Journal of Materials Processing Technology, volume 234, pages 332-341

An improved fused deposition modeling process for forming large-size thin-walled parts

Jun Du ¹

ZhengYing Wei ¹

Xin Wang ¹

Jijie Wang ¹

Zhen Chen ¹

Hide authors affiliations Show authors affiliations: 1 affiliation

Collaborative Innovation Center of High-End Manufacturing Equipment, Xi'an Jiaotong University, Xi'an 710049, China |

Publication type: Journal Article

Publication date: 2016-08-01

Elsevier

Journal: Journal of Materials Processing Technology

Quartile SCImago

Quartile WOS

Impact factor: 6.3

ISSN: 09240136, 18734774

DOI: 10.1016/j.jmatprotec.2016.04.005

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Metals and Alloys

Ceramics and Composites

Computer Science Applications

Industrial and Manufacturing Engineering

Modeling and Simulation

Abstract

Aiming at the problem of severe warping, deformation and crack during the fabrication of large-size thin-walled parts, an improved fused deposition modeling process with laser-assisted heating was put forward to improve the forming quality and shape accuracy. The numerical model of the improved FDM process was established to analyze the thermal field and three-dimensional (3D) solidified morphology during the forming process. The dependency relationship among the forming temperature, shear rate and the thermo-physical properties of forming material, such as viscosity and surface tension, were considered in the model. The numerical model was verified by experiments from two aspects: the temperature information and the solidified morphology. The effects of forming speed, laser power and the ways of laser heating on the surface temperature distribution and viscosity of the forming material were investigated. Incremental forming experiments of ABS thin-walled parts was carried out under several laser irradiation conditions and forming speeds using the improved process. The results show that the lateral laser-assisted heating has more obvious effect in increasing the temperature of the local forming regions than the pre- and post-laser-assisted heating. Tensile strength of test unit had a maximum increase of 195% when the lateral laser-assisted heating was employed. Meanwhile, the shape accuracy of the fabricated thin-walled parts can be improved obviously, and the effective bonding width between layers was about 24% larger than that without laser-assisted heating.

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Du J. et al. An improved fused deposition modeling process for forming large-size thin-walled parts // Journal of Materials Processing Technology. 2016. Vol. 234. pp. 332-341.

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Du J., Wei Z., Wang X., Wang J., Chen Z. An improved fused deposition modeling process for forming large-size thin-walled parts // Journal of Materials Processing Technology. 2016. Vol. 234. pp. 332-341.

RIS |

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RIS Copy

TY - JOUR

DO - 10.1016/j.jmatprotec.2016.04.005

UR - https://doi.org/10.1016/j.jmatprotec.2016.04.005

TI - An improved fused deposition modeling process for forming large-size thin-walled parts

T2 - Journal of Materials Processing Technology

AU - Du, Jun

AU - Wei, ZhengYing

AU - Wang, Xin

AU - Wang, Jijie

AU - Chen, Zhen

PY - 2016

DA - 2016/08/01

PB - Elsevier

SP - 332-341

VL - 234

SN - 0924-0136

SN - 1873-4774

ER -

BibTex

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BibTex Copy

@article{2016_Du,

author = {Jun Du and ZhengYing Wei and Xin Wang and Jijie Wang and Zhen Chen},

title = {An improved fused deposition modeling process for forming large-size thin-walled parts},

journal = {Journal of Materials Processing Technology},

year = {2016},

volume = {234},

publisher = {Elsevier},

month = {aug},

url = {https://doi.org/10.1016/j.jmatprotec.2016.04.005},

pages = {332--341},

doi = {10.1016/j.jmatprotec.2016.04.005}

}

Found error?

Publisher

Elsevier

Journal

Journal of Materials Processing Technology

Quartile SCImago

Quartile WOS

Impact factor

6.3

ISSN

09240136 (Print)
18734774 (Electronic)