Slicing contour generation for geometric model is a vital process in rapid prototyping manufacturing. When slicing a heterogeneous object (HO), we take into account not only the geometric slicing but also the gradient material information. In this paper, we develop a new method to slice a heterogeneous object where the geometric contours are taken as constraints to resample the heterogeneous information through pixel overlap interpolation and tri-linear interpolation, which can maintain the original heterogeneous material information as much as possible and the slicing boundary as accurate as possible. The novelty of our method is that the gradient material resampling with geometry constraint can guarantee the crisp boundary of the HO slice...
The STL model has become a standard in rapid prototyping (RP) technology, but slice errors are high ...
Solid/Geometric Modeling has been a crucial technology aiding automation in design and manufacturing...
In the context of additive manufacturing we present a novel technique for direct slicing of a dilate...
Slicing contour generation for geometric model is a vital process in rapid prototyping manufacturing...
A contour sub-division algorithm on each layer arising from slicing a heterogeneous object is propos...
The representation of Heterogeneous Object (HO) is divided into two categories: Data model (DM) and ...
In this paper we present an efficient method for interpolating a piecewise-linear surface between tw...
An adaptive slicing algorithm that can vary the layer thickness in relation to local geometry is pre...
Various industries have embraced 3D printing for manufacturing on-demand, custom printed parts. Howe...
This paper presents a framework about layer contour reconstruction algorithms by STL-based slicing p...
This paper proposes a contour-processing system to enhance the capability and efficiency of fabricat...
Complex 3D objects with microstructures can be modelled using the function representation (FRep) app...
Many rapid prototyping techniques have the potential for fabricating components whose composition is...
International audienceMulti-axis motion introduces more degrees of freedom into the process of 3D pr...
This paper describes a simple variable thickness ruled edged slicing algorithm that produces slices...
The STL model has become a standard in rapid prototyping (RP) technology, but slice errors are high ...
Solid/Geometric Modeling has been a crucial technology aiding automation in design and manufacturing...
In the context of additive manufacturing we present a novel technique for direct slicing of a dilate...
Slicing contour generation for geometric model is a vital process in rapid prototyping manufacturing...
A contour sub-division algorithm on each layer arising from slicing a heterogeneous object is propos...
The representation of Heterogeneous Object (HO) is divided into two categories: Data model (DM) and ...
In this paper we present an efficient method for interpolating a piecewise-linear surface between tw...
An adaptive slicing algorithm that can vary the layer thickness in relation to local geometry is pre...
Various industries have embraced 3D printing for manufacturing on-demand, custom printed parts. Howe...
This paper presents a framework about layer contour reconstruction algorithms by STL-based slicing p...
This paper proposes a contour-processing system to enhance the capability and efficiency of fabricat...
Complex 3D objects with microstructures can be modelled using the function representation (FRep) app...
Many rapid prototyping techniques have the potential for fabricating components whose composition is...
International audienceMulti-axis motion introduces more degrees of freedom into the process of 3D pr...
This paper describes a simple variable thickness ruled edged slicing algorithm that produces slices...
The STL model has become a standard in rapid prototyping (RP) technology, but slice errors are high ...
Solid/Geometric Modeling has been a crucial technology aiding automation in design and manufacturing...
In the context of additive manufacturing we present a novel technique for direct slicing of a dilate...