薄膜蒸著設備的全球市場

薄膜蒸著設備的全球市場 是由出版商Global Industry Analysts, Inc.在2011年08月所出版的。 這份英文市場調查報告書包含Pages: 355 價格從美金4500起跳。

簡介

本報告書內容包括:全球的薄膜蒸著設備市場的概要及產品/技術趨勢、地區（國家）分類市場的分析、近年的業界趨勢、主要企業的介紹等提供、內容綱要摘記如下:

目錄

第1章 介紹、調查方法、產品的定義

• 調查的信賴性和報告的界限
• 免責條項
• 檔案解釋和報告的等級
  • 定量方法和定量分析
• 產品的相關定義和調查範圍
  • 物理氣相成長法(PVD)
  • 化學氣相成長法(CVD)
  • 使用者部門 - 概觀

第2章 業界概觀

• 景氣循環所預測的困難之路
• 技術和時機 - '國王廠商'
• 一個事業需要全賭上嗎？
• 薄模塗裝 - 各種優點
• CVD對PVD
• 市場風險
• 現在的市場發展情境
• 原子層堆積法的預測未來

第3章 競爭發展情境

• 既存大型所支配的薄膜蒸著設備市場
  • 共存的技術所延遲的定位
  • 真正的團隊

第4章 使用者市場 - 用途和趨勢

• 各種產業領域所使用的TFD原料和技術
• 微電子
• 醫療技術
• 切削工具
• 工業市場和能源市場
• 特殊包裝
• 光學工業

第5章 產品及技術的相關概觀

第6章 最近的業界趨勢

第7章 產品開發和新產品

第8章 主要企業

第9章 全球市場的展望

第10章 美國

第11章 加拿大

第12章 日本

第13章 歐洲

第14章 亞太地區

第15章 其他各國

市場勢力圖

目錄

Abstract

This report analyzes the worldwide markets for Thin Layer Deposition Equipment in US$ Million. Analytics provided in the report are for equipment incorporating two major deposition techniques Physical Vapor Deposition (PVD), and chemical Vapor Deposition (CVD). Market analysis is provided for each of these equipment types by their respective end-use sectors - Physical Vapor Deposition (PVD) Equipment (Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging. Data Storage, Optics, & Medical), and Chemical Vapor Deposition (CVD) Equipment (Microelectronics, Cutting Tools, Industrial, & Medical). The report provided separate comprehensive analytics for the US, Canada, Japan, Europe, Asia-Pacific, and Rest of World. Annual Estimates and forecasts are provided for the period 2009 through 2017. Also, a six-year historic analysis is provided for these markets. The report profiles 77 companies including many key and niche players such as AIXTRON, Applied Materials, Inc., ASM International N.V., Canon ANELVA Corporation, CHA Industries, CVD Equipment Corporation, Denton Vacuum, LLC, Edwards Limited, Ionbond AG, Jusung Engineering Co., Ltd., KDF Electronic & Vacuum Services, Inc., Kokusai Semiconductor Equipment Corporation, Novellus Systems, Inc., OC Oerlikon corporation AG, OEM Group, RIBER SA, Seki Technotron USA, silicon Genesis Corporation, Tecvac Limited, Ti-Coating, Inc., Tokyo Electron Limited, Ultramet, ULVAC Technologies Inc., Vapor Technologies, Inc., and Veeco Instruments. Market data and analytics are derived from primary and secondary research. Company profiles are mostly extracted from URL research and reported select online sources.

Table of Contents

1. INTRODUCTION, METHODOLOGY & PRODUCT DEFINITIONS 1

• Study Reliability and Reporting Limitations 1
• Disclaimers 2
• Data Interpretation & Reporting Level 3
  • Quantitative Techniques & Analytics 3
• Product Definitions and Scope of Study 3
  • Physical Vapor Deposition (PVD) 3
  • Chemical Vapor Deposition (CVD) 4
  • End-Use Sectors - An Overview 5
  • Microelectronics Industry 5
  • Cutting Tools 5
  • Industrial & Energy 5
  • Specialty Packaging 5
  • Optics Industry 6
  • Medical Technology Applications 6

2. INDUSTRY OVERVIEW 7

• A Bumpy Ride with the Economic Cycles 7
• Technology & Timing: The ' King Makers' ... 7
• Putting all Eggs in One Basket? 7
• Thin Film Coating: Bouquet of Advantages 8
• CVD Vs PVD 8
• Market Risks 8
• Current Market Scenario 9
  • Market Reels Under the Economic Pressure 9
  • World Beyond Recession 10
  • Steady Demand for Copper Deposition Equipment in Memory Devices Market 10
  • Growth To Recover Post Recession 10
  • Table 1: High-Performance Ceramic Coating Technologies Market in North America (2009): Percentage Market share Breakdown by Technology (includes corresponding Graph/Chart) 11
  • Outlook 11
• Bright Future Ahead for Atomic Layer Deposition Equipment 12

3. COMPETITIVE SCENARIO 13

• Established Majors Rule Thin Film Deposition Market... 13
  • Co-Existing Technologies Defer Positioning 13
  • Teamwork Gaining Momentum 13
  • Table 2: Leading Players in World Deposition Equipment Market (2010) - Percentage Market Share Breakdown of Leading Players (includes corresponding Graph/Chart) 14
  • Table 3: Global MOCVD Market (2010): Percentage Share Breakdown of Dollar Sales by Leading Players (includes corresponding Graph/Chart) 14
  • Table 4: World Sputtering Equipment Market (2010) - Percentage Share Breakdown of Revenue by Leading Players (includes corresponding Graph/Chart) 14
  • Table 5: World Chemical Vapor Deposition (CVD) Equipment Market (2010) - Percentage Share Breakdown of Revenue by Leading Players (includes corresponding Graph/Chart) 14
  • Table 6: World Plasma Enhanced CVD Market (2010) - Percentage Market Share Breakdown of Leading Players (includes corresponding Graph/Chart) 15
  • Table 7: World High Density Plasma CVD Market (2010) - Percentage Market Share Breakdown of Leading Players 15
  • Table 8: World Low Pressure CVD Market (2009) - Percentage Market Share Breakdown pf Leading Players (includes corresponding Graph/Chart) 15

4. END USE MARKETS - APPLICATIONS & TRENDS 16

• A Peek into TFD Materials & Technologies for Various Industry Segments 16
• Microelectronics Industry 17
  • Driven by IT... 17
  • Integrated Metrology: A Rising Trend 17
  • Primary Segments 17
  • Semiconductor Industry 17
  • Applications of CVD and PVD Technologies 18
  • Design Rule Upgrades Bring Cheer to CVD Equipment Makers in Semiconductor Segment 18
  • Key TFD Technologies Employed 18
  • Opto-electronic Components 18
  • Applications of TFD Equipment 19
  • CVD Equipment & Thin Film Materials for the FPD Industry 19
  • Key Technologies 19
  • Trends 20
  • Digital/HDLCD TVs Spike PECVD Systems' Use in Flat Panel Display Industry 20
  • OLED: ' The Future' of TFD in FPDs 20
  • Data Storage 20
  • Trends 20
  • High-Volume End Use Applications Shape the Data Storage Industry' s Demand 20
  • High-Density Thin Films Improve Areal Densities of Magnetic Recording Heads 21
• Medical Technology 21
  • Surgical Tools - A Host of Performance Parameters to Satisfy 21
  • Orthopedic Prostheses - A Quest for Higher Quality of Life 21
  • Biocompatibility - A Key Stipulation 22
  • TFD Techniques Used 22
  • Process Fallacies to be Addressed 22
  • Other Areas of Application 22
  • Major Influencers 22
• Cutting Tools 23
  • Trends 23
  • Cost-Efficiency Expands the Volume of Cutting Tools Coated 23
  • Chromium Nitride Emerges as Preferred Coating 23
  • Thin Film Diamond Coatings for the ' Cutting Edge' 23
  • Dry Cutting Props TFD Coatings 24
• Industrial & Energy Market 24
  • Key TFD Technologies Used 24
  • Automotive & Architectural Glass - A Major End Use 24
  • High Concentration of Glass Manufacturers - Depriving Margins 25
  • Industrial Machining - High Volume Applications 25
  • Critical Requirements of Tool Coatings 25
  • Decorative Coatings: Bountiful Opportunities 25
  • Major Influencers 25
• Specialty Packaging 25
  • Typical Structure of a Flexible Package 26
  • Package Productivity Rises with Thin Film Coating 26
  • Market Drivers 26
  • Demand for Consumer Goods & State of Economy 26
  • Package Innovations & Consumer Preferences for Package Convenience and Shelf Life 26
  • Package' s Visual Appeal 27
  • E-Commerce 27
  • Labeling Requirements 27
  • Recyclability of Package 27
• Optics Industry 27

5. PRODUCT/TECHNOLOGY OVERVIEW 28

• Thin Layer Deposition: An Introduction 28
• Role of Evaporation in Thin Layer Deposition 28
• Deposition Techniques by Technology Type 28
  • Physical Vapor Deposition (PVD): A Technical Run-through 28
  • Advantages 29
  • Disadvantages 29
  • Sputtering: An Enabling PVD Process 29
  • Sputtering Materials 30
  • Types of Sputtering 30
  • DC Diode Sputtering 30
  • Radio-Frequency RF Diode Sputtering 30
  • DC and RF Magnetron Sputtering 30
  • Ion Beam Sputtering 30
  • Chemical Vapor Deposition (CVD): A Technical Overview 30
  • Advantages 31
  • Types 31
  • Atmospheric Pressure Chemical Vapor Deposition (APCVD) 31
  • Low Pressure Chemical Vapor Deposition (LPCVD) 32
  • Rapid Thermal Chemical Vapor Deposition (RTCVD) 32
  • Plasma Enhanced Chemical Vapor Deposition (PECVD) 32
  • High-Density Plasma Chemical Vapor Deposition (HDPCVD) 32
  • Metal Organic Chemical Vapor Deposition (MOCVD) 32
  • Atomic Layer Deposition (ALD) 33
  • Advantages of ALD 33
  • End-Use Application Areas 33
  • Capacitor layers 33
  • Gate dielectrics 34
  • Interconnects 34
  • Non-Semiconductor Applications 34
  • Electrochemical Deposition (ECD) 34
  • Other Deposition Techniques 34
  • Epitaxy 34
  • Molecular Beam Epitaxy (MBE) 35
  • Ion Beam Deposition (IBD) 35
  • Ion Implantation 35
  • Types of Ion Implantation Tools 36
  • Pulsed Plasma Doping: A Generation-X Ion Implantation Technology 36
  • A Quick Primer on Etching 36
  • Chemical Etch 37
  • Plasma Etch 37

6. RECENT INDUSTRY ACTIVITY 38

• Plasma-Therm Takes Over Majority Stake in Advanced Vacuum 38
• AIXTRON SE Receives a New Order for MOCVD Reactor from Saturn JSC 38
• AIXTRON Supplies QXP-8300 ALD Deposition Tool to Korean Manufacturer 38
• AIXTRON to Install New MOCVD Reactor for University of Technology Eindhoven 39
• PARC Purchases Close Coupled Showerhead MOCVD System from AIXTRON 39
• AIXTRON SE Bags Order for AIX 2800G4-R MOCVD Reactor from Finisar 39
• Oerlikon Solar Receives KAI Equipment Order from Dong Xu 39
• AIXTRON to Supply MOCVD Systems for ISCAS 40
• SPTS Receives Sigma(r) fxPTM Physical Vapor Deposition System Order from CEA-Leti 40
• Altatech Semiconductor Bags AltaCVD System Order from Fraunhofer Research Center 41
• Shanghai Epilight Technology Places Multi-Tool Supply Order with Veeco Instruments 41
• Enraytek Optoelectronics Selects Veeco as Chosen Supplier of MOCVD Systems 41
• Oerlikon Balzers to Acquire hartec Anlagenbau 42
• CVD Equipment and Graphene Laboratories Ink Exclusive Distribution Agreement 42
• ULVAC and OPTORUN Enter into Agreement 42
• BluGlass and SPP Process Technology Systems Ink Joint Venture Agreement 43
• Guardian Industries and Intermolecular Ink CDP and Technology Licensing Agreement 43
• Altatech Semiconductor Bags New Order for 300 mm CVD System 44
• Veeco Receives MOCVD System Order from Seoul Optodevice for Capacity Expansion 45
• Cambridge NanoTech Establishes ALD Center of Excellence in Collaboration with Stanford University 45
• AIXTRON AG Receives Novel Order for MOCVD Reactor from APOLLO Precision 46
• Cambridge NanoTech to Develop ALD System for FlexTech Alliance 46
• AIXTRON Bags ULED Order for MOCVD Systems 46
• Veeco Receives Multi-tool Order from Epistar 47
• Veeco Instruments Bags Multi-Tool Order from Hangzhou Silan 47
• Tsinghua Tongfang Opts for Veeco as Primary MOCVD Supplier 47
• Elec-Tech Prefers Veeco' s TurboDisc(R) K465i Systems as Tool of Choice 48
• AIXTRON Receives its First Order from INCOTEX 48
• Applied Materials Expands Manufacturing Center to Improve PECVD & PVD Production 48
• Tegal Divests PVD and Thin-Film Etch Product Lines to OEM Group 48
• Novellus Ties Up with IBM for 3-D Semiconductor TSV Process 49
• Ledian Tianwei Commissions Polysilicon Manufacturing Plant 49
• MTC Inks Exclusive Distribution Deal with Kennametal Sintec 49
• Applied Materials Acquires Semitool 50
• Veeco Bags Order from Bridgelux for Supply of MOCVD System 50
• Dynamic Engineering Receives Supply Contract from GCL Solar 50
• II-VI Incorporated forms Joint Venture with Supower 51
• Cambridge NanoTech Partners with M. Braun 51
• AIXTRON Partners with Ovonyx to Develop AVDR Technology 51
• GT Legend to Takeover US Wheel Exchange 52
• Sumitomo Precision Acquires Aviza Technologies 52
• Tegal Acquires Product Lines of Alcatel Micro Machining Systems 53
• ASM International Inks Licensing Deal with Tokyo Electron 53
• Arkema to Enter Partnership with Kibing for a CVD Project Expansion 53
• IHI Plans to Set up a New Sub-subsidiary 53
• Intermolecular Inks a Collaboration and License Agreement with Elpida for Advanced ICs 54
• IHI Acquires Hauzer Techno Coating 54
• Veeco Acquires Mill Lane Engineering 54
• Oerlikon Balzers Completes Acquisition of Suomen Plasmapinta 54
• Applied Materials Acquires Baccini 54
• AIXTRON to Supply GaAs MOCVD System to Korea Advanced Nano Fab Center 55
• Tegal Corporation Wins an Order for Endeavor AT PVD Tool 55
• Oerlikon and PT. Artoda Form Joint Venture for New Coating Center in Jakarta 55
• Tegal Selects WESI for Distribution of PVD and Plasma Etch Products 56
• Next Solar to Build Thin-Film Solar Module Facility 56
• Tokyo Electron Enters into a Joint Venture with Sharp 57
• ASMI Receives Indicative Unsolicited Offer from Applied Materials 57
• GT Solar Enters into a Contract with The Silicon Mine 57
• Beneq Takes Over Planar Systems' ALD Business 57
• INFICON Completes Acquisition of Maxtek 57
• EPOD Acquires Majority Stake in ICP Solar Technologies 58
• SANYO Completes Acquisition of AIXTRON MOCVD System 58
• Plastic Logic Acquires AIXTRON Gen 3.5 Deposition Tool 58
• Aixtron Takes Over Nanoinstruments 59
• Oerlikon Balzers Opens Coating Centers in Turkey and Romania 59
• CVD Inks Contract to Expand First Nano Laboratory 59
• Tokyo Electron Inks Agreement with Integrated Materials 60
• Tegal to Supply Endeavor to Major Accelerometer & Inertial Sensor Maker 60
• Tegal Receives Repeat Order for Endeavor from U.S. Customer 60
• InterCrossIP Enters into Licensing Agreements with Ceimig and SFU 61
• Williams Advanced Materials Sets Up New Facility in Czech Republic 61
• Applied Materials Sets Up a New Wafer Reclaim Facility in Taiwan 62
• ASM Obtains Order for Multiple System Contract 62
• Tegal Wins Order for Endeavor PVD System from Major MEMS Foundry 62
• JUSUNG Signs Agreement with CEA for Joint Development of Solar Cells 63
• CSP Partners with ULVAC for Thin Film Solar Cells 63
• Sunner Solar Partners with ULVAC to Produce Thin Film Solar Cells 63
• Amtech Enters into a License Deal with PST 63
• GE Global Research Enters into a Joint Agreement with TOKKI 64

7. PRODUCT INNOVATIONS/INTRODUCTIONS 65

• Picosun Introduces Picoplasma-based Plasma Enhanced ALD Systems 65
• Veeco Instruments Launches TurboDisc(r) MaxBright(tm) Gallium Nitride MOCVD Multi-Reactor System 65
• Applied Materials Extends RF PVD Technology by Depositing Nickel-Platinum (NiPt) Alloys 66
• Veeco Instruments Launches MaxBright MOCVD Multi-Reactor System 66
• Veeco Instruments Launches NEXUS(r) TAMR Physical Vapor Deposition System 67
• Veeco Instruments Rolls Out TurboDisc(r) K465i(tm) Gallium Nitride MOCVD System 67
• sp3 Diamond Technologies Introduces New CVD Diamond Reactor 67
• Applied Materials Unveils New CVD Technology 68
• Henniker Scientific Introduces ' Prevac CLAM II' Thin Film Deposition System 68
• First Nano Launches New CVD R&D Tool Platform 69
• Novellus Introduces VECTOR(r) Extreme(tm) TEOS xT(tm) system 69
• Novellus Systems Develops New CFD Technology 69
• Veeco Releases TurboDisc K465i GaN MOCVD System for Production of HB-LEDs 70
• Novellus Introduces a New Copper Seed PVD Process for TSV Packaging 70
• Fujitsu Develops Technology for Direct Formation of Graphene Transistors Using CVD 71
• CVD Equipment Launches New EasyTube Platform for Polysilicon & Thin Film Materials 71
• MTC Launches New CVD SiC Wafer Carriers for MOCVD Processing 72
• Veeco Unveils Nexus CVD System 73
• Premier Expands Bayview Collection with PVD Technology Kitchen Products 73
• sp3 Diamond Expands Model 650 Series with CVD Diamond Coating Systems 73
• Cambridge NanoTech Launches Novel ALD System 74
• Altatech Introduces New Deposition Systems 74
• Swagelok(r) Launches New ALD Liquid Injection Valve 74
• Oerlikon Balzers Introduces Low-temperature PVD Coatings 75
• Tokyo Electron Introduces Trias(tm) HP Ti 75
• Applied Materials Launches Applied Producer(r) BLOk(tm) II PECVD System 75
• ASM International Launches Eagle(r) XP Platform 76
• Applied Materials Introduces Applied SunFab(tm) Thin Film Line 76
• Applied Materials Launches Applied Producer(r) ACE(tm) ACVD(r) System 76
• Axcelis Launches Optima XE High Energy Ion Implanter 77
• First Nano Launches ET2000-SS and ET3000-SS Solid Source Deposition System 77
• Novellus Launches VECTOR Extreme(tm) PECVD System 77
• Denton Launches Discovery 785 Deposition System 78
• Tokyo Electron Rolls out Trias(tm) High-k CVD System 78
• Novellus Systems Unveils Vector Express 78
• Veeco Unveils TurboDisc K-series MOCVD Platform 79
• Veeco Instruments Introduces New Vapor Deposition System 79
• Applied Materials Unveils AKT-PiVot Deposition System 79
• Veeco Launches PV-Series of Thermal Deposition Sources 79
• Applied Materials Introduces Advanced Strain Engineering Technology 79
• Oerlikon Balzers Introduces BALINIT(r) ALDURA Coatings for Cutting Tools 80
• ASM Announces Availability of Pulsar(r) ALCVD(tm) Module for Volume Production 80
• Novellus Introduces Enhancement for INOVA(r) 300 mm System 80
• Novellus Introduces Vector Express with AHM(tm) Technology 81

8. FOCUS ON SELECT PLAYERS 82

• AIXTRON SE (Germany) 82
• Applied Materials, Inc. (USA) 82
• ASM International N.V. (The Netherlands) 83
• Canon ANELVA Corporation (Japan) 83
• CHA Industries (USA) 83
• CVD Equipment Corporation (USA) 84
• Denton Vacuum, LLC (USA) 84
• Edwards Limited (UK) 85
• Ionbond AG (Switzerland) 85
• Jusung Engineering Co., Ltd. (Korea) 86
• KDF Electronic & Vacuum Services, Inc. (USA) 86
• Kokusai Semiconductor Equipment Corporation (USA) 86
• Novellus Systems, Inc. (USA) 87
• OC Oerlikon Corporation AG (Switzerland) 87
• OEM Group (USA) 88
• RIBER SA (France) 88
• Seki Technotron USA (USA) 88
• Silicon Genesis Corporation (USA) 89
• Tecvac Ltd (UK) 89
• Ti-Coating, Inc. (USA) 89
• Tokyo Electron Limited (Japan) 90
• Ultramet (USA) 90
• ULVAC Technologies, Inc. (USA) 91
• Vapor Technologies, Inc. (USA) 91
• Veeco Instruments (USA) 91

9. GLOBAL MARKET PERSPECTIVE 92

• Table 9: World Recent Past, Current & Future Analysis for Thin Layer Deposition Equipment by Geographic Region - US, Canada, Japan, Europe, Asia-Pacific (excluding Japan), and Rest of World Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 92
• Table 10: World Historic Review for Thin Layer Deposition Equipment by Geographic Region - US, Canada, Japan, Europe, Asia-Pacific (excluding Japan), and Rest of World Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 93
• Table 11: World 15-Year Perspective for Thin Layer Deposition Equipment by Geographic Region - Percentage Breakdown of Dollar Sales for US, Canada, Japan, Europe, Asia-Pacific (excluding Japan), and Rest of World Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 94
• Table 12: World Recent Past, Current & Future Analysis for Thin Layer Deposition Equipment by Technology - Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 95
• Table 13: World Historic Review for Thin Layer Deposition Equipment by Technology - Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 96
• Table 14: World 15-Year Perspective for Thin Layer Deposition Equipment by Technology - Percentage Breakdown of Dollar Sales for Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 96
• Table 15: World Recent Past, Current & Future Analysis for Physical Vapor Deposition Equipment by Geographic Region - US, Canada, Japan, Europe, Asia-Pacific (excluding Japan), and Rest of World Market Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 97
• Table 16: World Historic Review for Physical Vapor Deposition Equipment by Geographic Region - US, Canada, Japan, Europe, Asia-Pacific (excluding Japan), and Rest of World Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 98
• Table 17: World 15-Year Perspective for Physical Vapor Deposition Equipment by Geographic Region - Percentage Breakdown of Dollar Sales for US, Canada, Japan, Europe, Asia-Pacific (excluding Japan), and Rest of World Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 99
• Table 18: World Recent Past, Current & Future Analysis for Physical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 100
• Table 19: World Historic Review for Physical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 101
• Table 20: World 15-Year Perspective for Physical Vapor Deposition Equipment by End-Use Segment - Percentage Breakdown of Dollar Sales for Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 102
• Table 21: World Recent Past, Current & Future Analysis for Chemical Vapor Deposition Equipment by Geographic Region - US, Canada, Japan, Europe, Asia-Pacific (excluding Japan), and Rest of World Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 103
• Table 22: World Historic Review for Chemical Vapor Deposition Equipment by Geographic Region - US, Canada, Japan, Europe, Asia-Pacific (excluding Japan), and Rest of World Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 104
• Table 23: World 15-Year Perspective for Chemical Vapor Deposition Equipment by Geographic Region - Percentage Breakdown of Dollar Sales for US, Canada, Japan, Europe, Asia-Pacific (excluding Japan), and Rest of World Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 105
• Table 24: World Recent Past, Current & Future Analysis for Chemical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 106
• Table 25: World Historic Review for Chemical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 107
• Table 26: World 15-Year Perspective for Chemical Vapor Deposition Equipment by End-Use Segment - Percentage Breakdown of Dollar Sales for Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 108

10. THE UNITED STATES 109

• Market Analysis 109
  • Table 27: US Recent Past, Current & Future Analysis for Thin Layer Deposition Equipment by Technology - Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 109
  • Table 28: US Historic Review for Thin Layer Deposition Equipment by Technology - Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 110
  • Table 29: US 15-Year Perspective for Thin Layer Deposition Equipment by Technology - Percentage Breakdown of Dollar Sales for Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 110
  • Table 30: US Recent Past, Current & Future Analysis for Physical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 111
  • Table 31: US Historic Review for Physical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 112
  • Table 32: US 15-Year Perspective for Physical Vapor Deposition Equipment by End-Use Segment - Percentage Breakdown of Dollar Sales for Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 113
  • Table 33: US Recent Past, Current & Future Analysis for Chemical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 114
  • Table 34: US Historic Review for Chemical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 115
  • Table 35: US 15-Year Perspective for Chemical Vapor Deposition Equipment by End-Use Segment - Percentage Breakdown of Dollar Sales for Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 116

11. CANADA 117

• Market Analysis 117
  • Table 36: Canadian Recent Past, Current & Future Analysis for Thin Layer Deposition Equipment by Technology - Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 117
  • Table 37: Canadian Historic Review for Thin Layer Deposition Equipment by Technology - Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 118
  • Table 38: Canadian 15-Year Perspective for Thin Layer Deposition Equipment by Technology - Percentage Breakdown of Dollar Sales for Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 118
  • Table 39: Canadian Recent Past, Current & Future Analysis for Physical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 119
  • Table 40: Canadian Historic Review for Physical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 120
  • Table 41: Canadian 15-Year Perspective for Physical Vapor Deposition Equipment by End-Use Segment - Percentage Breakdown of Dollar Sales for Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 121
  • Table 42: Canadian Recent Past, Current & Future Analysis for Chemical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 122
  • Table 43: Canadian Historic Review for Chemical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 123
  • Table 44: Canadian 15-Year Perspective for Chemical Vapor Deposition Equipment by End-Use Segment - Percentage Breakdown of Dollar Sales for Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 124

12. JAPAN 125

• A. Market Analysis 125
  • Current & Future Analysis 125
  • Table 45: Sputtering Equipment Market in Japan (2010) - Percentage Share Breakdown of Revenue by Leading Players (includes corresponding Graph/Chart) 125
• B. Market Analytics 126
  • Table 46: Japanese Recent Past, Current & Future Analysis for Thin Layer Deposition Equipment by Technology - Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 126
  • Table 47: Japanese Historic Review for Thin Layer Deposition Equipment by Technology - Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 127
  • Table 48: Japanese 15-Year Perspective for Thin Layer Deposition Equipment by Technology - Percentage Breakdown of Dollar Sales for Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 127
  • Table 49: Japanese Recent Past, Current & Future Analysis for Physical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 128
  • Table 50: Japanese Historic Review for Physical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 129
  • Table 51: Japanese 15-Year Perspective for Physical Vapor Deposition Equipment by End-Use Segment - Percentage Breakdown of Dollar Sales for Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 130
  • Table 52: Japanese Recent Past, Current & Future Analysis for Chemical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 131
  • Table 53: Japanese Historic Review for Chemical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 132
  • Table 54: Japanese 15-Year Perspective for Chemical Vapor Deposition Equipment by End-Use Segment - Percentage Breakdown of Dollar Sales for Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 133

13. EUROPE 134

• Market Analysis 134
  • Table 55: European Recent Past, Current & Future Analysis for Thin Layer Deposition Equipment by Technology - Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 134
  • Table 56: European Historic Review for Thin Layer Deposition Equipment by Technology - Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 135
  • Table 57: European 15-Year Perspective for Thin Layer Deposition Equipment by Technology - Percentage Breakdown of Dollar Sales for Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 136
  • Table 58: European Recent Past, Current & Future Analysis for Physical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 137
  • Table 59: European Historic Review for Physical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 138
  • Table 60: European 15-Year Perspective for Physical Vapor Deposition Equipment by End-Use Segment - Percentage Breakdown of Dollar Sales for Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 139
  • Table 61: European Recent Past, Current & Future Analysis for Chemical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 140
  • Table 62: European Historic Review for Chemical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 141
  • Table 63: European 15-Year Perspective for Chemical Vapor Deposition Equipment by End-Use Segment - Percentage Breakdown of Dollar Sales for Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 142

14. ASIA-PACIFIC 143

• A. Market Analysis 143
  • Current & Future Analysis 143
  • Table 64: Sputtering Equipment Market in Taiwan (2010) - Percentage Share Breakdown of Revenue by Leading Players (includes corresponding Graph/Chart) 143
• B. Market Analytics 144
  • Table 65: Asia-Pacific Recent Past, Current & Future Analysis for Thin Layer Deposition Equipment by Technology - Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 144
  • Table 66: Asia-Pacific Historic Review for Thin Layer Deposition Equipment by Technology - Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 145
  • Table 67: Asia-Pacific 15-Year Perspective for Thin Layer Deposition Equipment by Technology - Percentage Breakdown of Dollar Sales for Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 146
  • Table 68: Asia-Pacific Recent Past, Current & Future Analysis for Physical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 147
  • Table 69: Asia-Pacific Historic Review for Physical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 148
  • Table 70: Asia-Pacific 15-Year Perspective for Physical Vapor Deposition Equipment by End-Use Segment - Percentage Breakdown of Dollar Sales for Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 149
  • Table 71: Asia-Pacific Recent Past, Current & Future Analysis for Chemical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 150
  • Table 72: Asia-Pacific Historic Review for Chemical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 151
  • Table 73: Asia-Pacific 15-Year Perspective for Chemical Vapor Deposition Equipment by End-Use Segment - Percentage Breakdown of Dollar Sales for Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 152

15. REST OF WORLD 153

• Market Analysis 153
  • Table 74: Rest of World Recent Past, Current & Future Analysis for Thin Layer Deposition Equipment by Technology - Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 153
  • Table 75: Rest of World Historic Review for Thin Layer Deposition Equipment by Technology - Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets Independently Analyzed with Annual Sale Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 154
  • Table 76: Rest of World 15-Year Perspective for Thin Layer Deposition Equipment by Technology - Percentage Breakdown of Dollar Sales for Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD) Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 155
  • Table 77: Rest of World Recent Past, Current & Future Analysis for Physical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 156
  • Table 78: Rest of World Historic Review for Physical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 157
  • Table 79: Rest of World 15-Year Perspective for Physical Vapor Deposition Equipment by End-Use Segment - Percentage Breakdown of Dollar Sales for Microelectronics, Cutting Tools, Industrial & Energy, Specialty Packaging, Data Storage, Optics, and Medical Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 158
  • Table 80: Rest of World Recent Past, Current & Future Analysis for Chemical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2009 through 2017 (includes corresponding Graph/Chart) 159
  • Table 81: Rest of World Historic Review for Chemical Vapor Deposition Equipment by End-Use Segment - Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets Independently Analyzed with Annual Sales Figures in US$ Million for Years 2003 through 2008 (includes corresponding Graph/Chart) 160
  • Table 82: Rest of World 15-Year Perspective for Chemical Vapor Deposition Equipment by End-Use Segment - Percentage Breakdown of Dollar Sales for Microelectronics, Cutting Tools, Industrial & Energy and Medical Markets for Years 2003, 2010 & 2017 (includes corresponding Graph/Chart) 161

COMPETITIVE LANDSCAPE

相關商品

工作機械相關市場調查報告書

俄羅斯的鍛造機械市場分析(2010∼2011年)
Monitoring of press-forging machines market Russia (2010 - 2011)
價格 : US $ 1300
出版日期 : 2012年04月

全球機械工具市場：2011∼2015年
Global Machine Tool Market 2011-2015
價格 : US $ 1500
出版日期 : 2012年03月

熔接設備及消耗品市場分析
Analysis of Welding Equipment and Consumables Market
價格 : US $ 6000
出版日期 : 2012年03月

Global Industry Analysts, Inc.發行的工業機械相關市場調查報告書

位元錯誤率測試(BERT)的全球市場

Bit Error Rate Testers (BERT)

價格 : US $ 4950

出版日期 : 2012年04月

控制及處理設備的全球市場

Control and Processing Equipment

價格 : US $ 4500

出版日期 : 2012年04月

纖維機械的全球市場

Textile Machinery

價格 : US $ 4500

出版日期 : 2012年04月

Email Alert(Email 通知) - 最新市場調查報告書

GII 將每天定期更新最新市場調查報書資訊，選擇您有興趣的市場分類，我們將用Email的方式讓您收到最新訊息!