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http://hdl.handle.net/10603/428405
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DC Field | Value | Language |
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dc.coverage.spatial | ||
dc.date.accessioned | 2022-12-19T11:18:28Z | - |
dc.date.available | 2022-12-19T11:18:28Z | - |
dc.identifier.uri | http://hdl.handle.net/10603/428405 | - |
dc.description.abstract | The ubiquitous use of concrete as a construction material in the civil engineering industry demands a thorough understanding of its failure process under different types of loading. The composite nature of cementitious materials such as concrete, consisting of multiple phases and defects existing at different length scales, gives rise to complex mechanisms which are responsible for the nonlinear behavior observed at the macroscopic scale. The interaction between phases and the properties of the micro constituents are important aspects that deserve attention while developing models to describe the mechanical response of concrete. Concepts of continuum micromechanics have been effectively used by researchers to predict the overall behavior of composite materials. Compared to the conventional continuum models based on fracture mechanics or damage mechanics, micromechanical approaches have the advantage of being physically more relevant. The models include necessary information about the microstructural attributes of a material and the actual damage mechanisms causing the material to fail. In this thesis, the macroscopic behavior of plain concrete has been modeled under monotonic and fatigue loads by adopting the principles of continuum micromechanics. Damage in concrete has primarily been ascribed to the growth of microcracks. The internal structure of concrete is characterized by the presence of numerous microcracks, even before it is subjected to any external load. Microcracks may also develop in the material due to separation of the coarse aggregate from the surrounding mortar matrix. The aggregatemortar interface is often termed as the weakest link in concrete from where damage begins to propagate. The distributed damage caused by aggregate debonding and the various stages of damage incurred in concrete due to propagation of interface cracks are explicitly simulated by meso scale models. Employing elastic solutions based on fracture mechanics at the lower scale, the resultant nonlinear macroscopic behavior... | |
dc.format.extent | xxii, 192 | |
dc.language | English | |
dc.relation | ||
dc.rights | university | |
dc.title | Micromechanical modeling of fracture and fatigue behavior of cementitious composites | |
dc.title.alternative | ||
dc.creator.researcher | Dutta, Sudakshina | |
dc.subject.keyword | Engineering | |
dc.subject.keyword | Engineering and Technology | |
dc.subject.keyword | Engineering Civil | |
dc.description.note | ||
dc.contributor.guide | Chandra Kishen, J M | |
dc.publisher.place | Bangalore | |
dc.publisher.university | Indian Institute of Science Bangalore | |
dc.publisher.institution | Civil Engineering | |
dc.date.registered | ||
dc.date.completed | 2019 | |
dc.date.awarded | 2019 | |
dc.format.dimensions | 30 | |
dc.format.accompanyingmaterial | None | |
dc.source.university | University | |
dc.type.degree | Ph.D. | |
Appears in Departments: | Civil Engineering |
Files in This Item:
File | Description | Size | Format | |
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01_title.pdf | Attached File | 280.03 kB | Adobe PDF | View/Open |
02_prelim pages.pdf | 321.81 kB | Adobe PDF | View/Open | |
03_table of contents.pdf | 144.03 kB | Adobe PDF | View/Open | |
04_abstract.pdf | 78.51 kB | Adobe PDF | View/Open | |
05_chapter 1.pdf | 117.64 kB | Adobe PDF | View/Open | |
06_chapter 2.pdf | 497.54 kB | Adobe PDF | View/Open | |
07_chapter 3.pdf | 377.02 kB | Adobe PDF | View/Open | |
08_chapter 4.pdf | 395.3 kB | Adobe PDF | View/Open | |
09_chapter 5.pdf | 403.42 kB | Adobe PDF | View/Open | |
10_chapter 6.pdf | 449.39 kB | Adobe PDF | View/Open | |
11_annexure.pdf | 329.12 kB | Adobe PDF | View/Open | |
80_recommendation.pdf | 398.79 kB | Adobe PDF | View/Open |
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