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Enhanced Performance of Nanostructured Coatings for Drilling by Droplet Elimination

Cutting tool performance is mainly characterized by material substrate, cutting edge geometry, and coating, and also by a good choice of the cutting parameters, mainly cutting speed, depth of cut, and feed. In drilling a good choice of substrate/coating can reduce production costs per hole cut by 50...

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Published in:	Materials and manufacturing processes 2016-04, Vol.31 (5), p.593-602
Main Authors:	Rodríguez-Barrero, S., Fernández-Larrinoa, J., Azkona, I., López de Lacalle, L. N., Polvorosa, R.
Format:	Article
Language:	English
Subjects:	Drag grinding Drilling Nanostructured coating Process monitoring PVD Steel 42CrMo4
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creator	Rodríguez-Barrero, S. Fernández-Larrinoa, J. Azkona, I. López de Lacalle, L. N. Polvorosa, R.
description	Cutting tool performance is mainly characterized by material substrate, cutting edge geometry, and coating, and also by a good choice of the cutting parameters, mainly cutting speed, depth of cut, and feed. In drilling a good choice of substrate/coating can reduce production costs per hole cut by 50%. Coatings evolution has gone from monolayer to nanostructured and/or nanometric-scale multilayer coatings. These are used because of their high hardness, good corrosion and oxidation resistance, and thermal stability. Cutting edge preparation on the one hand and droplet elimination after the coating process on the other are important issues for reaching a good tool/coating performance, being a key issue. In this article a series of coatings for drilling low and medium carbon alloyed steels are presented, along with their performance. Validation tests were carried out on steel 42CrMo4, very often used in the automotive sector. Seven coatings were tested, including AlCrSiN, µAlTiN, TiAlCrN, AlTiCrN, AlCrN, AlTiSiN, and TiAlSiN. Flank wear, evolution of drilling thrust force and torque, damage on cutting edge faces on primary cutting edge, and behavior of drill bit secondary edges were studied. A final elimination of droplets by drag grinding was performed in several cases. Process monitoring, scanning electron microscope (SEM) microscopy, and energy-dispersive X-ray (EDX) analysis were used, concluding that the best results were for µAlTiN, TiAlSiN, and AlTiSiN. Reasons for the good behavior are the good surface finishing after droplet elimination and the high thermal stability of these protective layers.
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In this article a series of coatings for drilling low and medium carbon alloyed steels are presented, along with their performance. Validation tests were carried out on steel 42CrMo4, very often used in the automotive sector. Seven coatings were tested, including AlCrSiN, µAlTiN, TiAlCrN, AlTiCrN, AlCrN, AlTiSiN, and TiAlSiN. Flank wear, evolution of drilling thrust force and torque, damage on cutting edge faces on primary cutting edge, and behavior of drill bit secondary edges were studied. A final elimination of droplets by drag grinding was performed in several cases. Process monitoring, scanning electron microscope (SEM) microscopy, and energy-dispersive X-ray (EDX) analysis were used, concluding that the best results were for µAlTiN, TiAlSiN, and AlTiSiN. 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N.</creatorcontrib><creatorcontrib>Polvorosa, R.</creatorcontrib><title>Enhanced Performance of Nanostructured Coatings for Drilling by Droplet Elimination</title><title>Materials and manufacturing processes</title><description>Cutting tool performance is mainly characterized by material substrate, cutting edge geometry, and coating, and also by a good choice of the cutting parameters, mainly cutting speed, depth of cut, and feed. In drilling a good choice of substrate/coating can reduce production costs per hole cut by 50%. Coatings evolution has gone from monolayer to nanostructured and/or nanometric-scale multilayer coatings. These are used because of their high hardness, good corrosion and oxidation resistance, and thermal stability. Cutting edge preparation on the one hand and droplet elimination after the coating process on the other are important issues for reaching a good tool/coating performance, being a key issue. In this article a series of coatings for drilling low and medium carbon alloyed steels are presented, along with their performance. Validation tests were carried out on steel 42CrMo4, very often used in the automotive sector. Seven coatings were tested, including AlCrSiN, µAlTiN, TiAlCrN, AlTiCrN, AlCrN, AlTiSiN, and TiAlSiN. Flank wear, evolution of drilling thrust force and torque, damage on cutting edge faces on primary cutting edge, and behavior of drill bit secondary edges were studied. A final elimination of droplets by drag grinding was performed in several cases. Process monitoring, scanning electron microscope (SEM) microscopy, and energy-dispersive X-ray (EDX) analysis were used, concluding that the best results were for µAlTiN, TiAlSiN, and AlTiSiN. 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Cutting edge preparation on the one hand and droplet elimination after the coating process on the other are important issues for reaching a good tool/coating performance, being a key issue. In this article a series of coatings for drilling low and medium carbon alloyed steels are presented, along with their performance. Validation tests were carried out on steel 42CrMo4, very often used in the automotive sector. Seven coatings were tested, including AlCrSiN, µAlTiN, TiAlCrN, AlTiCrN, AlCrN, AlTiSiN, and TiAlSiN. Flank wear, evolution of drilling thrust force and torque, damage on cutting edge faces on primary cutting edge, and behavior of drill bit secondary edges were studied. A final elimination of droplets by drag grinding was performed in several cases. Process monitoring, scanning electron microscope (SEM) microscopy, and energy-dispersive X-ray (EDX) analysis were used, concluding that the best results were for µAlTiN, TiAlSiN, and AlTiSiN. 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source	EBSCOhost Business Source Ultimate; Taylor and Francis Science and Technology Collection
subjects	Drag grinding Drilling Nanostructured coating Process monitoring PVD Steel 42CrMo4
title	Enhanced Performance of Nanostructured Coatings for Drilling by Droplet Elimination
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