The assessment of material characteristic using vibration signal analysis during drilling process

Othman Inayatullah, Faizal Hamid, Hew Wei Hon, Nordin Jamaludin, Shahrum Abdullah

Research output: Chapter in Book/Report/Conference proceedingConference contribution

1 Citation (Scopus)

Abstract

The purpose of this paper is to assess the material characteristic by using vibration signal analysis during drilling process. Generally, material with high mechanical properties exhibits low damping capacity and vice versa. The main objective of this paper is to develop a relationship between the signal parameters and the strengths of materials. Aluminum alloy 1100, stainless steel 304, and mild steel were selected as the specimens to be drilled using CNC machine. The vibration signal was captured using a transducer and recorded using a DAQ system. The signal parameters such as maximum amplitude, vibration energy, and the RMS value were extracted using MATLAB software. From the results obtained, the graphs of signal parameters versus strength of each specimen are plotted to show their relationship. It was found that the signal parameters increased exponentially as the strengths of materials increased. Besides that, the vibration signal of the specimens are analysed and compared based on their mechanical characteristics.

Original languageEnglish
Title of host publicationApplied Mechanics and Materials
PublisherTrans Tech Publications Ltd
Pages3-7
Number of pages5
Volume598
ISBN (Print)9783038351795
DOIs
Publication statusPublished - 2014
Event4th International Conference on Mechanics, Simulation and Control, ICMSC 2014 - Moscow
Duration: 21 Jun 201422 Jun 2014

Publication series

NameApplied Mechanics and Materials
Volume598
ISSN (Print)16609336
ISSN (Electronic)16627482

Other

Other4th International Conference on Mechanics, Simulation and Control, ICMSC 2014
CityMoscow
Period21/6/1422/6/14

Fingerprint

Signal analysis
Vibrations (mechanical)
Strength of materials
Drilling
MATLAB
Carbon steel
Transducers
Aluminum alloys
Stainless steel
Damping
Mechanical properties

Keywords

  • Material characteristic
  • Maximum amplitude
  • RMS
  • Vibration
  • Vibration energy

ASJC Scopus subject areas

  • Engineering(all)

Cite this

Inayatullah, O., Hamid, F., Hon, H. W., Jamaludin, N., & Abdullah, S. (2014). The assessment of material characteristic using vibration signal analysis during drilling process. In Applied Mechanics and Materials (Vol. 598, pp. 3-7). (Applied Mechanics and Materials; Vol. 598). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/AMM.598.3

The assessment of material characteristic using vibration signal analysis during drilling process. / Inayatullah, Othman; Hamid, Faizal; Hon, Hew Wei; Jamaludin, Nordin; Abdullah, Shahrum.

Applied Mechanics and Materials. Vol. 598 Trans Tech Publications Ltd, 2014. p. 3-7 (Applied Mechanics and Materials; Vol. 598).

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Inayatullah, O, Hamid, F, Hon, HW, Jamaludin, N & Abdullah, S 2014, The assessment of material characteristic using vibration signal analysis during drilling process. in Applied Mechanics and Materials. vol. 598, Applied Mechanics and Materials, vol. 598, Trans Tech Publications Ltd, pp. 3-7, 4th International Conference on Mechanics, Simulation and Control, ICMSC 2014, Moscow, 21/6/14. https://doi.org/10.4028/www.scientific.net/AMM.598.3
Inayatullah O, Hamid F, Hon HW, Jamaludin N, Abdullah S. The assessment of material characteristic using vibration signal analysis during drilling process. In Applied Mechanics and Materials. Vol. 598. Trans Tech Publications Ltd. 2014. p. 3-7. (Applied Mechanics and Materials). https://doi.org/10.4028/www.scientific.net/AMM.598.3
Inayatullah, Othman ; Hamid, Faizal ; Hon, Hew Wei ; Jamaludin, Nordin ; Abdullah, Shahrum. / The assessment of material characteristic using vibration signal analysis during drilling process. Applied Mechanics and Materials. Vol. 598 Trans Tech Publications Ltd, 2014. pp. 3-7 (Applied Mechanics and Materials).
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