High-Precision Forming Process Based on Analysis of Selective Laser Sintering Hybrid Milling

Generally, pressures resulted from roller during leveling process in selective laser sintering has the effect of densification of powder materials. But extra frictions due to them become the forces which always deteriorate the surface of the part and mark it with several lines trace. Sometimes, the manufacturing can even not continue if these forces accumulate to a large extent to move the whole part. Therefore, the whole forming process will be obliged to stop owing to the displacement of part from above mentioned damage. In this work, the emerging reason and related variation factors of these forces were studied mathematically, the mathematical and physical model of friction force was also built to describe the connections between the leveling process parameters and them. How to control the influence factor of friction to abate their damages to surfaces and promote the forming quality were also discussed based on these models. This will provide a common reference for the application of selective laser sintering technology.

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Holographic system for high-precision control in selective laser sintering systems

10.1063/5.0071352 ◽

2021 ◽

Author(s):

V. V. Sementin ◽

E. E. Popov ◽

I. S. Khakhalin ◽

A. P. Pogoda ◽

V. M. Petrov ◽

...

Keyword(s):

High Precision ◽

Selective Laser Sintering ◽

Laser Sintering ◽

Precision Control

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Rapid Manufacturing Technique of Casting Mould Based on the SLS

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.291-294.2970 ◽

2011 ◽

Vol 291-294 ◽

pp. 2970-2973

Author(s):

Hong Feng Zhang ◽

Wei Hang Chang

Keyword(s):

Rapid Prototyping ◽

High Voltage ◽

Rapid Development ◽

Selective Laser Sintering ◽

Laser Sintering ◽

Rapid Manufacturing ◽

Forming Process ◽

Technological Support ◽

Manufacturing Technique ◽

Rapid Prototyping System

Selective laser sintering (SLS) is one of relatively mature rapid prototyping technologies at present day. This paper takes the forming of a high voltage switch casting model in the AFS-3000 rapid prototyping system as example to describe the forming process of SLS, and introduce the casting model rapid prototyping technology based on SLS. This research provides a powerful technological support for rapid development of casting products.

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Improvement on Selective Laser Sintering and Post-Processing of Polystyrene

Polymers ◽

10.3390/polym11060956 ◽

2019 ◽

Vol 11 (6) ◽

pp. 956 ◽

Cited By ~ 6

Author(s):

Zhi Zeng ◽

Xiaohu Deng ◽

Jiangmei Cui ◽

Hai Jiang ◽

Shuo Yan ◽

...

Keyword(s):

Mechanical Properties ◽

Orthogonal Experiment ◽

Selective Laser Sintering ◽

Single Layer ◽

Dimensional Accuracy ◽

Amorphous Polymers ◽

Laser Sintering ◽

Temperature Fields ◽

Post Processing ◽

Forming Process

Amorphous polymers are heavily utilized materials in selective laser sintering (SLS) due to their good dimensional accuracy. However, sintered parts of amorphous polymers cannot be used as functional parts owing to their poor forming performance, including their low relative densities and tensile strength. Therefore, post-processing methods are employed to enhance the mechanical properties of amorphous polymers SLS parts without damaging their relatively high dimensional accuracy. In this study, the forming process of selective laser sintering (SLS) and post-processing on polystyrene (PS) was investigated. The orthogonal experiment was designed to obtain the optimal combination of process parameters. The effect of a single process parameter and the laser volumetric energy density (LVED) on dimension accuracy and warpage of the sintered parts were also discussed. In addition, a three-dimensional (3D) thermal model was developed to analyze the temperature fields of single-layer SLS parts and PS powder sintering mechanism. Then, infiltrating with epoxy resin was employed to enhance the mechanical properties of the PS parts. Good resin-infiltrated formulation was obtained based on the mechanical property tests and fractured surface analysis. This research provides guidance for SLS process and post-processing technology in polymers.

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High precision pulsed selective laser sintering of metallic powders

10.1117/12.633671 ◽

2005 ◽

Author(s):

Pascal Fischer ◽

Valerio Romano ◽

Andreas Blatter ◽

Heinz P. Weber

Keyword(s):

High Precision ◽

Selective Laser Sintering ◽

Laser Sintering ◽

Metallic Powders

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Structural Analysis and Design Optimization of a Selective Laser Sintering System

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.421.544 ◽

2011 ◽

Vol 421 ◽

pp. 544-547

Author(s):

Ci Jun Shuai ◽

Bo Yang ◽

Yi Nie ◽

Huan Long Hu ◽

Shu Ping Peng ◽

...

Keyword(s):

High Precision ◽

Geometric Model ◽

Laser System ◽

Selective Laser Sintering ◽

Three Dimensional ◽

Laser Sintering ◽

Machining Accuracy ◽

Analysis And Design ◽

Finite Element Software ◽

Supporting Base

A three dimensional geometric model of a homemade selective laser sintering (SLS) system is simplified and imported into Ansys Finite Element Software for static and modal analysis. The analysis results show that the supporting base that holds up the laser system undergoes large deformations. The machining accuracy can hardly meet the high-precision requirements of sintered parts with complex internal and external geometries. A method is put forward for the structural optimization of the SLS system. The calculation results show that the bending deformation of the supporting base decreases by 73.2%, and the maximum stress also decreases significantly. It indicates that the high precision manufacturing can be achieved with the improved SLS system.

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Simulation of Temperature Field in Selective Laser Sintering on PA6/Cu Composite Powders

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.213.519 ◽

2011 ◽

Vol 213 ◽

pp. 519-523 ◽

Cited By ~ 1

Author(s):

Jian Zhang ◽

De Ying Li ◽

Bin Qiu ◽

Long Zhi Zhao

Keyword(s):

Temperature Field ◽

Selective Laser Sintering ◽

Element Model ◽

Laser Sintering ◽

Moving Heat Source ◽

Temperature Field Distribution ◽

Forming Process ◽

Composite Powders ◽

Simulation Results ◽

Thermal Physical Properties

The 3D transient finite element model in selective laser sintering is established based on ANSYS. The load of moving heat source at different time and locations are achieved by APDL and “element birth/death” technique, and the influence of convection, radiation, latent heat of phase change and thermal physical properties on temperature are taken into account. The temperature field distribution on time in forming process and temperature gradient distributions of pool cross-section are selectively studied, to provide theoretical basis for reasonable process parameters. The SLS experiment on PA6/Cu composite powders is carried out to verify the accuracy of simulation results.

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