‐sensitive adhesives

The Adhesive Thickness Dependence of Adhesion Strengthfor Pressure-Sensitive Adhesive:Interpretation from Stringiness Behavior

Effect of Peel Angle on The Stringiness of CrosslinkedPolyacrylic Pressure-Sensitive Adhesives

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