An efficiency-enhanced procedure to treat continuous-time, high-cycle fatigue (HCF) constraints in topology optimization is presented. The HCF model predicts the evolution of fatigue damage at each point in the design domain using a system of ordinary differential equations. We employ gradient-based optimization and the fatigue sensitivities are determined using adjoint sensitivity analysis. As the predicted damage has history dependence, adjoint variables are solved via a stepwise backward procedure. Therefore, the computational cost increases in proportion to the number of time steps. To reduce this cost, we propose an extrapolation technique which is valid for all forms of periodic, proportional loads and most non-proportional loads and ...
While topology optimization has been based mostly on compliance type formulations, industrial applic...
This paper presents the structural design of the automotive component satisfying the damage constrai...
This paper presents a design method for obtaining light weight structure without fatigue failure und...
An efficiency-enhanced procedure to treat continuous-time, high-cycle fatigue (HCF) constraints in t...
We propose a topology optimization method that includes high-cycle fatigue as a constraint. The fati...
In this research, a new layout optimization method considering high cycle fatigue constraint of vari...
This paper shows how the design of a structure can evolve when considering a stressbased topology o...
This paper shows how the design of a structure can evolve when considering a stressbased topology o...
Fatigue, or failure of material due to repeated cyclic loading, is one of the most common causes of ...
Fatigue is responsible for almost 80% of the overall breakages in mechanical components (Oest(2017))...
Additive Manufacturing (AM) is gaining popularity in aerospace and automotive industries. This is a ...
ABSTRACT. Ease in application design methodology of lightweight and fatigue resistant structures is ...
Fatigue is an important mode of failure in mechanical engineering and accounting for it as soon as ...
The paper describes a two-stage approach to optimization of thin-walled structures. The optimization...
Stress based topology optimization has received great interest since almost 20 years because of the ...
While topology optimization has been based mostly on compliance type formulations, industrial applic...
This paper presents the structural design of the automotive component satisfying the damage constrai...
This paper presents a design method for obtaining light weight structure without fatigue failure und...
An efficiency-enhanced procedure to treat continuous-time, high-cycle fatigue (HCF) constraints in t...
We propose a topology optimization method that includes high-cycle fatigue as a constraint. The fati...
In this research, a new layout optimization method considering high cycle fatigue constraint of vari...
This paper shows how the design of a structure can evolve when considering a stressbased topology o...
This paper shows how the design of a structure can evolve when considering a stressbased topology o...
Fatigue, or failure of material due to repeated cyclic loading, is one of the most common causes of ...
Fatigue is responsible for almost 80% of the overall breakages in mechanical components (Oest(2017))...
Additive Manufacturing (AM) is gaining popularity in aerospace and automotive industries. This is a ...
ABSTRACT. Ease in application design methodology of lightweight and fatigue resistant structures is ...
Fatigue is an important mode of failure in mechanical engineering and accounting for it as soon as ...
The paper describes a two-stage approach to optimization of thin-walled structures. The optimization...
Stress based topology optimization has received great interest since almost 20 years because of the ...
While topology optimization has been based mostly on compliance type formulations, industrial applic...
This paper presents the structural design of the automotive component satisfying the damage constrai...
This paper presents a design method for obtaining light weight structure without fatigue failure und...