Influence of machining parameters on surface quality during high speed edge trimming of carbon fiber reinforced polymers

CVD diamond-coated carbide tools could provide an economical alternative for trimming CFRPs components compared to their PCD tools counterpart. Nevertheless, there are still some technical issues to understand related to wear resistance and surface quality. In this work, a CVD tool with six straight...

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Bibliographic Details
Published in:International journal of material forming 2019-05, Vol.12 (3), p.331-353
Main Authors: Slamani, Mohamed, Chatelain, Jean-François, Hamedanianpour, Hossein
Format: Article
Language:English
Subjects:
Axial forces
CAE) and Design
Carbide tools
Carbon fiber reinforced plastics
Computational Intelligence
Computer-Aided Engineering (CAD
Cutting force
Cutting parameters
Cutting speed
Cutting tools
Cutting wear
Delamination
Diamond films
Diamond machining
Diamond tools
Engineering
Feed rate
Fiber pullout
Fiber reinforced polymers
High speed
Laminates
Machines
Manufacturing
Materials Science
Mechanical Engineering
Original Research
Parameter identification
Ply orientation
Processes
Production planning
Surface properties
Surface roughness
Thermal conductivity
Tool life
Tool wear
Wear resistance
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Summary:CVD diamond-coated carbide tools could provide an economical alternative for trimming CFRPs components compared to their PCD tools counterpart. Nevertheless, there are still some technical issues to understand related to wear resistance and surface quality. In this work, a CVD tool with six straight flutes was used to investigate the relationship between surface roughness, surface damage, tool wear, cutting force and cutting parameters during the high speed trimming of CFRPs. Statistical techniques for identifying and selecting the best cutting conditions for CVD tool are developed. In terms of tool wear, results show that the best operational condition to minimize the tool wear is achieved at lower feed rates and higher cutting speeds. Experimental results show also that a 0° ply orientation represents the worst case and produces the maximum tool wear. Furthermore, a strong correlation between the feed force and the tool wear was observed. It was found that the surface roughness decreases as a reciprocal function of cutting length. This decrease was due to the matrix burning/sticking and the thermal damage related to the low thermal conductivity of CFRP. In such situation, R a becomes inappropriate indicator for roughness evaluation. On the other hand, it wasn’t seen any type of delamination or fiber pull-out on the trimmed surface of all coupons for the three tool life tests. Accordingly, delamination can be avoided using high fixture rigidity, high quality of CFRP laminates, a suitable cutting tool and stable operational conditions.
ISSN:1960-6206
1960-6214
DOI:10.1007/s12289-018-1419-2