3D printing has been widely used in daily life, industry, architecture, aerospace, crafts, art, etc. Minimizing 3D printing material consumption can greatly reduce the costs. Therefore, how to design 3D printed objects with less materials while maintain structural soundness is an important problem. The current treatment is to use thin shells. However, thin shells have low strength. In this paper, we use stiffeners to stiffen 3D thin-shell objects for increasing the strength of the objects and propose a stress guided optimization framework to achieve minimum material consumption. First, we carry out finite element calculations to determine stress distribution in 3D objects and use the stress distribution to guide random generation of some po...
Direct digital manufacturing is a set of rapidly evolving technolo-gies that provide easy ways to ma...
Topology optimization is an optimization method to reduce material usage while also enhance the tens...
In 3D printing, stiff fibers (e.g., carbon fiber) can reinforce thermoplastic polymers with limited ...
Thin shell structures have been widely applied in crafts, art, industry, architecture, aerospace, et...
y extending the work published at ICCS 2020 [1], in this paper we propose a method to achieve cost-e...
ABSTRACT. 3D printing, regarded as the most popular additive manufacturing technology, is finding ma...
3D printing, regarded as the most popular additive manufacturing technology, is finding many applica...
Thesis (Master's)--University of Washington, 2018Design with conventional, homogeneous materials has...
The use of digital fabrication (or, 3D printing) has been rapidly expanding in the past couple of ye...
The emergence of low-cost 3D printers steers the investigation of new geometric problems that contro...
We propose a method for fabricating deformable objects with spatially varying elasticity using 3D pr...
the cost of material used in printing it. The frame structure is designed to meet various constraint...
In recent years, the 3D printing technology has become increasingly popular, with wide-spread uses i...
Fibre reinforced filament fabrication is a potential additive manufacturing method for certain load-...
a) b) c) d) Figure 1: A model of a dragon was first hollowed to reduce stress caused by its weight i...
Direct digital manufacturing is a set of rapidly evolving technolo-gies that provide easy ways to ma...
Topology optimization is an optimization method to reduce material usage while also enhance the tens...
In 3D printing, stiff fibers (e.g., carbon fiber) can reinforce thermoplastic polymers with limited ...
Thin shell structures have been widely applied in crafts, art, industry, architecture, aerospace, et...
y extending the work published at ICCS 2020 [1], in this paper we propose a method to achieve cost-e...
ABSTRACT. 3D printing, regarded as the most popular additive manufacturing technology, is finding ma...
3D printing, regarded as the most popular additive manufacturing technology, is finding many applica...
Thesis (Master's)--University of Washington, 2018Design with conventional, homogeneous materials has...
The use of digital fabrication (or, 3D printing) has been rapidly expanding in the past couple of ye...
The emergence of low-cost 3D printers steers the investigation of new geometric problems that contro...
We propose a method for fabricating deformable objects with spatially varying elasticity using 3D pr...
the cost of material used in printing it. The frame structure is designed to meet various constraint...
In recent years, the 3D printing technology has become increasingly popular, with wide-spread uses i...
Fibre reinforced filament fabrication is a potential additive manufacturing method for certain load-...
a) b) c) d) Figure 1: A model of a dragon was first hollowed to reduce stress caused by its weight i...
Direct digital manufacturing is a set of rapidly evolving technolo-gies that provide easy ways to ma...
Topology optimization is an optimization method to reduce material usage while also enhance the tens...
In 3D printing, stiff fibers (e.g., carbon fiber) can reinforce thermoplastic polymers with limited ...