Finite Element Analysis of Mixing Arm and Shaft Based on ANSYS

Xiao Jing Wang; Meng Cui; Dong Hui Li

doi:10.4028/www.scientific.net/AMR.781-784.2829

Paper Titles

Comparison Research on Standards of Foreign Country and National Standard of China for Marine Fire Extinguisher
p.2803

Investigation of Mixing Performance in the Extruder with Embedded Planetary-Screws
p.2809

Flow Field and its Flowability in a Stirred Tank with a Plate Propeller
p.2817

Effects of Bubble Dynamic Characteristics on Flow Field in Venturi
p.2823

Finite Element Analysis of Mixing Arm and Shaft Based on ANSYS
p.2829

Finite Element Analysis of Thrust Bearing in ESPCP System
p.2834

Study on Temperature Distribution of Solid-Plug Conveying Element on Centrifugal Extruder by Experiments
p.2839

Experimental Study on Optimization of Wet Desulfurization of Wet Ball Mill System
p.2843

The Numerical Investigation of Configuration Improvement on Gas Distributor in a Hydrogenated Reactor
p.2847

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 781-784Finite Element Analysis of Mixing Arm and Shaft...

Finite Element Analysis of Mixing Arm and Shaft Based on ANSYS

Abstract:

The screw shaft is the main structure of the horizontal dryer used in polysilicon industry. It is the key factor for dryer to work normally that strength and stiffness of shaft and mixing arms meet the standard. According to material properties and working environment, the models of shaft and mixing arm were built respectively by ANSYS. The deformation and stress distribution were obtained through finite element analysis which provided reference for design and optimization. The results show that the shaft and mixing arm satisfy the requirement of strength and stiffness.

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Periodical:

Advanced Materials Research (Volumes 781-784)

Pages:

2829-2833

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.781-784.2829

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Online since:

September 2013

Authors:

Xiao Jing Wang, Meng Cui, Dong Hui Li

Keywords:

ANSYS, Finite Element Analysis (FEA), Mixing Arm, Screw Shaft

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References

[1] Y. Li, C.L. Wang, R.S. Wang. The thermal stress analysis and structure optimum of neck tube with vertical cryogenic insulated cylinders based on ANSYS. Nucl. Eng. Des. 252 (2012), 144-152.

DOI: 10.1016/j.nucengdes.2012.05.042

Google Scholar

[2] H.L. Pan, S.H. Tang, J.W. Hao. Failure analysis of a rotating cantilever shaft in chloride corrosive environment. Eng. Fail. Anal. 13 (2006), 646-655.

DOI: 10.1016/j.engfailanal.2004.12.042

Google Scholar

[3] ANSYS User's Manual, ANSYS Inc., PA, USA.

Google Scholar

[4] Li Zhou, Jianhui Yang, Youliang Hou. Simulation and analysis of mixing arms and mixing blade based on ANSYS. Software, 33(2012), 91-92.

Google Scholar

[5] Zhengwen Dong, Yuling Wang, Yinxiang Kong et al. Mixing shaft finite element analysis of dry-mixing mortar mixer based on ANSYS. Construction Machinery, 01(2011), 96-98.

Google Scholar

[6] Daming Pei, Pingfa Feng, Dingwen Yu. Optimum design of spindle bearings distance based on FEM. Machinery Design and Manufacture, 10(2005), 44-46.

Google Scholar