Special Issue on Abrasive Technology for High-Precision and High-Efficiency Machining of High-Performance Materials

The demand for high-precision and high-efficient machining of high-performance materials and components has increased in various industries such as optical, automotive, communication, life sciences, and medical sciences. Certain difficult-to-machine materials can be reliably machined using determini...

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Published in	International journal of automation technology Vol. 18; no. 2; pp. 159 - 160
Main Authors	Suzuki, Hirofumi, Ota, Minoru, Kodama, Hiroyuki, Furuki, Tatsuya
Format	Journal Article
Language	English
Published	Tokyo Fuji Technology Press Co. Ltd 05.03.2024
Subjects	Abrasive finishing Abrasive machining Abrasive processes Abrasives Aluminum oxide Belt grinding Brittle materials Brushing Cemented carbides Ceramic molding materials Ceramics Diamond machining Diamond tools End milling Entropy (Information theory) Grinding Medical materials Medical science Molds Polishing Semiconductor materials Surface properties Titanium base alloys Vibration control
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Abstract	The demand for high-precision and high-efficient machining of high-performance materials and components has increased in various industries such as optical, automotive, communication, life sciences, and medical sciences. Certain difficult-to-machine materials can be reliably machined using deterministic precision cutting processes. However, hard and brittle materials such as ceramics, carbides, hardened steel molds, glassy materials, or semiconductor materials, require precision abrasive technologies with super abrasives like diamond, cBN, or new tool materials for machining. However, machining high-precision components and their molds/dies using abrasive processes is considerably more difficult due to their complex and non-deterministic nature and textured surfaces. Furthermore, high-energy processes such as laser technology can assist abrasive technologies in ensuring higher precision and efficiency. Precision grinding and polishing processes are primarily used to generate high-quality and functional components, typically made of difficult-to-machine materials. Thus, the surface quality achievable by precision grinding and polishing processes becomes more important for reducing machining time and costs. This special issue features 10 papers on the most recent advances in precision abrasive technologies. These papers cover the following topics: - Ultrasonic grinding of micro holes using cemented WC tools - Drilling holes in CFRP aircraft using cBN electroplated ball end mill - In situ evaluation of drill wear using tool images - Grinding belt based on modified information entropy - Radial directional vibration-assisted grinding of Al 2 O 3 ceramics - Chatter vibration suppression using fixed superabrasive polishing stone - Free abrasive finishing of internal channels with different cross-sectional geometries - High-quality machining of cemented carbide using PCD ball end mills - Fixed-abrasive machining with magnetic brush for Ti-6Al-4V ELI alloy - High-efficient polishing of polymer surfaces using catalyst-referred etching This issue will provide an understanding of the recent developments in abrasive technologies, leading to further research. We deeply appreciate the careful work of all the authors, and we thank the reviewers for their incisive efforts.
AbstractList	The demand for high-precision and high-efficient machining of high-performance materials and components has increased in various industries such as optical, automotive, communication, life sciences, and medical sciences. Certain difficult-to-machine materials can be reliably machined using deterministic precision cutting processes. However, hard and brittle materials such as ceramics, carbides, hardened steel molds, glassy materials, or semiconductor materials, require precision abrasive technologies with super abrasives like diamond, cBN, or new tool materials for machining. However, machining high-precision components and their molds/dies using abrasive processes is considerably more difficult due to their complex and non-deterministic nature and textured surfaces. Furthermore, high-energy processes such as laser technology can assist abrasive technologies in ensuring higher precision and efficiency. Precision grinding and polishing processes are primarily used to generate high-quality and functional components, typically made of difficult-to-machine materials. Thus, the surface quality achievable by precision grinding and polishing processes becomes more important for reducing machining time and costs. This special issue features 10 papers on the most recent advances in precision abrasive technologies. These papers cover the following topics: - Ultrasonic grinding of micro holes using cemented WC tools - Drilling holes in CFRP aircraft using cBN electroplated ball end mill - In situ evaluation of drill wear using tool images - Grinding belt based on modified information entropy - Radial directional vibration-assisted grinding of Al 2 O 3 ceramics - Chatter vibration suppression using fixed superabrasive polishing stone - Free abrasive finishing of internal channels with different cross-sectional geometries - High-quality machining of cemented carbide using PCD ball end mills - Fixed-abrasive machining with magnetic brush for Ti-6Al-4V ELI alloy - High-efficient polishing of polymer surfaces using catalyst-referred etching This issue will provide an understanding of the recent developments in abrasive technologies, leading to further research. We deeply appreciate the careful work of all the authors, and we thank the reviewers for their incisive efforts. The demand for high-precision and high-efficient machining of high-performance materials and components has increased in various industries such as optical, automotive, communication, life sciences, and medical sciences. Certain difficult-to-machine materials can be reliably machined using deterministic precision cutting processes. However, hard and brittle materials such as ceramics, carbides, hardened steel molds, glassy materials, or semiconductor materials, require precision abrasive technologies with super abrasives like diamond, cBN, or new tool materials for machining. However, machining high-precision components and their molds/dies using abrasive processes is considerably more difficult due to their complex and non-deterministic nature and textured surfaces. Furthermore, high-energy processes such as laser technology can assist abrasive technologies in ensuring higher precision and efficiency. Precision grinding and polishing processes are primarily used to generate high-quality and functional components, typically made of difficult-to-machine materials. Thus, the surface quality achievable by precision grinding and polishing processes becomes more important for reducing machining time and costs.This special issue features 10 papers on the most recent advances in precision abrasive technologies. These papers cover the following topics:- Ultrasonic grinding of micro holes using cemented WC tools- Drilling holes in CFRP aircraft using cBN electroplated ball end mill- In situ evaluation of drill wear using tool images- Grinding belt based on modified information entropy- Radial directional vibration-assisted grinding of Al2O3 ceramics- Chatter vibration suppression using fixed superabrasive polishing stone- Free abrasive finishing of internal channels with different cross-sectional geometries- High-quality machining of cemented carbide using PCD ball end mills- Fixed-abrasive machining with magnetic brush for Ti-6Al-4V ELI alloy- High-efficient polishing of polymer surfaces using catalyst-referred etchingThis issue will provide an understanding of the recent developments in abrasive technologies, leading to further research.We deeply appreciate the careful work of all the authors, and we thank the reviewers for their incisive efforts.
Author	Suzuki, Hirofumi Kodama, Hiroyuki Furuki, Tatsuya Ota, Minoru
Author_xml	– sequence: 1 givenname: Hirofumi surname: Suzuki fullname: Suzuki, Hirofumi organization: Chubu University, Matsumoto, Kasugai, Japan – sequence: 2 givenname: Minoru surname: Ota fullname: Ota, Minoru organization: Kyoto Institute of Technology, Sakyo-ku, Kyoto, Japan – sequence: 3 givenname: Hiroyuki surname: Kodama fullname: Kodama, Hiroyuki organization: Okayama University, Kita-ku, Okayama, Japan – sequence: 4 givenname: Tatsuya surname: Furuki fullname: Furuki, Tatsuya organization: Chubu University, Matsumoto, Kasugai, Japan
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SubjectTerms	Abrasive finishing Abrasive machining Abrasive processes Abrasives Aluminum oxide Belt grinding Brittle materials Brushing Cemented carbides Ceramic molding materials Ceramics Diamond machining Diamond tools End milling Entropy (Information theory) Grinding Medical materials Medical science Molds Polishing Semiconductor materials Surface properties Titanium base alloys Vibration control
Title	Special Issue on Abrasive Technology for High-Precision and High-Efficiency Machining of High-Performance Materials
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