Add to ORKGWe consider the Equal-Load-Sharing Fiber Bundle Model as a model for composite materials under stress and derive elastic energy and damage energy as a function of strain. With gradual increase of stress (or strain) the bundle approaches a catastrophic failure point where the elastic energy is always larger than the damage energy. We observe that elastic energy has a maximum that appears after the catastrophic failure point is passed, i.e., in the unstable phase of the system. However, the slope of elastic energy vs. strain curve has a maximum which always appears before the catastrophic failure point and therefore this can be used as a reliable signal of upcoming catastrophic failure. We study this behavior analytically for power-law type a...
We study the physical controls on the scatter of exponents in the critical power law relation that d...
We present a detailed analytical and numerical study of the avalanche distributions of the continuou...
The analogy between structural progressive collapse and Fracture Mechanics is consistent either for ...
This paper presents a spring-fiber bundle model used to describe the failure process induced by ener...
It has recently been reported that the equal load sharing fiber bundle model predicts the rate of ch...
The fiber bundle model describes a collection of elastic fibers under load. The fibers fail successi...
We investigate the global failure threshold of an interconnected set of elements, when a finite frac...
In this paper, the fiber energy in composite materials, subject to an external constant load, is stu...
We report a critical behavior in the breakdown of an equal-load-sharing fiber bundle model at a disp...
We study the damage enhanced creep rupture of disordered materials by means of a fiber bundle model....
Objects subject to a steady load will often resist it for a long time before weakening and suddenly ...
This thesis investigates a generalized history-independent local load sharing (LLS) fiber bundle mod...
We present fiber bundle models of creep rupture of fiber composites considering two different micros...
By comparing the evolution of the local and equal load sharing fiber bundle models, we point out the...
Damage growth in composite materials is a complex process which is of interest in many fields of sci...
We study the physical controls on the scatter of exponents in the critical power law relation that d...
We present a detailed analytical and numerical study of the avalanche distributions of the continuou...
The analogy between structural progressive collapse and Fracture Mechanics is consistent either for ...
This paper presents a spring-fiber bundle model used to describe the failure process induced by ener...
It has recently been reported that the equal load sharing fiber bundle model predicts the rate of ch...
The fiber bundle model describes a collection of elastic fibers under load. The fibers fail successi...
We investigate the global failure threshold of an interconnected set of elements, when a finite frac...
In this paper, the fiber energy in composite materials, subject to an external constant load, is stu...
We report a critical behavior in the breakdown of an equal-load-sharing fiber bundle model at a disp...
We study the damage enhanced creep rupture of disordered materials by means of a fiber bundle model....
Objects subject to a steady load will often resist it for a long time before weakening and suddenly ...
This thesis investigates a generalized history-independent local load sharing (LLS) fiber bundle mod...
We present fiber bundle models of creep rupture of fiber composites considering two different micros...
By comparing the evolution of the local and equal load sharing fiber bundle models, we point out the...
Damage growth in composite materials is a complex process which is of interest in many fields of sci...
We study the physical controls on the scatter of exponents in the critical power law relation that d...
We present a detailed analytical and numerical study of the avalanche distributions of the continuou...
The analogy between structural progressive collapse and Fracture Mechanics is consistent either for ...