The effect of wet blasting as a pre-deposition treatment for thick TiAlN PVD coating on machining performance

Majid Abdoos; Alireza Hemmati; Heiko Graf; Sushant Rawal; Abul Fazel Arif; Stephen Veldhuis

doi:10.1504/ijmmm.2022.126576

The effect of wet blasting as a pre-deposition treatment for thick TiAlN PVD coating on machining performance

Majid Abdoos, Alireza Hemmati^*, Heiko Graf, Sushant Rawal, Abul Fazel Arif, Stephen Veldhuis

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Edge preparation techniques are known to be an effective method to adjust the microgeometry and improve the mechanical properties of cutting tools. These techniques can also be used on tools prior to coating deposition to further improve the coating quality on the cutting edge and, consequently, tool life. In this research, wet blasting was used on indexable turning inserts to adjust the cutting-edge radius in order to address quality issues associated with thick PVD coatings while investigating subsequent changes in the substrate and coating properties. For this purpose, a multilayer TiAlN coating with an approximate thickness of 10 μm was deposited on prepared and unprepared inserts. Moreover, machining tests were conducted on compacted graphite iron (CGI) to understand the effect of pre-deposition edge preparation on cutting performance. The results show that wet blasting has minimal effects on substrate properties, such as hardness. However, it is an effective method to eliminate micro breakage along the cutting edge by reducing geometrically induced stresses. Wet blasting as a pre-deposition treatment also provided a better coating quality, lower cutting forces, longer tool life, and greater consistency in coated tool microgeometry.

Original language	English
Pages (from-to)	391-404
Number of pages	14
Journal	International Journal of Machining and Machinability of Materials
Volume	24
Issue number	5
DOIs	https://doi.org/10.1504/ijmmm.2022.126576
State	Published - 2022
Externally published	Yes

Bibliographical note

Publisher Copyright:
Copyright © 2022 Inderscience Enterprises Ltd.

Keywords

CGI
PVD coatings
compacted graphite iron
dry turning
edge preparation
wet blasting

ASJC Scopus subject areas

Mechanics of Materials
Mechanical Engineering
Industrial and Manufacturing Engineering

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10.1504/ijmmm.2022.126576

Cite this

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title = "The effect of wet blasting as a pre-deposition treatment for thick TiAlN PVD coating on machining performance",

abstract = "Edge preparation techniques are known to be an effective method to adjust the microgeometry and improve the mechanical properties of cutting tools. These techniques can also be used on tools prior to coating deposition to further improve the coating quality on the cutting edge and, consequently, tool life. In this research, wet blasting was used on indexable turning inserts to adjust the cutting-edge radius in order to address quality issues associated with thick PVD coatings while investigating subsequent changes in the substrate and coating properties. For this purpose, a multilayer TiAlN coating with an approximate thickness of 10 μm was deposited on prepared and unprepared inserts. Moreover, machining tests were conducted on compacted graphite iron (CGI) to understand the effect of pre-deposition edge preparation on cutting performance. The results show that wet blasting has minimal effects on substrate properties, such as hardness. However, it is an effective method to eliminate micro breakage along the cutting edge by reducing geometrically induced stresses. Wet blasting as a pre-deposition treatment also provided a better coating quality, lower cutting forces, longer tool life, and greater consistency in coated tool microgeometry.",

keywords = "CGI, PVD coatings, compacted graphite iron, dry turning, edge preparation, wet blasting",

author = "Majid Abdoos and Alireza Hemmati and Heiko Graf and Sushant Rawal and Arif, \{Abul Fazel\} and Stephen Veldhuis",

note = "Publisher Copyright: Copyright {\textcopyright} 2022 Inderscience Enterprises Ltd.",

year = "2022",

doi = "10.1504/ijmmm.2022.126576",

language = "English",

volume = "24",

pages = "391--404",

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AU - Abdoos, Majid

AU - Hemmati, Alireza

AU - Graf, Heiko

AU - Rawal, Sushant

AU - Arif, Abul Fazel

AU - Veldhuis, Stephen

PY - 2022

Y1 - 2022

N2 - Edge preparation techniques are known to be an effective method to adjust the microgeometry and improve the mechanical properties of cutting tools. These techniques can also be used on tools prior to coating deposition to further improve the coating quality on the cutting edge and, consequently, tool life. In this research, wet blasting was used on indexable turning inserts to adjust the cutting-edge radius in order to address quality issues associated with thick PVD coatings while investigating subsequent changes in the substrate and coating properties. For this purpose, a multilayer TiAlN coating with an approximate thickness of 10 μm was deposited on prepared and unprepared inserts. Moreover, machining tests were conducted on compacted graphite iron (CGI) to understand the effect of pre-deposition edge preparation on cutting performance. The results show that wet blasting has minimal effects on substrate properties, such as hardness. However, it is an effective method to eliminate micro breakage along the cutting edge by reducing geometrically induced stresses. Wet blasting as a pre-deposition treatment also provided a better coating quality, lower cutting forces, longer tool life, and greater consistency in coated tool microgeometry.

AB - Edge preparation techniques are known to be an effective method to adjust the microgeometry and improve the mechanical properties of cutting tools. These techniques can also be used on tools prior to coating deposition to further improve the coating quality on the cutting edge and, consequently, tool life. In this research, wet blasting was used on indexable turning inserts to adjust the cutting-edge radius in order to address quality issues associated with thick PVD coatings while investigating subsequent changes in the substrate and coating properties. For this purpose, a multilayer TiAlN coating with an approximate thickness of 10 μm was deposited on prepared and unprepared inserts. Moreover, machining tests were conducted on compacted graphite iron (CGI) to understand the effect of pre-deposition edge preparation on cutting performance. The results show that wet blasting has minimal effects on substrate properties, such as hardness. However, it is an effective method to eliminate micro breakage along the cutting edge by reducing geometrically induced stresses. Wet blasting as a pre-deposition treatment also provided a better coating quality, lower cutting forces, longer tool life, and greater consistency in coated tool microgeometry.

KW - CGI

KW - PVD coatings

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ER -

The effect of wet blasting as a pre-deposition treatment for thick TiAlN PVD coating on machining performance

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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