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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 845Experimental Investigation the Drill Bit Curve...

Experimental Investigation the Drill Bit Curve Radius & Chisel Point on Effect of Induced Damage in Drilling Woven GFRP

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Abstract:

The purpose of this study was to find experimentally the effects of concave and convex major cutting edge (Helical & Recon point) and chisel point on the drilling composite. Due to composite materials are natural orthotropic, so gradually these materials are substituted by some metals such as steel that are used in manufacturing automobile and aerospace and other industris. Because of increasing composites utilization in industries, it is necessary to stabilize and set standards of machining parameters. Drilling is the main machining operation in producing process for assembled the composite work piece. So the quality of drilling hole should be considered to avoid snapping mechanical structure. Tool geometry is one of the most important factors in the drilling process. If it is neglected, the thrust forced increase, and it causes damage around the hole such as delamination, large entrance and exit burr, and induced cracks. The most damaging in drilling FRP is delamination of the composites lamina that occurs when drill bit is entered and exited. In the other hand, this study used ANSYS finite element software to determine the value of stress in composite plate and use to analyze for designing the jig & fixture in this drilling process. In conclusion, with comparing delamination, the best geometry tool introduced for the lowest amount of damage.

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Materials, Industrial, and Manufacturing Engineering Research Advances 1.1

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Periodical:

Advanced Materials Research (Volume 845)

Pages:

819-830

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.845.819

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Online since:

December 2013

Authors:

Masoud Askari Hoseiny, Reza Moghiseh-E, Amir Alinaghizadeh*, Payam Soltani, Vahid Majidi Hachesoo

Keywords:

Chisel Point, Delamination, Drilling, Glass Fiber in Forced Plastics (GFRP), Helical Point, Racon Point

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© 2014 Trans Tech Publications Ltd. All Rights Reserved

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