Machinability aspects in heat assisted machining of hardened steel AISI H13 using coated carbide tool

AISI H13 tool steel is one of the major hardened materials used extensively for making hot working moulds and dies, because of favourable combination of their mechanical and thermal properties. However, these enhanced properties, especially high hardness make them very difficult to machine using...

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Main Authors: Amin, A. K. M. Nurul, Mokhtar, Suhaily, Ab. Razak, Nur Hayati
Format: Book Chapter
Language:English
Published: IIUM Press 2011
Subjects:
Online Access:http://irep.iium.edu.my/23583/
http://irep.iium.edu.my/23583/
http://irep.iium.edu.my/23583/4/chp4.pdf
id iium-23583
recordtype eprints
repository_type Digital Repository
institution_category Local University
institution International Islamic University Malaysia
building IIUM Repository
collection Online Access
language English
topic TJ Mechanical engineering and machinery
spellingShingle TJ Mechanical engineering and machinery
Amin, A. K. M. Nurul
Mokhtar, Suhaily
Ab. Razak, Nur Hayati
Machinability aspects in heat assisted machining of hardened steel AISI H13 using coated carbide tool
description AISI H13 tool steel is one of the major hardened materials used extensively for making hot working moulds and dies, because of favourable combination of their mechanical and thermal properties. However, these enhanced properties, especially high hardness make them very difficult to machine using conventional techniques. In the current project a technique of workpiece heat assisted machining was adopted as a possible means of improving machinability of the material. Machining was conducted on a vertical machining centre using TiAlN coated carbide inserts and heating of the workpiece was carried out using an induction heater. An online vibration monitoring system was used to record the vibration signals during machining. Comparison between room temperature and heat assisted machining was then made in terms of tool wear and life, surface finish and chatter/vibration. It was found that tool life was higher under heat assisted machining condition. Heat assisted machining also yielded lower surface roughness and lower amplitudes of chatter during machining. AISI H13 tool steel is a widely used material in mould and die making industry, because of its high hardness and ability to sustain severe operating condition. The other properties that make H13, as an inevitable material for mould and die are high resistance to deformation and breaking under high loads, high hardness at elevated temperature and high wear resistant. However, these properties of H13 do possess some of unfavourable effect in terms of machining process. For this, enhancement of machinability of H13 tool steel drew the attention of many researchers and metal cutting scientist. Despite the importance of end milling operation for the manufacturing of mould and die, most of the research work concentrated mainly on the turning operation of H13 tool. In this perspective, the current study adopted preheating as a technique to enhance machinability of H13. The industrial adoption of hard machining was made during the last decade with the improvement of cutting tool material, coating technologies and advanced machining techniques. Generally, hard machining involves the machining of material with a hardness value over 45 HRC. Hard machining has provides a significant cost or lead-time reduction in comparison to traditional route processes. Moreover, adoption of hard machining technique has been the requirement for further improved dimension tolerances in cutting operation. In addition to this, hard machining provides the elimination of distortion due to heat treatment from the process of traditional route processes. Zaima, Shigeo. Takeda, Hirohisa. Morishita, Sadamu (1974) reported a number of advantages of hot machining of cast high silicon aluminum alloys. It can produce comparable surface finish as in abrasive super finishing up to 0.4 μm in average roughness value (CR. Liu and S. Mittal, 1995). This innovative process not only has great potential to save significant cost, to increase production flexibility, and to reduce the pollution due to dry cutting, but also yields parts with higher surface quality and longer service life (CR. Liu and S. Mittal, 1996). Akira et al (2005) compared the performance of CBN and TiAlN coated carbide-cutting tools in milling hardened carbon steel and recommended the TiAlN coated carbide tool for low-speed hard milling. It was also observed that the hardness of workpiece had a great influence on the cutting temperature. In this context, the main objective of this work was to make a comparison on the effectiveness in machining hardened steel AISI H13 under room temperature and preheated condition in terms of tool life, surface finish and vibration and chatter amplitude.
format Book Chapter
author Amin, A. K. M. Nurul
Mokhtar, Suhaily
Ab. Razak, Nur Hayati
author_facet Amin, A. K. M. Nurul
Mokhtar, Suhaily
Ab. Razak, Nur Hayati
author_sort Amin, A. K. M. Nurul
title Machinability aspects in heat assisted machining of hardened steel AISI H13 using coated carbide tool
title_short Machinability aspects in heat assisted machining of hardened steel AISI H13 using coated carbide tool
title_full Machinability aspects in heat assisted machining of hardened steel AISI H13 using coated carbide tool
title_fullStr Machinability aspects in heat assisted machining of hardened steel AISI H13 using coated carbide tool
title_full_unstemmed Machinability aspects in heat assisted machining of hardened steel AISI H13 using coated carbide tool
title_sort machinability aspects in heat assisted machining of hardened steel aisi h13 using coated carbide tool
publisher IIUM Press
publishDate 2011
url http://irep.iium.edu.my/23583/
http://irep.iium.edu.my/23583/
http://irep.iium.edu.my/23583/4/chp4.pdf
first_indexed 2023-09-18T20:35:37Z
last_indexed 2023-09-18T20:35:37Z
_version_ 1777409025643642880
spelling iium-235832012-12-14T08:18:52Z http://irep.iium.edu.my/23583/ Machinability aspects in heat assisted machining of hardened steel AISI H13 using coated carbide tool Amin, A. K. M. Nurul Mokhtar, Suhaily Ab. Razak, Nur Hayati TJ Mechanical engineering and machinery AISI H13 tool steel is one of the major hardened materials used extensively for making hot working moulds and dies, because of favourable combination of their mechanical and thermal properties. However, these enhanced properties, especially high hardness make them very difficult to machine using conventional techniques. In the current project a technique of workpiece heat assisted machining was adopted as a possible means of improving machinability of the material. Machining was conducted on a vertical machining centre using TiAlN coated carbide inserts and heating of the workpiece was carried out using an induction heater. An online vibration monitoring system was used to record the vibration signals during machining. Comparison between room temperature and heat assisted machining was then made in terms of tool wear and life, surface finish and chatter/vibration. It was found that tool life was higher under heat assisted machining condition. Heat assisted machining also yielded lower surface roughness and lower amplitudes of chatter during machining. AISI H13 tool steel is a widely used material in mould and die making industry, because of its high hardness and ability to sustain severe operating condition. The other properties that make H13, as an inevitable material for mould and die are high resistance to deformation and breaking under high loads, high hardness at elevated temperature and high wear resistant. However, these properties of H13 do possess some of unfavourable effect in terms of machining process. For this, enhancement of machinability of H13 tool steel drew the attention of many researchers and metal cutting scientist. Despite the importance of end milling operation for the manufacturing of mould and die, most of the research work concentrated mainly on the turning operation of H13 tool. In this perspective, the current study adopted preheating as a technique to enhance machinability of H13. The industrial adoption of hard machining was made during the last decade with the improvement of cutting tool material, coating technologies and advanced machining techniques. Generally, hard machining involves the machining of material with a hardness value over 45 HRC. Hard machining has provides a significant cost or lead-time reduction in comparison to traditional route processes. Moreover, adoption of hard machining technique has been the requirement for further improved dimension tolerances in cutting operation. In addition to this, hard machining provides the elimination of distortion due to heat treatment from the process of traditional route processes. Zaima, Shigeo. Takeda, Hirohisa. Morishita, Sadamu (1974) reported a number of advantages of hot machining of cast high silicon aluminum alloys. It can produce comparable surface finish as in abrasive super finishing up to 0.4 μm in average roughness value (CR. Liu and S. Mittal, 1995). This innovative process not only has great potential to save significant cost, to increase production flexibility, and to reduce the pollution due to dry cutting, but also yields parts with higher surface quality and longer service life (CR. Liu and S. Mittal, 1996). Akira et al (2005) compared the performance of CBN and TiAlN coated carbide-cutting tools in milling hardened carbon steel and recommended the TiAlN coated carbide tool for low-speed hard milling. It was also observed that the hardness of workpiece had a great influence on the cutting temperature. In this context, the main objective of this work was to make a comparison on the effectiveness in machining hardened steel AISI H13 under room temperature and preheated condition in terms of tool life, surface finish and vibration and chatter amplitude. IIUM Press 2011 Book Chapter PeerReviewed application/pdf en http://irep.iium.edu.my/23583/4/chp4.pdf Amin, A. K. M. Nurul and Mokhtar, Suhaily and Ab. Razak, Nur Hayati (2011) Machinability aspects in heat assisted machining of hardened steel AISI H13 using coated carbide tool. In: Advanced Machining Towards Improved Machinability of Difficult-to-Cut Materials. IIUM Press, Kuala Lumpur, Malaysia, pp. 27-33. ISBN 9789674181758 http://rms.research.iium.edu.my/bookstore/default.aspx