This work considers the optimization of flexible components of mechanical systems modeled as multibody systems. This approach permits to better capture the effects of dynamic loading under service conditions. This process is challenging because most state-of-the-art studies in structural optimization have been conducted under static or quasi-static conditions. The formulation of the optimization problem for dynamic systems is fundamental; it is not a simple extension of static optimization. Naive implementation leads to fragile and unstable results. The present paper addresses the optimization of a connecting rod of a reciprocating engine with cyclic dynamic loading. Gradient-based methods are adopted for their convergence speed. Different ...
Historically, the optimization of mechanisms started with the selection of several configurations wh...
A methodology is presented for the optimum design of high-speed multibody systems under time-depende...
The dynamic performance of complex mechanisms, such as machine tools, manipulators, vehicles, engine...
This paper is dedicated to the structural optimization of flexible components in mechanical systems ...
This paper considers the optimization of flexible components in mechanical systems thanks to a "full...
Recently mechanical engineering has extended from a component to a system oriented approach. The str...
This paper is dedicated to a comparative evaluation between two methods of optimization to realize t...
The paper considers the optimization of the flexible components of mechanical systems modeled as mul...
This work addresses the topology optimization of structural components embedded in multibody systems...
An optimization methodology that iteratively links the results of multibody dynamics and structural ...
This work addresses the optimization of flexible multibody systems based on the dynamic response of ...
\ua9 2016 The Author(s)Flexible multibody dynamics (FMD) has found many applications in control, ana...
With the evolution of virtual prototyping, mechanical systems are commonly analyzed using a multibod...
Flexible multibody dynamics (FMD) has found many applications in control, analysis and design of mec...
peer reviewedThe paper concerns a detailed comparison between two optimization methods that are used...
Historically, the optimization of mechanisms started with the selection of several configurations wh...
A methodology is presented for the optimum design of high-speed multibody systems under time-depende...
The dynamic performance of complex mechanisms, such as machine tools, manipulators, vehicles, engine...
This paper is dedicated to the structural optimization of flexible components in mechanical systems ...
This paper considers the optimization of flexible components in mechanical systems thanks to a "full...
Recently mechanical engineering has extended from a component to a system oriented approach. The str...
This paper is dedicated to a comparative evaluation between two methods of optimization to realize t...
The paper considers the optimization of the flexible components of mechanical systems modeled as mul...
This work addresses the topology optimization of structural components embedded in multibody systems...
An optimization methodology that iteratively links the results of multibody dynamics and structural ...
This work addresses the optimization of flexible multibody systems based on the dynamic response of ...
\ua9 2016 The Author(s)Flexible multibody dynamics (FMD) has found many applications in control, ana...
With the evolution of virtual prototyping, mechanical systems are commonly analyzed using a multibod...
Flexible multibody dynamics (FMD) has found many applications in control, analysis and design of mec...
peer reviewedThe paper concerns a detailed comparison between two optimization methods that are used...
Historically, the optimization of mechanisms started with the selection of several configurations wh...
A methodology is presented for the optimum design of high-speed multibody systems under time-depende...
The dynamic performance of complex mechanisms, such as machine tools, manipulators, vehicles, engine...