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| Fältnamn | Indikatorer | Metadata |
|---|---|---|
| 000 | 04846nam a2200349 4500 | |
| 001 | oai:DiVA.org:kth-178048 | |
| 003 | SwePub | |
| 008 | 151203s2015 | |||||||||||000 ||eng| | |
| 020 | a 9789175957494q print | |
| 024 | 7 | a https://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-1780482 URI |
| 040 | a (SwePub)kth | |
| 041 | a engb eng | |
| 042 | 9 SwePub | |
| 072 | 7 | a vet2 swepub-contenttype |
| 072 | 7 | a dok2 swepub-publicationtype |
| 100 | 1 | a Elmukashfi, Elsiddigu KTH,Hållfasthetslära (Avd.)4 aut0 (Swepub:kth)u1a4wgcy |
| 245 | 1 0 | a Modeling of fracture and damage in rubber under dynamic and quasi-static conditions |
| 264 | 1 | a Stockholm :b KTH Royal Institute of Technology,c 2015 |
| 300 | a xv, 37 s. | |
| 338 | a electronic2 rdacarrier | |
| 490 | 0 | a TRITA-HFL. Rapport/ Institutionen för hållfasthetslära, KTH,x 1654-1472 ;v 0581 |
| 500 | a QC 20150203 | |
| 520 | a Elastomers are important engineering materials that have contributed to the different technical developments and applications since the 19th century. The study of crack growth mechanics for elastomers is of great importance to produce reliable products and therefore costly failures can be prevented. On the other hand, it is fundamental in some applications such as adhesion technology, elastomers wear, etc. In this thesis work, crack propagation in rubber under quasi-static and dynamic conditions is investigated.In Paper A, theoretical and computational frameworks for dynamic crack propagation in rubber have been developed. The fracture separation process is presumed to be described by a cohesive zone model and the bulk behavior is assumed to be determined by viscoelasticity theory. The numerical model is able to predict the dynamic crack growth. Further, the viscous dissipation in the continuum is found to be negligible and the strength and the surface energy vary with the crack speed. Hence, the viscous contribution in the innermost of the crack tip has been investigated in Paper B. This contribution is incorporated using a rate-dependent cohesive model. The results suggest that the viscosity varies with the crack speed. Moreover, the estimation of the total work of fracture shows that the fracture-related processes contribute to the total work of fracture in a contradictory manner.A multiscale continuum model of strain-induced cavitation damage and crystallization in rubber-like materials is proposed in Paper C. The model adopts the network decomposition concept and assumes the interaction between the filler particles and long-chain molecules results in two networks between cross-links and between the filler aggregates. The network between the crosslinks is assumed to be semi-crystalline, and the network between the filler aggregates is assumed to be amorphous with the possibility of debonding. Moreover, the material is assumed to be initially non-cavitated and the cavitation may take place as a result from the debonding process. The cavities are assumed to exhibit growth phase that may lead to complete damage. The comparison with the experimental data from the literature shows that the model is capable to predict accurately the experimental data.Papers D and E are dedicated to experimental studies of the crack propagation in rubber. A new method for determining the critical tearing energy in rubber-like materials is proposed in Paper D. The method attempts to provide an accurate prediction of the tearing energy by accounting for the dissipated energy due to different inelastic processes. The experimental results show that classical method overestimates the critical tearing energy by approximately 15%. In Paper E, the fracture behavior of carbon-black natural rubber material is experimentally studied over a range of loading rates varying from quasi-static to dynamic, different temperatures, and fracture modes. The tearing behavior shows a stick-slip pattern in low velocities with a size dependent on the loading rate, temperature and the fracture mode. Smooth propagation results at high velocities. The critical tearing depends strongly on the loading rate as well as the temperature. | |
| 650 | 7 | a TEKNIK OCH TEKNOLOGIERx Maskinteknikx Teknisk mekanik0 (SwePub)203012 hsv//swe |
| 650 | 7 | a ENGINEERING AND TECHNOLOGYx Mechanical Engineeringx Applied Mechanics0 (SwePub)203012 hsv//eng |
| 653 | a Hållfasthetslära | |
| 653 | a Solid Mechanics | |
| 700 | 1 | a Kroon, Martin,c Associate Professoru KTH,Hållfasthetslära (Avd.)4 ths0 (Swepub:kth)u1pnnrrh |
| 700 | 1 | a Ravi-Chandar, Krishnaswami,c Professoru The University of Texas at Austin, USA4 opn |
| 710 | 2 | a KTHb Hållfasthetslära (Avd.)4 org |
| 856 | 4 | u https://kth.diva-portal.org/smash/get/diva2:876354/FULLTEXT01.pdfx primaryx Raw objecty fulltext |
| 856 | 4 8 | u https://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-178048 |
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