The effect of ultraviolet light on the mechanical properties of polyethylene and polypropylene films

Raab, M.; Kotulák, L.; Kolařı́k, Jan; Pospı́šil, J.

doi:10.1002/app.1982.070270716

Cited by 80 publications

(35 citation statements)

References 9 publications

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“…On the other hand, if the modulus is measured with the Instron dynamometer, already at low deformations a small stress may cause an increase in the deformation; consequently the modulus in the transverse direction may decrease, while the anisotropy of the moduli may increase. This effect is still more pronounced in the tensile strength determination, when a relatively small strain is already sufficient to bring about catastrophic break This is in agreement with the mechanism of failure of polypropylene and polyethylene films examined in greater detail by Raab et al [1]. The anisotropies of tensile strength and of the modulus of undrawn polypropylene film are small and they almost do not differ from each other.…”

Section: Resultssupporting

confidence: 68%

“…We assume that such an effect is represented by the presence of micro-or macrodefects, or of longitudinal cracks between bundles of microfibrils, if a fibrillar structure according to Peterlin is assumed [5]. Flaws such as supposed by, e. g., Raab et al [1] may affect insignificantly the magnitude of the sonic modulus along the axes of microfibrills (direction of drawing), but in the transverse direction they may cause acoustic inhomogeneity, and thus affect the sonic modulus. They certainly do reduce the tensile strength and elongation-at-break in the transverse direction.…”

Section: Resultsmentioning

confidence: 99%

“…Different values of the anisotropies of tensile strenght and modulus may also be a result of macro-or microcracks and cavities which may occur in the drawn polypropylene film and affect the tensile strength and modulus in a different way. In this study we made an attempt to define quantitatively relations between the individual types of mechanical anisotropy and to confront them with the conception of oriented cracks in the drawn polypropylene film [1].…”

Section: Introductionmentioning

confidence: 99%

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Mechanical anisotropy of a monoaxially drawn polypropylene film

Kudrna

Makovský²,

Krejči

1984

Colloid & Polymer Sci

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Abstract:The tensile strength values, tensile moduli (measured with an Instron dynamometer) and sonic moduli of a monoaxially oriented polypropylene film were determined. Anisotropy was defined by the ratio between the tensile strength or modulus values in the direction of drawing and in the perpendicular direction. The difference amounting to an order of magnitude between the anisotropy of tensile strength and of the sonic modulus is explained by the existence of cracks between bundles of microfibrils. Anisotropy of the modulus determined with the instron dynamometer is lower than that of tensile strength, but higher than that of the sonic modulus. This is a consequence of the failure of the system which occurs in the transverse direction already at low deformations.

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Section: Resultssupporting

confidence: 68%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Mechanical anisotropy of a monoaxially drawn polypropylene film

Kudrna

Makovský²,

Krejči

1984

Colloid & Polymer Sci

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“…The effects of natural weathering on mechanical properties and chemical structure of Ni quenchers combined with UV absorber-stabilized LDPE were also studied by Akay et al 4 No simple correlation was found to exist between the development of carbonyl groups and strain at break which was one of the most important parameters in following UV stability. It was also shown by Raab et al 5 that the chemical changes might not greatly influence the bulk properties, such as complex modulus, but they significantly decreased strain at break because fracture followed the weakest path in the material. 5 Hence, in UV stability assessments, the change in elongation at break commonly is used rather than other mechanical properties.…”

Section: Introductionmentioning

confidence: 87%

“…It was also shown by Raab et al 5 that the chemical changes might not greatly influence the bulk properties, such as complex modulus, but they significantly decreased strain at break because fracture followed the weakest path in the material. 5 Hence, in UV stability assessments, the change in elongation at break commonly is used rather than other mechanical properties. An initial increase in residual elongation (RE: the ratio of strain at break at the given UV exposure time to strain at break of unexposed sample) followed by steady decrease was described as chain stiffening effect.…”

Section: Introductionmentioning

confidence: 87%

?-Irradiated poly(tetrafluoroethylene) particle-filled low-density polyethylene. II. UV stability of LDPE in the presence of 2�-PTFE powder and silane coupling agents

Akinay

Ti̇nçer

1999

J. Appl. Polym. Sci.

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Ultraviolet (UV) stability of ␥-irradiated poly(tetrafluoroethylene), 2°-PTFE, powder-filled low-density polyethylene (LDPE) was studied in this work. The mechanical and thermal properties of 2°-PTFE powder-filled LDPE were discussed in our previous work (Akınay and Tinçer, 1999). It already has been shown that silane coupling agents (SCAs) result in improvements in mechanical properties. The UV stability of these samples was followed by a comparision between strain at break measured after UV irradiation and the initial strain at break, in terms of their ratio defined as residual elongation. The development of carbonyl index was also determined by infrared measurements. To get further UV stability, a hindered amine light stabilizer (HALS) was also used. Whereas addition of 2°-PTFE slightly enhanced the UV stability of LDPE, mercapto type silane (A-189) treatment appeared to increase the UV stability compared with the other types of silane treatments. HALS highly improved the UV stability of untreated and silane-treated 2°-PTFE-filled LDPE at given UV irradiation time. Although we observed some fluctuations in the experimental data of HALS and SCA treated 2°-PTFE-filled LDPE, the coaddition of HALS and SCAs showed synergetics effects in the UV stability compared with the separate additions.

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Natural weathering of polypropylene films. II. Ultimate properties and exposure time

Uzomah

Unuoha

1998

J. Appl. Polym. Sci.

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Changes in the ultimate properties brought about by outdoor weathering during the rainy season of polypropylene (PP) films were studied. The results obtained showed that the draw ratio l d , tensile stress s b , breaking ratio l b , breaking factor (BF), work draw U d , and work for rupture U r all increased with increase in outdoor exposure time, attaining a maximum at about 240-h exposure time, before decreasing with further increases in exposure time. On the other hand, the draw ratio d s remained practically constant up to about 100-h exposure time. The changes in the former set of properties were corroborated by the changes in the apparent crystallinity of the PP samples. In addition, it was shown that a 504-h exposure time was not enough to reduce the properties to damaging levels.

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The effect of ultraviolet light on the mechanical properties of polyethylene and polypropylene films

Cited by 80 publications

References 9 publications

Mechanical anisotropy of a monoaxially drawn polypropylene film

Mechanical anisotropy of a monoaxially drawn polypropylene film

?-Irradiated poly(tetrafluoroethylene) particle-filled low-density polyethylene. II. UV stability of LDPE in the presence of 2�-PTFE powder and silane coupling agents

Natural weathering of polypropylene films. II. Ultimate properties and exposure time

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