Experimental evaluation of blanking and piercing of PVC based composite and hybrid laminates

Vahid Zal;Hassan Moslemi Naeini;Ahmad Reza Bahramian;Behnam Abbaszadeh;Vahid Zal;Hassan Moslemi Naeini;Ahmad Reza Bahramian;Behnam Abbaszadeh;

doi:doi:10.1007/s40436-016-0147-4

Experimental evaluation of blanking and piercing of PVC based composite and hybrid laminates

Clicks: 239

ID: 114254

2016

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Abstract

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Blanking is one of the high speed processes to produce flat products from sheets economically. In order to expand this process to new materials, the blanking of polyvinyl chloride (PVC)/fiberglass thermoplastic composite laminates and composite/aluminum hybrid laminates was investigated. The laminates were produced by the film stacking procedure and then blanked by circular die and punches. The blanking process was done in two levels of clearance including 4% and 8% of the laminates thickness, two levels of punch speed including 40 mm/min and 200 mm/min and at two levels of temperature (room temperature and 80 °C) for both composite and hybrid laminates. The effects of the parameters on the maximum blanking force, cutting energy, and quality and precision of sheared edges were studied. Cutting mechanism for blanking in different conditions was explained. It was concluded that at room temperature, blanked composite and hybrid laminates had a high quality of sheared edges but at elevated temperature, although the maximum blanking force was reduced, the quality of sheared edge was reduced significantly.

Reference Key	zal2016advancesexperimental Use this key to autocite in the manuscript while using SciMatic Manuscript Manager or Thesis Manager
Authors	Vahid Zal;Hassan Moslemi Naeini;Ahmad Reza Bahramian;Behnam Abbaszadeh;Vahid Zal;Hassan Moslemi Naeini;Ahmad Reza Bahramian;Behnam Abbaszadeh;
Journal	advances in manufacturing
Year	2016
DOI	doi:10.1007/s40436-016-0147-4 Searching for DOI...
URL	https://link.springer.com/article/10.1007/s40436-016-0147-4 https://doi.org/doi:10.1007/s40436-016-0147-4
Keywords	manufacturing control Machines Tools Processes Robotics Mechatronics nanotechnology and microengineering

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