Effect of crack tip sharpness on the strength of vulcanized rubbers

Lake, G. J.; Yeoh, O. H.

doi:10.1002/polb.1987.090250601

Cited by 69 publications

(64 citation statements)

References 34 publications

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“…Mixed mode crack propagation studies on mammalian tissue (Purslow, 1983a b;Pereira et al, 1997) and rubber (De and Gent, 1996;Greensmith and Thomas, 1955;Lake and Yeoh, 1978;Lake and Yeoh, 1987) suggest that the measured toughness J IC is sensitive to the type of test performed. Scissor cutting tests and razor cutting tests maintain a sharp crack tip and give a low-toughness value.…”

Section: Toughnessmentioning

confidence: 98%

The penetration of a soft solid by a liquid jet, with application to the administration of a needle-free injection

Shergold

Fleck

King

2006

Journal of Biomechanics

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Section: Toughnessmentioning

confidence: 98%

The penetration of a soft solid by a liquid jet, with application to the administration of a needle-free injection

Shergold

Fleck

King

2006

Journal of Biomechanics

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“…Previous studies [13][14][15][16] showed that the measured fracture energy is significantly reduced when a sharp blade is applied at the tip of a crack. This phenomenon was attributed to a constant crack-tip diameter, which equals the sharpness of the blade, in the process of fracture.…”

Section: Cutting Testmentioning

confidence: 98%

“…It has been pointed out that the crosslinking density of EPDM plays an important role in reducing the tensile set and increasing the tensile strength of TPEs. 8 Swollenstate 13 C-NMR spectroscopy has been successfully applied to estimate the crosslinking densities in EPDM-based TPEs. 11 Recently, a comprehensive review article on the EPDM/PP TPEs prepared by dynamic vulcanization was published.…”

Section: Introductionmentioning

confidence: 99%

Fracture energies and tensile strength of an EPDM/PP thermoplastic elastomer

Wang

Chang

2000

J. Appl. Polym. Sci.

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ABSTRACT:Measurements of the tear strength of EPDM/PP thermoplastic elastomers (EPDM/PP TPEs, Santoprene 201-87) were carried out at various rates and temperatures. In addition, a cutting technique developed recently was adopted to measure the fracture energy in a process where a well-controlled geometry of the crack tip was obtained. Results show that the EPDM/PP TPEs possess a relatively high tear strength of 10.40 Ϯ 0.94 kJ/m 2 at room temperature. Furthermore, good tear strength is still preserved, about 1.87 Ϯ 0.38 kJ/m 2 , at 150°C, where some PP crystals are melted and start to flow. In contrast, the intrinsic strength of EPDM/PP TPEs determined from a cutting test is varied slightly, 700 -1000 J/m 2 , over a wide range of temperatures and rates. A comparison of the fracture energy measured by tearing and cutting tests is provided and discussed. The energy density per unit volume of EPDM/PP TPEs determined from the cutting test is 9.7 GJ/m 3 , which is about twice larger than that for the rupture of COC bonds at room temperature. It is suggested that plastic yielding is a more effective process to enhance the toughness than is simply viscoelastic motion.

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“…Earlier studies have suggested that the puncture process associated with medical needles involves a cutting phenomenon . Other studies have related cutting to the fracture energy G c of the material (Lake and Yeoh 1987;Cho and Lee 1998). According to the energy balance of fracture mechanics, the energy necessary to create a new fracture surface, the fracture energy G s , can be expressed by (Felbeck and Atkins 1996):…”

Section: Resultsmentioning

confidence: 99%

Puncture of elastomer membranes by medical needles. Part I: Mechanisms

et al. 2009

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Resistance to puncture is a critical property for several applications, in particular for elastomer materials used in protective clothing. To evaluate the puncture resistance of membranes, some methods have been proposed as standard tests. However, the rounded puncture probes used in these tests are very different from real pointed objects like medical needles, and may not measure the level of material resistance that corresponds to them. In fact, puncture by medical needles is shown to proceed gradually as the needle cuts into the membrane. This behavior is highly different from puncture by rounded probes which occurs suddenly when the strain at the probe tip reaches the failure value. In addition, maximum force values are observed to be much smaller with medical needles. A method has been developed based on the change in strain energy with the puncture depth to evaluate the fracture energy associated to puncture. The results show that the phenomenon of puncture by medical needles involves contributions both from friction and fracture energy, in a similar way as for cutting. A lubricant was tentatively used to reduce the friction contribution for the computation of the material fracture energy.

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Effect of crack tip sharpness on the strength of vulcanized rubbers

Cited by 69 publications

References 34 publications

The penetration of a soft solid by a liquid jet, with application to the administration of a needle-free injection

The penetration of a soft solid by a liquid jet, with application to the administration of a needle-free injection

Fracture energies and tensile strength of an EPDM/PP thermoplastic elastomer

Puncture of elastomer membranes by medical needles. Part I: Mechanisms

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