Research Article Open Access

STUDY OF DYNAMIC MECHANICAL PROPERTIES OF FUSED DEPOSITION MODELLING PROCESSED ULTEM MATERIAL

Adhiyamaan Arivazhagan1, Ammar Saleem2, S. H. Masood2, Mostafa Nikzad2 and K. A. Jagadeesh1
  • 1 Swinburne University of Technology, India
  • 2 Swinburne University of Technology, Australia

Abstract

Fused Deposition Modelling (FDM), a renowned Rapid Prototyping (RP) process, has been successfully implemented in several industries to fabricate concept models and prototypes for rapid manufacturing. This study furnishes terse notes about the material damping properties of FDM made ULTEM samples considering the effect of FDM process parameters. Dynamic Mechanical Analysis (DMA) is carried out using DMA 2980 equipment to study the dynamic response of the FDM material subjected to single cantilever loading under periodic stress. Three FDM process parameters namely Build Style, Raster Width and Raster Angle were contemplated. ULTEM parts are fabricated using solid normal build style and three values each of raster width and raster angle. DMA is performed with temperature sweep at three different fixed frequencies of 1, 50 and 100 Hz. Results were obtained for dynamic properties such as Maximum Storage Modulus, Maximum Loss Modulus, Maximum Tan Delta and Maximum Complex Viscosity. The present work discusses the effect of increasing the frequencies and temperature on FDM made ULTEM samples using different FDM process parameters.

American Journal of Engineering and Applied Sciences
Volume 7 No. 3, 2014, 307-315

DOI: https://doi.org/10.3844/ajeassp.2014.307.315

Submitted On: 23 July 2014 Published On: 19 August 2014

How to Cite: Arivazhagan, A., Saleem, A., Masood, S. H., Nikzad, M. & Jagadeesh, K. A. (2014). STUDY OF DYNAMIC MECHANICAL PROPERTIES OF FUSED DEPOSITION MODELLING PROCESSED ULTEM MATERIAL. American Journal of Engineering and Applied Sciences, 7(3), 307-315. https://doi.org/10.3844/ajeassp.2014.307.315

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Keywords

  • Fused Deposition Modelling
  • Dynamic Mechanical Analysis
  • ULTEM
  • Damping Properties