In this paper, two new design approaches are proposed to design structural nodes of complex shapes for gridshell structures, seeking improved structural performance and design efficiency by using the transitional section method and the bi-directional evolutionary structural optimization (BESO) method, respectively. Detailed design methodologies are introduced and compared with two types of conventionally designed structural nodes in real use, i.e., Seele node and Sun Valley node. Finite element analyses are conducted to evaluate the stress distribution, maximum stress and mean compliance of different structural nodes. The results show that, although the BESO node has the highest stiffness and the lowest structural volume, it seems to have a...
The paper presents a new methodology dedicated to design for additive manufacturing. Based on a hybr...
This paper presents topology optimization of geometrically and materially nonlinear structures using...
The main goal of Evolutionary Structural Optimisation (ESO) research has been to provide an easily a...
Gridshells, also called lattice shells or reticulated shells, are lightweight spatial structures. Th...
The need to simplify the construction issues of complex structures leads to definition of SmartNodes...
Designing a high-strength node is significant for space structures. Topological optimization can opt...
SmartNodes is a research project which addresses innovation in construction through the application ...
The paper demonstrates the application of a modified Evolutionary Structural Optimisation (ESO) algo...
© 2019 Elsevier Ltd Strained gridshells are reticulated shell structures that are erected from a fl...
Conventional methods are not simple or are close to impossible to be used to fabricate topology opti...
This paper develops a method for dealing with the stress minimization of continuum structures based ...
The application of additive manufacturing (AM) technology in architecture and structural engineering...
Nodes for grid structures are often manufactured in a rather material intensive and inefficient way,...
Additive manufacturing is a production technique that builds up successive layers of material to cre...
Innovative structural des ign can be realised by topology optimisation that is capable of maximizing...
The paper presents a new methodology dedicated to design for additive manufacturing. Based on a hybr...
This paper presents topology optimization of geometrically and materially nonlinear structures using...
The main goal of Evolutionary Structural Optimisation (ESO) research has been to provide an easily a...
Gridshells, also called lattice shells or reticulated shells, are lightweight spatial structures. Th...
The need to simplify the construction issues of complex structures leads to definition of SmartNodes...
Designing a high-strength node is significant for space structures. Topological optimization can opt...
SmartNodes is a research project which addresses innovation in construction through the application ...
The paper demonstrates the application of a modified Evolutionary Structural Optimisation (ESO) algo...
© 2019 Elsevier Ltd Strained gridshells are reticulated shell structures that are erected from a fl...
Conventional methods are not simple or are close to impossible to be used to fabricate topology opti...
This paper develops a method for dealing with the stress minimization of continuum structures based ...
The application of additive manufacturing (AM) technology in architecture and structural engineering...
Nodes for grid structures are often manufactured in a rather material intensive and inefficient way,...
Additive manufacturing is a production technique that builds up successive layers of material to cre...
Innovative structural des ign can be realised by topology optimisation that is capable of maximizing...
The paper presents a new methodology dedicated to design for additive manufacturing. Based on a hybr...
This paper presents topology optimization of geometrically and materially nonlinear structures using...
The main goal of Evolutionary Structural Optimisation (ESO) research has been to provide an easily a...