The Effect of Reliability Index Values on Resulting Reliability-Based Topology Optimization Configurations: Numerical Validation by Shape Optimization

Kharmanda, Ghias; Antypas, I. R.; Dyachenkо, A. G.

doi:10.15507/2658-4123.029.201903.332-344

Cited by 4 publications

(11 citation statements)

References 2 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Considering the Performance-Based Approaches, the RBTO problem consists of minimizing the structural volume taking into account the compliance constraint and the reliability one. The problem is mathematically formulated as: (8) The optimum value of the normalized vector can be expressed by: (9) taking into account the sign of the objective function derivative with respect to random variables , we have for the performance-based iosf approach: and (10)…”

Section: Resultsmentioning

confidence: 99%

“…It leads to several configurations, but the developments from a point of view 'reliability analysis' provides same configurations with different densities that doesn't represent importance sense for the following optimization stages. Newly, two different approaches based on the IOSF (Inverse Optimum Safety Factor) are elaborated and applied to linear distribution law [7][8][9]. In this paper, an extension of these approaches is carried out considering nonlinear distribution laws such as lognormal distribution law.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Linear versus nonlinear reliability-based topology optimization with application to bridge structures

2021

View full text Add to dashboard Cite

In general, two types of topology optimization models can be found in literature. The first type is called Deterministic Topology Optimization (DTO) leading to a single layout when considering a given design space. The second type is called Reliability-Based Topology Optimization (RBTO) leading to various solutions. In our previous work, two strategies based on the Inverse Optimum Safety Factors (IOSF) were established and applied simply to the normal (Gaussian or linear) distribution law. In this work, linear and nonlinear (normal and lognormal) distribution RBTO cases are compared. A bridge structure is considered a numerical application to perform this comparison where different layouts at the same level of reliability can be found. The numerical results show that regarding the distribution laws, certain output parameters and safety factor values are affected. This change can affect the resulting topology layouts as well as the output parameter such as the compliance. When rising the values of the reliability index, the values of the compliance become larger and the volume values become lesser for the lognormal distribution when comparing to the normal one.

show abstract

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Linear versus nonlinear reliability-based topology optimization with application to bridge structures

2021

View full text Add to dashboard Cite

show abstract

“…The reliability index values affect the conceptual design stage. The validation of this effect is studied by [28]. In general, the nuclear and spatial applications require very small values of failure probability, the failure probability has to be: P f ϵ [10 -6 -10 -8 ] which corresponds to a reliability index interval β ϵ [4.75 -5.6], while in civil engineering, the failure probability has to be: P f ϵ [10 -6 -10 -5 ] which corresponds to a reliability index interval β ϵ [3 -4.25].…”

Section: Reliability Indexmentioning

confidence: 99%

Reliability-Based Topology Optimization Using Two Alternative Inverse Optimum Safety Factor Approaches: Application to Bridge Structures

Kharmanda

Antypas

Dyachenkо

2020

Engineering Technologies and Systems

Self Cite

View full text Add to dashboard Cite

Introduction. The Deterministic Topology Optimization model provides a single solution for a given design space, while the Reliability-Based Topology Optimization model provides several reliability-based topology layouts with high-performance levels. The objective of this work is to develop two strategies that can provide the designer with two categories of resulting topologies. Materials and Methods. Two alternative approaches based on the Inverse Optimum Safety Factor are developed: the first one is called the Objective-Based IOSF Approach and the second one is called Performance-Based IOSF Approach. When dealing with bridge structures, the uncertainty on the input parameters (boundary conditions, material properties, geometry, etc.) and also output parameters (compliance, etc.) should not be ignored. The sensitivity analysis is the fundamental idea of both developed approaches, identifies the role of each parameter on the structural performance. In addition, the optimization domain choice is important when eliminating material that should not affect the structure functioning. Results. Two numerical examples on a 2D bridge structure are presented to demonstrate the efficiency of the developed approaches. When considering a certain reliability level, the Reliability-Based Topology Optimization leads to two different configurations relative to the Deterministic Topology Optimization one. When increasing the reliability levels, the quantity of materials decreases that leads to an increase in the number of holes in the structures. Discussion and Conclusion. In addition to their simplified implementation, the developed alternative approaches can be considered as two generative tools to produce two different categories (families) of solutions where an alternative choice between two functions (objective/performance) is presented.

show abstract

“…Recently, Kharmanda et al (2019a) and (2019b) developed an efficient tool, called Inverse Optimum Safety (IOSF) method, which is applied to modal analysis cases. The effect of the reliability index values on the resulting reliability-based topology configurations is also studied by Kharmanda et al (2019c).…”

Section: Actual Developments Considering Two Points Of Viewmentioning

confidence: 99%

Comparison of two points of view when developing reliability-based topology optimization model: Validation on fatigue damage analysis

Kharmanda¹,

Shokry²,

Gowid³

et al. 2019

IncertFia

View full text Add to dashboard Cite

show abstract

The Effect of Reliability Index Values on Resulting Reliability-Based Topology Optimization Configurations: Numerical Validation by Shape Optimization

Cited by 4 publications

References 2 publications

Linear versus nonlinear reliability-based topology optimization with application to bridge structures

Linear versus nonlinear reliability-based topology optimization with application to bridge structures

Reliability-Based Topology Optimization Using Two Alternative Inverse Optimum Safety Factor Approaches: Application to Bridge Structures

Comparison of two points of view when developing reliability-based topology optimization model: Validation on fatigue damage analysis

Contact Info

Product

Resources

About