This work presents an efficient approach to quantify uncertainties in composite laminates using the interval analysis, anti-optimization technique, and the α-cut procedure. The solutions are compared with the traditional and robust Monte Carlo method in 3 cases scenarios: natural frequencies, buckling, and strength safe factor. For natural frequencies and buckling loads, the presented Interval based methodology showed 2.5% to 4.5% larger error values when compared to the Monte Carlo method using the same number of function calls. This implies a larger uncertain area, and hence, a better solution. For the strength test using Tsai-Wu failure theory, the error values are even greater: 22% to 46%. A violation of the failure limit was detected b...
This article describes a finite element-based formulation for the statistical analysis of the respon...
A methodology is developed to computationally simulate the uncertain behavior of composite structure...
A reliability based design methodology for laminate sizing and configuration for a special case of c...
Composite materials are used in diverse engineering applications and are widely applied in high-perf...
Composite materials have been used extensively in the aeronautical and automotive industries. Despit...
In practical engineering, the uncertainties commonly exist in the design process of composite struct...
Most engineering systems involve several uncertain or imprecise parameters such as geometric dimensi...
In this paper, the most conservative Tsai-Wu failure envelopes are obtained for laminated composite ...
An approach for the analysis of uncertainty propagation in reliability-based design optimization of ...
The problem of uncertainty propagation in composite laminate structures is studied. An approach base...
In this paper, the main aim is to study and predict macro elastic mechanical parameters of fiber-rei...
This paper proposes a novel multi-scale approach for the reliability analysis of composite structure...
The quantification of uncertainty in composite structures has intuitively significant threat to ensu...
The quantification of uncertainty in composite structures has intuitively significant threat to ensu...
A methodology was developed and validated to quantify the uncertainty for advanced progressive damag...
This article describes a finite element-based formulation for the statistical analysis of the respon...
A methodology is developed to computationally simulate the uncertain behavior of composite structure...
A reliability based design methodology for laminate sizing and configuration for a special case of c...
Composite materials are used in diverse engineering applications and are widely applied in high-perf...
Composite materials have been used extensively in the aeronautical and automotive industries. Despit...
In practical engineering, the uncertainties commonly exist in the design process of composite struct...
Most engineering systems involve several uncertain or imprecise parameters such as geometric dimensi...
In this paper, the most conservative Tsai-Wu failure envelopes are obtained for laminated composite ...
An approach for the analysis of uncertainty propagation in reliability-based design optimization of ...
The problem of uncertainty propagation in composite laminate structures is studied. An approach base...
In this paper, the main aim is to study and predict macro elastic mechanical parameters of fiber-rei...
This paper proposes a novel multi-scale approach for the reliability analysis of composite structure...
The quantification of uncertainty in composite structures has intuitively significant threat to ensu...
The quantification of uncertainty in composite structures has intuitively significant threat to ensu...
A methodology was developed and validated to quantify the uncertainty for advanced progressive damag...
This article describes a finite element-based formulation for the statistical analysis of the respon...
A methodology is developed to computationally simulate the uncertain behavior of composite structure...
A reliability based design methodology for laminate sizing and configuration for a special case of c...