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市場調查報告書

全球的鑽石/類鑽/研磨與鍍膜產品市場

Diamond, Diamond-like and CBN Films & Coating Products

出版商	BCC Research
出版日期	2010年07月	商品編碼	125936
內容資訊	英文 160 Pages
價格	US $ 4850 PDF by E-mail ( Single User License) US $ 5950 PDF by E-mail (Business Unit License) US $ 8500 PDF by E-mail (Enterprise License)

簡介
目錄
相關商品

全球的鑽石/類鑽/研磨與鍍膜產品市場 是由出版商BCC Research在2010年07月所出版的。這份英文市場調查報告書包含160 Pages 價格從美金4850起跳。

簡介

針對全球鑽石/類鑽/研磨與鍍膜產品市場的現狀與預測，本報告書進行調查分析，並彙整了鑽石/類鑽/研磨與鍍膜技術的介紹、終端用戶產業與應用市場的動態、各種應用市場的規模實績與預測（～2015年），以及主要企業的簡介等，內容概要摘記如下。

第1章導論

第2章重點摘要

第3章技術評論

歷史性的展望
初期的鑽石合成
鑽石/類鑽/研磨與鍍膜的種類
鑽石的研磨/鍍膜
類鑽與類似材料的研磨/鍍膜
競爭材料種類
鑽石/類鑽的研磨/鍍膜之特性
CVD鑽石的優劣
製造技術
- 鑽石研磨

第4章鑽石/類鑽使用CNB材料的鍍膜/研磨應用

鑽石研磨與鍍膜
- 工具/耐磨零件
- 音效喇叭振膜
- 散熱器與熱管理解決方案
- 讀寫頭與硬碟
- 半導體
- 表面聲波/感應器/其他電子裝置
- 眼科研磨
- 電界發射裝置
- 醫療儀器
- 消費者應用
- 運動用品
- 耐腐蝕性/耐磨性/耐熱性的應用
- 其他鑽石研磨應用
類鑽材料/鍍膜
- 工具/耐磨零件
- 電腦硬碟
- 電子應用
- 光學應用
- 醫療移植
- 消費者應用
- 耐腐蝕性/耐磨性的應用
- 其他應用
CBN鍍膜

第5章市場

摘要
市場區隔
應用區分的市場預測（～2015年）
地區市場的市佔率、其他

第6章產業結構/競爭

美國企業
國際競爭

第7章企業簡介

附錄

圖表

A technological overview of the various diamond, diamond-like, and cubic boron nitride (CBN) thin films and coated products, their production technologies, and status of the current and emerging technologies
Analysis of U.S. and global market trends, with data from 2009, estimates for 2010, and projections of compound annual growth rates (CAGRs) through 2015
Descriptions of existing and new applications
Identification of the technological and business issues related to development and commercial production
Discussion of domestic and foreign competition among companies and their product market segments
Patent analyses to evaluate international competition in the issuance of patents between countries and companies.

SCOPE AND ANALYST

INTRODUCTION

Diamonds have long held a special place in the hearts and minds of both scientists and the public at large. Diamonds are the hardest material known and have the highest thermal conductivity among all known materials. Combined with these important properties, diamonds have very low thermal expansion and high electrical resistance. Because of their hardness, diamonds are far more effective and efficient than other competing materials used for abrasive, cutting, shaping, or finishing tools. The very high thermal conductivity of diamonds makes them ideal for spreading and conducting heat out of compact, high-power, high-speed electronic packages.

Industrial diamonds have been synthesized commercially for more than 40 years using high-pressure, high-temperature (HPHT) techniques in which diamond is crystallized from metal-solvated carbon at a pressure of about 50 kbar to 100 kbar and a temperature of about 1,800 K to 2,300 K.

A low-pressure technique to produce diamonds, using chemical vapor deposition (CVD), drew worldwide attention in the mid-1980s. There has been an explosion of interest in CVD diamond, diamond-like, and cubic boron nitride (CBN) films and coatings. These films are expected to be used in a variety of applications, from cutting tools to wear-resistant parts and from electronics to optical applications. One advantage of CVD diamond technology over high-pressure technology is low cost and its ability to coat any shape.

Several new mass-production technologies for producing diamonds and diamond-like films have emerged since the mid-1990s, including the production of diamond-like coatings for razor blades. Since the advent of these new technologies, diamond and diamond-like films, and coated products have reached a greater level of penetration in their applications.

Thick and thin diamond films have advantages when incorporated in laser diodes and microwave electronic packages due to their extremely high thermal conductivity coupled with excellent dielectric properties. Also, large substrates are now available, and a variety of package designs are possible with CVD diamonds. Tool inserts with CVD diamond thick-film blanks or thin-film coatings constitute the newest tool materials. Diamond-like thin films are finding increasing application in coating automotive components such as brake rotors and gears. Diamond and diamond-like coatings are also being used more in optical applications, such as sunglasses, ophthalmic lenses, and infrared (IR) windows. New-generation electronic devices such as surface acoustic wave (SAW) and micro-electromechanical systems (MEMS) are also using diamond films.

STUDY GOALS AND OBJECTIVES

This report is an updated version of a BCC Research report that was published in 2007. Since then, the technology has continued to evolve and a number of new applications for such films have emerged in fields such as semiconductors; protective coatings; medical, consumer and sporting goods; and advanced flat-panel displays. In view of these developments, BCC saw the need to revise its analysis of the technological and business issues affecting the market, as well as industry structure, competition, and market trends.

This report has been prepared with the following objectives:

To provide a technological overview of the various diamond, diamond-like, and CBN thin films and coated products, their production technologies, and status of the current and emerging technologies
To identify and describe existing and new applications for diamond, diamond-like, and CBN films/coated products;
To identify the technological and business issues related to the development and commercial production of diamond, diamond-like, and CBN films and coated products;
To determine the current size and future growth of the U.S. and worldwide markets for diamond, diamond-like, and CBN thin films and products;
To analyze domestic and foreign competition among companies within diamond, diamond-like, and CBN films and their product market segments;
To identify and profile U.S. and foreign producers and those entities involved in the development of diamond, diamond-like, and CBN films and products;
To conduct a patent analysis to evaluate the international competition in the issuance of patents between countries and companies.

METHODOLOGY AND INFORMATION SOURCES

As mentioned above, this report is an update of an earlier (2007) report. In preparing the original and updated reports, BCC interviewed producers, potential producers, suppliers, and end-users of diamond, diamond-like, and CBN thin film materials. The interview results were supplemented with secondary data obtained from sources such as the Industrial Diamond Association of America, trade publications, technical journals, conference proceedings, newsletters, and the U.S. Patent and Trademark Office Database

INTENDED AUDIENCE

This report is directed to the various types of companies that are interested in the developments in this field, such as:Companies involved in developing, manufacturing, and supplying advanced materials;Developers and producers of diamonds, diamond-like, and CBN films and coatings;Manufacturers and suppliers of industrial diamonds and CBN materials;Manufacturers and suppliers of diamonds and CBN products;Manufacturers and suppliers of advanced ceramic materials and components;Producers and suppliers of advanced electronic and optical components;Producers and suppliers of machine tool inserts;Producers of wear-resistant and automotive components;Producers of sunglasses, ophthalmic lenses, IR windows, and other optical materials;Electronic, automotive, computer, aerospace, and telecommunication companies;Producers of razor blades, surgical blades, and golf clubs; andAdvanced-material companies interested in diversification.

ANALYST CREDENTIALS

This report is an update of a report originally prepared by Dr. Thomas Abraham. Dr. Abraham was formerly Vice President, and Director of the Advanced Materials Group of BCC. Dr. Abraham has extensive experience in the field of advanced materials, including advanced ceramics, synthetic diamonds and diamond films, magnetic materials, high performance coatings, and superconductors. The analyst responsible for updating the report is Andrew McWilliams, a partner in the Boston-based international technology and marketing consulting firm, 43rd Parallel, LLC. Mr. McWilliams is the author of numerous other BCC studies.

Diamond, Diamond-like and CBN Films & Coating Products

Chapter- 1: INTRODUCTION -- Complimentary

INTRODUCTION
STUDY GOALS AND OBJECTIVES
CONTRIBUTION OF THE STUDY
SCOPE OF REPORT
METHODOLOGY AND INFORMATION SOURCES
INTENDED AUDIENCE
ANALYST CREDENTIALS
RELATED BCC PUBLICATIONS
BCC ONLINE SERVICES
DISCLAIMER

Chapter-2: EXECUTIVE SUMMARY

SUMMARY TABLE GLOBAL MARKET FOR DIAMOND AND DIAMOND-LIKE COATINGS, THROUGH 2015 ($ MILLIONS)
SUMMARY FIGURE GLOBAL MARKET FOR DIAMOND AND DIAMOND-LIKE COATINGS, 2009-2015 ($ MILLIONS)
EXECUTIVE SUMMARY (CONTINUED)

Chapter-3: TECHNOLOGY REVIEW

HISTORICAL PERSPECTIVE
EARLY WORK IN DIAMOND SYNTHESIS
Study by the Foreign Applied Sciences Assessment Center
The Validity of Early Work
Later Advances in Diamond Deposition
TYPES OF DIAMOND AND DIAMOND-LIKE FILMS/COATINGS
DIAMOND COATINGS AND FILMS
DIAMOND-LIKE AND SIMILAR MATERIAL COATINGS AND FILMS
Diamond-Like Hydrocarbons (DLHC or A:CH)
Diamond-Like Carbon (DLC or A:C-C)
Diamond-Like Nanocomposite (DLN)
Cubic Boron Nitride (CBN)
COMPETING TYPES OF MATERIALS
PROPERTIES OF DIAMOND/DIAMOND-LIKE COATINGS AND FILMS
CHARACTERISTICS OF DIAMOND FILMS
Characteristics of Diamond Films (Continued)
DIAMOND-LIKE COATINGS AND FILMS
ADVANTAGES AND DISADVANTAGES OF CVD DIAMOND
PRODUCTION TECHNIQUES
DIAMOND FILMS
Chemical Vapor Deposition (CVD) Process
Plasma CVD
DC Plasma Method
RF Induction Plasma
Microwave Plasma Torch
Plasma Process Comparisons
Other Plasma-Enhanced Techniques
Nonplasma Processes
Hybrid Processes
Vapor-Liquid-Solid (VLS) Growth
Using Buckyballs to Produce Diamond Films
Physical Vapor Deposition Processes
Basic Processes
Ion Plating
RF Plasma Deposition
Interactive Laser Techniques
QQC Process
Improvements in Diamond Films and Coatings Technology
Improvements in Existing Technologies
Oriented Diamond Films on Si Substrate
Diamond Synthesized on Glassy and Oxide Substrates
Diamond Growth on Iron and Steel Substrate
Models Simulate Diamond Deposition by DC Arc Jet
Diamond Nucleation by Gas Phase Seeding
The Influence of Ion Bombardment on Diamond Film Orientation During MPCVD
Nucleation and Early Growth of CVD Diamond on Silicon Nitride
Development of Grinding Technology for Diamond Film Coated Cutting Tool
New Technologies
Pulsed Liquid Injection Chemical Vapor Deposition
Micropatterns by ECR Oxygen Plasma
An Effective System for Diamond Coating Deposition
Diamond Synthesized High-Pressure, Hot-Filament CVD
Energy Efficient Microwave Diamond Film Deposition System
Recent U.S. Diamond Coating Technology Patents
Recent U.S. (CONTINUED)
Diamond-like Materials and Coatings
RF Plasma-Assisted CVD
Direct Ion Beam Deposition
Dual Ion Beam Deposition Configuration
Plasma Injection - CVD Method
Hot-Filament Cathode Deposition System
Filtered Cathode Arc Source
Pulsed Laser Deposition DLC Coating with UV Excimer Laser
New Developments in Diamond-Like Materials and Coatings
Improvements in Existing Technologies
Hot-Filament CVD Produces Ultrahard Carbon Nitride Film
Carbon Nitride Thin Films by ECR Plasma
Diamond-like Coatings for Plastic Parts
Plasma Source Ion Injection
Improved PECVD for Applying Diamond-Like Coatings to Pipe Interiors
New Technologies
Metalorganic CVD of Ru-Doped DLC
Argonne Develops Superlow-Friction DLC Films
Cathodic Arc Deposits Amorphous Diamond
Arc Method Deposits Amorphous Diamond
Highly Adhesive DLC Using Ion Beam Mixing Methods
Recent U.S. Diamond-Like Coating Patents
Recent U.S. ... (Continued)
CBN Coatings
New Developments in CBN Coatings
Improvement in Existing Technologies
Rectifying Characteristics of Tungsten/P-Type CBN Films
Cathodic Arc Evaporation and Magnetron Sputtering Deposited BN Films
Improved Adhesion of Sputtered CBN Films
Hard Wear-Resistant Layer Formation in CBN Systems
New Technologies
CBN Films in a Two-Step Process
CBN Films Using Mass-Selected Ion Beam Deposition
CBN Film Synthesized by Plasma-Jet CVD
Nanostructured CBN Coating
Recent U.S. Cubic Boron Nitride Coating Patents
Recent U.S. ... (Continued)
Recent U.S. ... (Continued)
Recent U.S. ... (Continued)

Chapter-4: APPLICATIONS FOR DIAMOND, DIAMOND-LIKE, AND CBN MATERIAL COATINGS AND FILMS

TABLE 14 CVD DIAMOND AND DLC APPLICATIONS
TABLE 14 (CONTINUED)
DIAMOND FILMS AND COATINGS
TOOLS AND WEAR-RESISTANT PARTS
AUDIO SPEAKER DIAPHRAGMS
HEAT SINKS AND THERMAL MANAGEMENT SOLUTIONS
Diamond Film Substrate Application Size Potentials
READ/WRITE HEADS AND HARD DISKS
SEMICONDUCTORS
High-Power Transistors
High-Performance (Rapid Response) Transistors
High-Temperature Transistors
Radiation-Hard Transistors
Reliable Electronics
SURFACE ACOUSTIC WAVE, SENSOR, AND OTHER ELECTRONIC DEVICES
Surface Acoustic Wave Devices
Sensors
Thermistors
Piezoresistive Pressure Sensors
Micro-Electromechanical Systems
Other Electronic Devices
High-Power Microwave Tubes
High-Voltage Electronics
OPTICAL AND OPHTHALMIC COATINGS
FIELD EMISSION DEVICES
MEDICAL DEVICES
Surgical and Medical Tools
Implants
CONSUMER APPLICATIONS
SPORTS EQUIPMENT
CORROSION-, WEAR-, AND TEMPERATURE-RESISTANT APPLICATIONS
OTHER DIAMOND FILM APPLICATIONS
X-Ray Masks for Advanced Projection Photolithography
X-Ray Targets
Knives and Cutting Blades
DIAMOND-LIKE MATERIALS AND COATINGS
TOOLS AND WEAR-RESISTANT PARTS
COMPUTER HARD DISKS
ELECTRONICS APPLICATIONS
OPTICAL APPLICATIONS
MEDICAL IMPLANTS
CONSUMER APPLICATIONS
WEAR- AND CORROSION-RESISTANT APPLICATIONS
OTHER APPLICATIONS
CBN COATINGS

Chapter-5: MARKETS

SUMMARY
MARKET SEGMENTS
APPLICATION SEGMENTS
Tools and Wear-Resistant Parts
Tools
Wear-resistant Parts
Audio Speakers
Thermal Management Devices
Computer Hard Disk and Print/Recording Heads
Semiconductors
Surface Acoustic Wave (SAW), Sensors, and Other Electronic Devices
Surface Acoustic Wave Devices
Sensors
Optical Applications
Cold Cathodes and Flat-panel Displays
Medical Devices
Consumer Applications
Razor Blades
Camera Lenses and Watch Glasses
Sports Equipment
Temperature- and Wear-Resistant Coatings
DIAMOND FILM VERSUS DIAMOND-LIKE FILM
GEOGRAPHICAL MARKETS

Chapter-6: INDUSTRY STRUCTURE AND COMPETITION

U.S. COMPANIES
INTERNATIONAL COMPETITION
INTERNATIONAL COMPETITION (CONTINUED)

Chapter-7: COMPANY PROFILES

ADVANCED DIAMOND TECHNOLOGIES, INC.
ADVANCED TECHNOLOGY MATERIALS, INC.
ALCATEL-LUCENT
AMPLEX SUPERABRASIVES
APPLIED SCIENCES, INC.
BOEING COMPANY
CONTINENTAL INDUSTRIAL DIAMOND, INC.
CRYSTALLUME, INC.
DIAMOND INNOVATIONS, INC.
DIAMONEX, INC.
E.I. DUPONT DE NEMOURS & CO.
ELEMENT SIX, LTD.
FLOWSERVE CORP.
GLOBAL GILLETTE
GENERAL MOTORS CORP.
HARRIS INTERNATIONAL
IBM CORP.
I2A TECHNOLOGIES
IONBOND AG
KENNAMETAL, INC.
LOVEJOY TOOL CO., INC.
NISU LABORATORIES
OERLIKON BALZERS COATING
QQC, INC.
RAYTHEON CO.
SIEMENS AG
SURMET CORP.
TEXAS INSTRUMENTS, INC.
VEECO INSTRUMENTS, INC.
VERTEX DIAMOND TOOL CO.
XEROX CORP.

APPENDIX I: OTHER COMPANIES INVOLVED IN DIAMOND AND DIAMOND-LIKE FILMS AND COATINGS

AEA INDUSTRIAL TECHNOLOGY
BAE SYSTEMS
CANON, INC.
CITIZEN WATCH CO., LTD.
DENKI KOGYO CO., LTD.
DAIMLERCHRYSLER AG
DAIMLERCHRYSLER AG
FUJITSU LABORATORIES, LTD.
HITACHI, LTD.
HOYA CORP.
IDEMITSU PETROCHEMICAL CO., LTD.
ISHIKAWAJIMA-HARIMA HEAVY INDUSTRIES, LTD.
JAPAN SYNTHETIC RUBBER CO., LTD.
KOBE STEEL, LTD.
KYOCERA CORP.
MATSUSHITA ELECTRIC INDUSTRIAL CO., LTD.
MITSUBISHI MATERIALS CORP.
MITSUI ENGINEERING & SHIPBUILDING CO., LTD.
MITSUI MINING CO., LTD.
MONSANTO JAPAN, LTD.
NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS (NIRIM)
NATIONAL INSTITUTE OF AND TECHNOLOGY
ADVANCED INDUSTRIAL SCIENCE
NEC CORP.
NKK CORP. (NKK)
NIKON CORP.
NORITAKE DIAMOND INDUSTRIES CO., LTD.
OKI ELECTRIC INDUSTRY CO., LTD.
REFMET CEAMICS LTD.
RICOH CO., LTD.
SANDVIK AB
SEIKO INSTRUMENTS, INC.
SHOWA DENKO K.K.
SONY CORP.
SUMITOMO ELECTRIC INDUSTRY, LTD.
TDK CORP.
TEER COATINGS, LTD.
TOMEI DIAMOND CO., LTD.
TOSHIBA CORP. R&D CENTER
TOYOTA CRDL, INC.
ULVAC, INC.
VAKUUMTECHNIK GMBH

APPENDIX II: U.S. UNIVERSITIES AND INSTITUTIONS INVOLVED IN DIAMOND, CBN, AND DIAMOND-LIKE

ARGONNE NATIONAL LABORATORY
AUBURN UNIVERSITY
CALIFORNIA INSTITUTE OF TECHNOLOGY
CASE WESTERN RESERVE UNIVERSITY
CITY UNIVERSITY
CLARKSON UNIVERSITY
CORNELL UNIVERSITY
DARPA TACTICAL TECHNOLOGY
DREXEL UNIVERSITY
ELECTRIC POWER RESEARCH INSTITUTE
GEORGIA INSTITUTE OF TECHNOLOGY
HARVARD UNIVERSITY
LAWRENCE BERKELEY LAB
LOS ALAMOS NATIONAL LABORATORY
MARSHALL UNIVERSITY
MASSACHUSETTS INSTITUTE OF TECHNOLOGY
MICHIGAN STATE UNIVERSITY
NASA LEWIS RESEARCH CENTER
NATIONAL INSTITUTE OF STANDARDS & TECHNOLOGY
NAVAL AIR DEVELOPMENT CENTER
NAVAL OCEAN SYSTEMS CENTER
NAVAL RESEARCH LABORATORY
NAVAL WEAPONS CENTER
NEW MEXICO INSTITUTE OF MINING & TECHNOLOGY
NORTH CAROLINA STATE UNIVERSITY
NORTHWESTERN UNIVERSITY
OAK RIDGE NATIONAL LABORATORY
OHIO STATE UNIVERSITY
OLIN COLLEGE OF ENGINEERING
PENNSYLVANIA STATE UNIVERSITY
RESEARCH TRIANGLE INSTITUTE
RICE UNIVERSITY
RUTGERS UNIVERSITY
SRI INTL.
SANDIA NATIONAL LABORATORIES
SANDIA NATIONAL LABORATORIES
STANFORD UNIVERSITY
UNIVERSITY OF ARKANSAS
UNIVERSITY OF CENTRAL FLORIDA
UNIVERSITY OF CINCINNATI
UNIVERSITY OF CINCINNATI
UNIVERSITY OF CALIFORNIA, BERKELEY
UNIVERSITY OF CALIFORNIA, LOS ANGELES
UNIVERSITY OF CONNECTICUT
UNIVERSITY OF FLORIDA
UNIVERSITY OF LOUISVILLE
UNIVERSITY OF MICHIGAN
UNIVERSITY OF MINNESOTA
UNIVERSITY OF NEBRASKA
UNIVERSITY OF NORTH TEXAS
UNIVERSITY OF PITTSBURGH
UNIVERSITY OF TENNESSEE-KNOXVILLE
UNIVERSITY OF TEXAS AT ARLINGTON
UNIVERSITY OF TEXAS AT DALLAS
UNIVERSITY OF TULSA
UNIVERSITY OF UTAH
UNIVERSITY OF VIRGINIA
VANDERBILT UNIVERSITY
WASHINGTON STATE UNIVERSITY
WAYNE STATE UNIVERSITY
WRIGHT LABORATORY

APPENDIX III: FOREIGN UNIVERSITIES AND INSTITUTIONS INVOLVED IN DIAMOND, CBN, AND DIAMOND-LIKE FILM RESEARCH

AICHI UNIVERSITY OF EDUCATION
AOYAMA GAKUIN UNIVERSITY
BEIJING INSTITUTE OF TECHNOLOGY
BEIJING UNIVERSITY OF SCIENCE AND TECHNOLOGY
BYELORUSSIAN SSR ACADEMY OF SCIENCE
CAMBRIDGE UNIVERSITY
CENTRAL INSTITUTE FOR COMPUTER TECHNOLOGIES
CHENGDU UNIVERSITY OF SCIENCE AND TECHNOLOGY
CHIBA INSTITUTE OF TECHNOLOGY
CHIBA UNIVERSITY
CHINESE ACADEMY OF SCIENCES
CENTER OF SUPER-DIAMOND AND ADVANCED FILMS (COSDAF)
COUNCIL OF SCIENTIFIC AND INDUSTRIAL RESEARCH ORG.
EAST CHINA NORMAL UNIVERSITY
EINDHOVEN UNIVERSITY TECHNOLOGY
FACHBEREICH PHYSIK
FRAUNHOFER INSTITUTE FOR SURFACE ENGINEERING AND THIN FILMS
FRAUNHOFER INSTITUT FUR ANGEWANDE FESTKORPERPHYSIK
FRAUNHOFER INSTITUT FUR WERKSTOFFPHYSIK UND SCHICHTTECHNOLOGIE
GENERAL PHYSICS INSTITUTE
HERIOT-WATT UNIVERSITY
INDIAN INSTITUTE OF TECHNOLOGY - MUMBAI
INSTITUTE FOR SUPERHARD MATERIALS
INSTITUTE OF MECHNICAL ENGINEERING
INSTITUTO NACIONAL DE PESQUISAS ESPACIAIS
KHARKOV STATE POLYTECHNICAL UNIVERSITY
JAPAN FINE CERAMICS CENTER
KING's COLLEGE OF LONDON
KOREA ADVANCED INSTITUTE OF SCIENCE AND TECHNOLOGY
KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY
LABORATORY OF SOLID LUBRICATION OF CHEMICAL PHYSICS
LANZHUO UNIVERSITY
NAGOYA UNIVERSITY
NANJING UNIVERSITY
NATIONAL CHENG KUNG UNIVERSITY
NATIONAL INSTITUTE OF MATERIALS SCIENCE
NATIONAL SCIENCE CENTRE
NATIONAL TAIPEI UNIVERSITY
NETHERLANDS ENERGY RESEARCH FOUNDATION
NIPPON INSTITUTE OF TECHNOLOGY
OSAKA UNIVERSITY
ROYAL MELBOURNE INSTITUTE OF TECHNOLOGY
RUSSIAN ACADEMY OF SCIENCES
RYUKOKU UNIVERSITY
SAITAMA UNIVERSITY
SARDAR PATEL UNIVERSITY
SCIENCE AND TECHNOLOGY AGENCY
SEOUL NATIONAL UNIVERSITY
STATE ENGINEERING UNIVERSITY OF ARMENIA
TECHNICAL RESEARCH CENTER OF FINLAND
TECHNICAL UNIVERSITY OF LODZ
TOKAI UNIVERSITY
TOKYO DENKI UNIVERSITY
TOKYO INSTITUTE OF TECHNOLOGY
TOYO UNIVERSITY
UKRAINE ACADEMY OF SCIENCES
UNIVERSITY OF BRISTOL
UNIVERSITY OF ELECTROCOMMUNICATIONS
UNIVERSITY OF EXETER
UNIVERSITY OF GOTTIGEN
UNIVERSITY OF HAMBURG
UNIVERSITY OF HEIDELBERG
UNIVERSITY OF HELSINKI
UNIVERSITY OF KASSEL
UNIVERSITY OF LONDON
UNIVERSITY OF MELBORNE
UNIVERSITY OF PRETORIA
UNIVERSITY OF READING
UNIVERSITY OF TOKYO
UNIVERSITY OF TSUKUBA
UNIVERSITY OF THE WITWATERSTRAND
UNIVERSITY OF ULM
VIENNA TECHNOLOGICAL UNIVERSITY
WARSAW UNIVERSITY OF TECHNOLOGY
WARSAW UNIVERSITY OF TECHNOLOGY

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Diamond, Diamond-like and CBN Films & Coating Products