We propose a novel cross-sectional structural analysis technique that efficiently detects critical stress inside a 3D object. We slice the object into cross-sections and compute stress based on bending momentum equilibrium. Unlike traditional approaches based on finite element methods, our method does not require a volumetric mesh or solution of linear systems, enabling interactive analysis speed. Based on the stress analysis, the orientation of an object is optimized to increase mechanical strength when manufactured with 3D printing
Topology optimization is an optimization method to reduce material usage while also enhance the tens...
The mechanical behaviour of structural elements made of 3D-printed materials is numerically investig...
Mechanical properties of 3d printed polymers have witnessed remarkable improvements as a result of o...
We propose a novel cross-sectional structural analysis technique that efficiently detects critical s...
Direct digital manufacturing is a set of rapidly evolving technolo-gies that provide easy ways to ma...
Thesis (Master's)--University of Washington, 2018Design with conventional, homogeneous materials has...
Recently, 3D printing has become a powerful tool for personal fabrication. However, the price of som...
Technologies of additive manufacturing present in this age a progressive way for component productio...
a) b) c) d) Figure 1: A model of a dragon was first hollowed to reduce stress caused by its weight i...
Additive manufacturing (AM) is the process in which objects are created through the layer-by-layer d...
Our research aims to push the limits of 3D printing towards the structural design and optimization. ...
Active-Z Printing offers the ability to deposit material along non-planar layers to control the mec...
3D printing enables engineers to design and manufacture geometrically complex structures. As 3D pri...
In this paper a phase-field approach for structural topology optimization for a 3D-printing process...
We live in a time where resources are scarce and tools are developed to control their use. One of th...
Topology optimization is an optimization method to reduce material usage while also enhance the tens...
The mechanical behaviour of structural elements made of 3D-printed materials is numerically investig...
Mechanical properties of 3d printed polymers have witnessed remarkable improvements as a result of o...
We propose a novel cross-sectional structural analysis technique that efficiently detects critical s...
Direct digital manufacturing is a set of rapidly evolving technolo-gies that provide easy ways to ma...
Thesis (Master's)--University of Washington, 2018Design with conventional, homogeneous materials has...
Recently, 3D printing has become a powerful tool for personal fabrication. However, the price of som...
Technologies of additive manufacturing present in this age a progressive way for component productio...
a) b) c) d) Figure 1: A model of a dragon was first hollowed to reduce stress caused by its weight i...
Additive manufacturing (AM) is the process in which objects are created through the layer-by-layer d...
Our research aims to push the limits of 3D printing towards the structural design and optimization. ...
Active-Z Printing offers the ability to deposit material along non-planar layers to control the mec...
3D printing enables engineers to design and manufacture geometrically complex structures. As 3D pri...
In this paper a phase-field approach for structural topology optimization for a 3D-printing process...
We live in a time where resources are scarce and tools are developed to control their use. One of th...
Topology optimization is an optimization method to reduce material usage while also enhance the tens...
The mechanical behaviour of structural elements made of 3D-printed materials is numerically investig...
Mechanical properties of 3d printed polymers have witnessed remarkable improvements as a result of o...