Study on tool wear during milling CFRP under dry and chilled air machining
Carbon fibre reinforced plastic (CFRP) is an expensive composite that, as industry demand for this composite has increased, has become a valuable material. CFRP is suitable to be used in automotive, aerospace and aircraft industries, because of its properties, which are being stronger than steel and...
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Science Direct
2017
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my.iium.irep.579662018-01-23T07:21:18Z http://irep.iium.edu.my/57966/ Study on tool wear during milling CFRP under dry and chilled air machining Muhamad Khairussaleh, Nor Khairusshima Syed Shaharuddin, Sharifah Imihezri TA630 Structural engineering (General) Carbon fibre reinforced plastic (CFRP) is an expensive composite that, as industry demand for this composite has increased, has become a valuable material. CFRP is suitable to be used in automotive, aerospace and aircraft industries, because of its properties, which are being stronger than steel and stiffer than titanium, while retaining its lighter weight. This paper presents the tool wear on solid carbide cutting tool during milling CFRP under dry and chilled air cutting conditions. The experiments were designed by using Central Composite Design (CCD) with range of 160- 200 m/min (cutting speeds), 0.125- 0.25 mm/tooth (feed rate) and 0.5- 1.0 mm (depth of cut). In this study, air pressure of 0.55 MPa and chilled air (with a temperature of -10 Celsius and a flow velocity of 4.10 m/s) were applied to the cutting tool using a vortex tube. The longest tool lives of 7.22 minutes (dry machining) and 7.33 minutes (chilled air machining) were achieved at the lowest feed rate of 0.125 mm/tooth, a cutting speed of 179 m/min, and depth of cut of 0.71 mm. The polished/shined surface of the tool wear area, which was caused by the abrasive nature of carbon and the sliding mechanism of chips during machining, shows the presence of abrasion wear. Less tool wear was observed under chilled air machining conditions than dry machining. Based on the developed mathematical model, feed rate was identified as the primary significant item that influenced tool life. In conclusion, the application of chilled air during CFRP machining helped to improve the tool life of uncoated carbide cutting tools compare to dry machining. Science Direct 2017 Article REM application/pdf en http://irep.iium.edu.my/57966/1/57966_Study%20on%20Tool%20Wear.pdf application/pdf en http://irep.iium.edu.my/57966/7/Study%20on%20Tool%20Wear%20during%20Milling%20CFRP%20under%20Dry%20and%20Chilled%20Air%20Machining.pdf Muhamad Khairussaleh, Nor Khairusshima and Syed Shaharuddin, Sharifah Imihezri (2017) Study on tool wear during milling CFRP under dry and chilled air machining. Procedia Engineering, 187. pp. 78-89. http://www.sciencedirect.com/science/article/pii/S1877705817315783 |
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TA630 Structural engineering (General) Muhamad Khairussaleh, Nor Khairusshima Syed Shaharuddin, Sharifah Imihezri Study on tool wear during milling CFRP under dry and chilled air machining |
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Carbon fibre reinforced plastic (CFRP) is an expensive composite that, as industry demand for this composite has increased, has become a valuable material. CFRP is suitable to be used in automotive, aerospace and aircraft industries, because of its properties, which are being stronger than steel and stiffer than titanium, while retaining its lighter weight. This paper presents the tool wear on solid carbide cutting tool during milling CFRP under dry and chilled air cutting conditions. The experiments were designed by using Central Composite Design (CCD) with range of 160- 200 m/min (cutting speeds), 0.125- 0.25 mm/tooth (feed rate) and 0.5- 1.0 mm (depth of cut). In this study, air pressure of 0.55 MPa and chilled air (with a temperature of -10 Celsius and a flow velocity of 4.10 m/s) were applied to the cutting tool using a vortex tube. The longest tool lives of 7.22 minutes (dry machining) and 7.33 minutes (chilled air machining) were achieved at the lowest feed rate of 0.125 mm/tooth, a cutting speed of 179 m/min, and depth of cut of 0.71 mm. The polished/shined surface of the tool wear area, which was caused by the abrasive nature of carbon and the sliding mechanism of chips during machining, shows the presence of abrasion wear. Less tool wear was observed under chilled air machining conditions than dry machining. Based on the developed mathematical model, feed rate was identified as the primary significant item that influenced tool life. In conclusion, the application of chilled air during CFRP machining helped to improve the tool life of uncoated carbide cutting tools compare to dry machining. |
| format |
Article |
| author |
Muhamad Khairussaleh, Nor Khairusshima Syed Shaharuddin, Sharifah Imihezri |
| author_facet |
Muhamad Khairussaleh, Nor Khairusshima Syed Shaharuddin, Sharifah Imihezri |
| author_sort |
Muhamad Khairussaleh, Nor Khairusshima |
| title |
Study on tool wear during milling CFRP under dry and chilled air machining |
| title_short |
Study on tool wear during milling CFRP under dry and chilled air machining |
| title_full |
Study on tool wear during milling CFRP under dry and chilled air machining |
| title_fullStr |
Study on tool wear during milling CFRP under dry and chilled air machining |
| title_full_unstemmed |
Study on tool wear during milling CFRP under dry and chilled air machining |
| title_sort |
study on tool wear during milling cfrp under dry and chilled air machining |
| publisher |
Science Direct |
| publishDate |
2017 |
| url |
http://irep.iium.edu.my/57966/1/57966_Study%20on%20Tool%20Wear.pdf http://irep.iium.edu.my/57966/7/Study%20on%20Tool%20Wear%20during%20Milling%20CFRP%20under%20Dry%20and%20Chilled%20Air%20Machining.pdf http://irep.iium.edu.my/57966/ http://www.sciencedirect.com/science/article/pii/S1877705817315783 |
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