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Your search keyword '"Bazant, Zdenek, P."' showing total 14 results
Start Over Author "Bazant, Zdenek, P." Topic fracture mechanics
14 results on '"Bazant, Zdenek, P."'

5. A precis of fishnet statistics for tail probability of failure of materials with alternating series and parallel links

Author

Bazant, Zdenek P.

Subjects
межуровневый переход, прочность материала, strength scaling, микромеханика разрушения, scale bridging, micromechanics of failure, nanoscale fracture, material strength, fracture mechanics, size effect, механика разрушения, биомиметические материалы, tolerable risk, вероятностная механика, nacreous materials, probabilistic mechanics, biomimetic materials, масштаб прочности, размерный эффект, наноразрушение, допустимый риск, перламутр
Abstract

During the last dozen years it has been established that the Weibull statistical theory of structural failure and strength scaling does not apply to quasibrittle materials. These are heterogeneous materials with brittle constituents and a representative volume element that is not negligible compared to the structure dimensions. A new theory of quasibrittle strength statistics in which the strength distribution is a structure size dependent graft of Gaussian and Weibull distributions has been developed. The present article gives a precis of several recent studies, conducted chiefly at the writer’s home institution, in which the quasibrittle statistics has been refined to capture the statistical effect of alternating series and parallel links, which is exemplified by the material architecture of staggered platelets seen on the submicrometer scale in nacre. This architecture, which resembles a fishnet pulled diagonally, intervenes in many quasibrittle materials. The fishnet architecture is found to be advantageous for increasing the material strength at the tail of failure probability 10 6, which represents the maximum tolerable risk for engineering structures and should be adopted as the basis of tail-risk design. Scaling analysis, asymptotic considerations, and cohesive fracture process zone, which were the hallmark of Barenblatf s contributions, pervade the new theory, briefly called the ’’fishnet statistics”., В последнее десятилетие установлено, что статистическая теория Вейбулла неприменима для описания потери несущей способности и прочности квазихрупких материалов на различных масштабах. К таким материалам относят гетерогенные материалы с хрупкими компонентами и представительным элементом объема, размерами которого нельзя пренебречь по сравнению с размерами конструкции. В новой теории статистики прочности для квазихрупких материалов распределение прочности описывается через распределения Гаусса и Вейбулла с учетом размера конструкции. В данной работе представлен краткий обзор недавних исследований статистического влияния рядовых и параллельных связей для материала со структурой из расположенных в шахматном порядке пластинок, подобно наблюдаемой в субмикрометровом диапазоне для перламутра. Структура, напоминающая сеть с ромбовидными ячейками, встречается во многих материалах. Показано, что fishnet конструкции с ромбовидными ячейками увеличивают прочность материала в области хвоста распределения вероятности разрушения 10 6, соответствующей максимально допустимому риску для инженерных конструкций, и могут использоваться в качестве базовых в проектировании конструкций с учетом остаточных рисков. Предложенная теория, названная fishnet статистикой, широко использует введенные Г.И. Баренблатом понятия скейлингового анализа, асимптотических критериев и зоны когезионного разрушения.

Published
2018
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6. Theory of cyclic creep of concrete based on Paris law for fatigue growth of subcritical microcracks.

Author

Bazant, Zdenek P. and Hubler, Mija H.

Subjects
*CREEP (Materials), *MATERIAL fatigue, *MICROCRACKS, *FRACTURE mechanics, *CYCLIC fatigue
Abstract

Abstract: Recent investigations prompted by a disaster in Palau revealed that worldwide there are 69 long-span segmental prestressed-concrete box-girder bridges that suffered excessive multi-decade deflections, while many more surely exist. Although the excessive deflections were shown to be caused mainly by obsolescence of design recommendations or codes for static creep, some engineers suspect that cyclic creep might have been a significant additional cause. Many investigators explored the cyclic creep of concrete experimentally, but a rational mathematical model that would be anchored in the microstructure and would allow extrapolation to a 100-year lifetime is lacking. Here it is assumed that the cause of cyclic creep is the fatigue growth of pre-existing microcracks in hydrated cement. The resulting macroscopic strain is calculated by applying fracture mechanics to the microcracks considered as either tensile or, in the form of a crushing band, as compressive. This leads to a mathematical model for cyclic creep in compression, which is verified and calibrated by laboratory test data from the literature. The cyclic creep is shown to be proportional to the time average of stress and to the 4th power of the ratio of the stress amplitude to material strength. The power of 4 is supported by the recent finding that, on the atomistic scale, the Paris law should have the exponent of 2 and that the exponent must increase due to scale bridging. Exponent 4 implies that cyclic creep deflections are enormously sensitive to the relative amplitude of the applied cyclic stress. Calculations of the effects of cyclic creep in six segmental prestressed concrete box girders indicate that, because of self-weight dominance, the effect on deflections absolutely negligible for large spans . For small spans the cyclic creep deflections are not negligible but do not matter since the static creep causes in such bridges upward deflections. However, the cyclic creep is shown to cause in bridges with medium and small spans a significant residual tensile strain which can produce deleterious tensile cracking at top or bottom face of the girder. [Copyright &y& Elsevier]

Published
2014
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7. Effects of Size and Slenderness on Ductility of Fracturing Structures.

Author

Bazant, Zdenek P. and Becq-Giraudon, Emilie

Subjects
*FRACTURE mechanics, *CRACKING of concrete
Abstract

Deals with a study which analyzed the ductility of simple elastic structures with a growing crack using linear elastic fracture mechanics (LEFM). Deflection components and soft loading of the study; Types of load-deflection diagrams and snapback; Review of fracture analysis of load-deflection curve; Calculation of ductility from load-deflective diagram.

Published
1999

8. Size Effect in Penetration of Sea Ice Plate With Part-Through Cracks. II: Results.

Author

Bazant, Zdenek P. and Kim, Jang Jay H.

Subjects
*FRACTURE mechanics, *STRUCTURAL failures
Abstract

Presents information on the theory of a numerical solution of the fracture problem of penetration of an object through a floating ice plate to obtain results on the size effect and compares them to experimental data. Numerical calculation of deflection, stress and crack depth profiles; Dependence of size effect on number of cracks; Analysis of size effect results.

Published
1998

9. Acoustic emission in fracturing sea ice plate simulated by particle system.

Author

Zhengzhi Li and Bazant, Zdenek P.

Subjects
*SEA ice, *FRACTURE mechanics
Abstract

Focuses on the simulation of in-plane dynamic fracture jumps and acoustic emissions in sea ice floes of different sizes by the particle system. Spatial location of hydrophone; Calculation of the acoustic signals in the frequency domain; Types of acoustic emissions from ice sheet fracture.

Published
1998
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10. Size effect in compression fracture: Splitting crack band propagation.

Author

Bazant, Zdenek P. and Xiang, Yuyin

Subjects
*FRACTURE mechanics, *COLUMNS
Abstract

Presents a simplified fracture-mechanics-based model of compression failure of centrically or eccentrically loaded quasi-brittle columns and predicts the size effect on the nominal strength of a column. Modeling of failure as propagation of a band of axial splitting cracks; Slenderness of the column.

Published
1997

11. Size effect and fracture characteristics of composite laminates.

Author

Bazant, Zdenek P. and Daniel, Isaac M.

Subjects
*LAMINATED materials, *FRACTURE mechanics
Abstract

Examines size effect on the nominal strength and fracture characteristics of graphite fiber laminates. Correlation between microcracking and stacking sequence lay-up of laminates; Experimentation on graphite/epoxy laminates for failure patterns; Discussion of fracture tests and structure size effects of composite laminates; Relationship between size effect and material fracture.

Published
1996

12. Plasticity Model for Predicting Punching Shear Strengths of Reinforced Concrete Slabs.

Author

Bazant, Zdenek P.

Subjects
SHEAR (Mechanics), STRENGTH of materials, CONCRETE slabs, REINFORCED concrete, MATERIAL plasticity, PUNCHING (Metalwork), FRACTURE mechanics
Abstract

Comments on the article "Plasticity Model for Predicting Punching Shear Strengths of Reinforced Concrete Slabs," by W. Salim and W. M. Sebastian. Issues from the article that were discussed; Views on the assumptions of plastic limit analysis; Solution for the transition between plasticity and fracture mechanics.

Published
2003

13. Size Dependence of Strength and Fracture Properties of Brick Masonry Walls.

Author

Bazant, Zdenek P.

Subjects
*MASONRY veneers, *BRICK walls, *STRENGTH of materials, *FRACTURE mechanics
Abstract

Discusses the paper `Size Dependence of Strength and Fracture Properties of Brick Masonry Walls,' by Alberto Carpinteri, Bernardino Chiaia and Pietro Bocca. INSET: Closure by Alberto Carpinteri, Fellow, ASCE, Bernardino....

Published
1998

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