Evaluate of the Effects of Drilling with Varying Spindle Speed Using Different Thickness of GFRP on the Damage Factor

Evaluate of the Effects of Drilling with Varying Spindle Speed Using Different Thickness of GFRP on the Damage Factor

Composite have been widely used in industries which such as aircraft structural components, electric and electronics components, aerospace, and oil and gas fields due to their superior mechanical properties. Among machining process, drilling can be considered as one of the most important process in...

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Main Authors: Keong Woo Tze, Ahmad Faiz, Sharif Safian, Moinser Mohd Azuwan
Format: Article
Language:English
Published: EDP Sciences 2014-07-01
Series:MATEC Web of Conferences
Online Access:http://dx.doi.org/10.1051/matecconf/20141304008
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spelling doaj-27cd51f2fb8645c2a6720f5ce1b2a6f42021-02-02T01:52:12ZengEDP SciencesMATEC Web of Conferences2261-236X2014-07-01130400810.1051/matecconf/20141304008matecconf_icper2014_04008Evaluate of the Effects of Drilling with Varying Spindle Speed Using Different Thickness of GFRP on the Damage FactorKeong Woo Tze0Ahmad Faiz1Sharif Safian2Moinser Mohd Azuwan3Universiti Teknologi PetronasUniversiti Teknologi PetronasUniversiti Teknologi MalaysiaUniversiti Teknologi Petronas Composite have been widely used in industries which such as aircraft structural components, electric and electronics components, aerospace, and oil and gas fields due to their superior mechanical properties. Among machining process, drilling can be considered as one of the most important process in final machining of composite. In this research, vacuum assisted resin infusion method is use in fabricating the glass fiber reinforcement polymer samples, where different thickness of GFRP were used in the drilling process with different spindle speed. The results show that the temperature influences the damage factor of the drilling. Higher spindle speed will generate higher temperature that softens the matrix thus generating lower damage factor. The suitable drill bit temperature is between 150-200°C http://dx.doi.org/10.1051/matecconf/20141304008
collection DOAJ
language English
format Article
sources DOAJ
author Keong Woo Tze
Ahmad Faiz
Sharif Safian
Moinser Mohd Azuwan
spellingShingle Keong Woo Tze
Ahmad Faiz
Sharif Safian
Moinser Mohd Azuwan
Evaluate of the Effects of Drilling with Varying Spindle Speed Using Different Thickness of GFRP on the Damage Factor
MATEC Web of Conferences
author_facet Keong Woo Tze
Ahmad Faiz
Sharif Safian
Moinser Mohd Azuwan
author_sort Keong Woo Tze
title Evaluate of the Effects of Drilling with Varying Spindle Speed Using Different Thickness of GFRP on the Damage Factor
title_short Evaluate of the Effects of Drilling with Varying Spindle Speed Using Different Thickness of GFRP on the Damage Factor
title_full Evaluate of the Effects of Drilling with Varying Spindle Speed Using Different Thickness of GFRP on the Damage Factor
title_fullStr Evaluate of the Effects of Drilling with Varying Spindle Speed Using Different Thickness of GFRP on the Damage Factor
title_full_unstemmed Evaluate of the Effects of Drilling with Varying Spindle Speed Using Different Thickness of GFRP on the Damage Factor
title_sort evaluate of the effects of drilling with varying spindle speed using different thickness of gfrp on the damage factor
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2014-07-01
description Composite have been widely used in industries which such as aircraft structural components, electric and electronics components, aerospace, and oil and gas fields due to their superior mechanical properties. Among machining process, drilling can be considered as one of the most important process in final machining of composite. In this research, vacuum assisted resin infusion method is use in fabricating the glass fiber reinforcement polymer samples, where different thickness of GFRP were used in the drilling process with different spindle speed. The results show that the temperature influences the damage factor of the drilling. Higher spindle speed will generate higher temperature that softens the matrix thus generating lower damage factor. The suitable drill bit temperature is between 150-200°C
url http://dx.doi.org/10.1051/matecconf/20141304008
work_keys_str_mv AT keongwootze evaluateoftheeffectsofdrillingwithvaryingspindlespeedusingdifferentthicknessofgfrponthedamagefactor
AT ahmadfaiz evaluateoftheeffectsofdrillingwithvaryingspindlespeedusingdifferentthicknessofgfrponthedamagefactor
AT sharifsafian evaluateoftheeffectsofdrillingwithvaryingspindlespeedusingdifferentthicknessofgfrponthedamagefactor
AT moinsermohdazuwan evaluateoftheeffectsofdrillingwithvaryingspindlespeedusingdifferentthicknessofgfrponthedamagefactor
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