In this work, we explore simultaneous design and material selection by posing it as an optimization problem. The underlying principles for our approach are Ashby's material selection procedure and structural optimization. For the simplicity and ease of initial implementation of the general procedure, truss structures under static load are considered in this work in view of maximum stiffness, minimum weight/cost and safety against failure. Along the lines of Ashby's material indices, a new design index is derived for trusses. This helps in choosing the most suitable material for any design of a truss. Using this, both the design space and material database are searched simultaneously using optimization algorithms. The important feature of ou...
A computational scheme is presented for the calculation of the optimal design of trusses. Constraint...
An actual design of light‐weight structures must evaluate strength, stiffness and stability constrai...
Designing structures for lightness is an intelligent and responsible way for engineers and architect...
In this work, we explore simultaneous design and material selection by posing it as an optimization ...
In this work, we explore simultaneous geometry design and material selection for statically determin...
The choice of the best material (meaning the least mass of material carries the given loads safely) ...
A new formulation is presented for mathematical modelling to predict the distribution of material, m...
Summarization: The shape optimization of a plane truss is attained through a simultaneous equilibrat...
A new method of simultaneous optimization of geometry and topology is presented for plane and spatia...
This paper presents an application of evolutionary optimization methods to design of space trusses. ...
An extension of recent work1 on the simultaneous optimization of material and structure to address t...
In today’s extremely developing and competitive world exploiting from a limited amount of available ...
One of many optimization techniques is the evolutionary structural optimization (ESO), based on the ...
A study on formulating truss topology optimization problems using continuous and binary variables is...
An extremum problem formulation for the equilibrium analysis of general structures made of stiffenin...
A computational scheme is presented for the calculation of the optimal design of trusses. Constraint...
An actual design of light‐weight structures must evaluate strength, stiffness and stability constrai...
Designing structures for lightness is an intelligent and responsible way for engineers and architect...
In this work, we explore simultaneous design and material selection by posing it as an optimization ...
In this work, we explore simultaneous geometry design and material selection for statically determin...
The choice of the best material (meaning the least mass of material carries the given loads safely) ...
A new formulation is presented for mathematical modelling to predict the distribution of material, m...
Summarization: The shape optimization of a plane truss is attained through a simultaneous equilibrat...
A new method of simultaneous optimization of geometry and topology is presented for plane and spatia...
This paper presents an application of evolutionary optimization methods to design of space trusses. ...
An extension of recent work1 on the simultaneous optimization of material and structure to address t...
In today’s extremely developing and competitive world exploiting from a limited amount of available ...
One of many optimization techniques is the evolutionary structural optimization (ESO), based on the ...
A study on formulating truss topology optimization problems using continuous and binary variables is...
An extremum problem formulation for the equilibrium analysis of general structures made of stiffenin...
A computational scheme is presented for the calculation of the optimal design of trusses. Constraint...
An actual design of light‐weight structures must evaluate strength, stiffness and stability constrai...
Designing structures for lightness is an intelligent and responsible way for engineers and architect...