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表紙
市場調査レポート - 237296

世界のPVD(物理気相成長法)市場

Physical Vapor Deposition (PVD): Global Markets

発行 BCC Research
出版日 ページ情報 英文 272 Pages
価格
世界のPVD(物理気相成長法)市場 Physical Vapor Deposition (PVD): Global Markets
出版日: 2012年04月16日 ページ情報: 英文 272 Pages
概要

世界のPVD(物理気相成長法)市場は2010年に92億ドル、2011年には99億ドルの市場規模を記録しました。2011年以降は8.5%の年平均成長率で推移し、2016年には約150億ドルの市場規模に成長すると予測されています。

当レポートでは、世界のPVD(物理気相成長法)装置・材料・サービスの市場について調査分析し、主要エンドユーズ部門で用いられる主な装置と材料、エンドユーズ区分別の装置・材料・サービス市場の成長予測(〜2016年)、市場成長の推進因子・阻害因子、競合環境、市場シェア、主要企業のプロファイルなどをまとめ、概略以下の構成でお届けいたします。

第1章 イントロダクション

第2章 サマリー

第3章 概要

  • 概要
  • PVD成膜技術
  • 材料の分類
  • 主な用途

第4章 PVD産業の構造

  • 産業動向
  • 世界のPVD製造
  • 世界のPVD機器の利用
  • 市場シェア
  • 企業プロファイル

第5章 PVD技術

  • 基本的なPVDの工程
  • PVD装置のコンフィギュレーション
  • PVDの技術動向
  • 産業の競争力
  • 特許分析

第6章 PVD市場

  • 産業アプローチ
  • 市場分析

第7章 マイクロエレクトロニクス市場におけるPVD

  • ベーシックなマイクロエレクトロニクス製品
  • マイクロエレクトロニクス部門における競合
  • 半導体用途
  • 半導体市場の推進因子と動向
  • その他の用途

第8章 ストレージ市場におけるPVD

  • ストレージ製品の例
  • ストレージ部門における競合
  • ストレージの用途
  • ストレージメディアの主な材料
  • ストレージ市場の推進因子と動向

第9章 切削工具市場におけるPVD

  • 製品の定義
  • 切削工具部門における競合
  • 切削工具の用途
  • 切削工具部門における主な材料
  • 切削工具市場の推進因子と動向

第10章 ソーラー産業におけるPVD

  • 製品の定義
  • ソーラー部門における競合
  • ソーラー産業における用途
  • ソーラー産業における主要材料
  • ソーラー市場の推進因子と動向

第11章 光学産業におけるPVD

  • 製品の定義
  • 光学部門における競合
  • 工学用途に用いられる材料
  • 光学市場の推進因子と動向

第12章 医療機器市場におけるPVD

  • 製品の定義
  • 医療部門における競合
  • 医療機器部門の用途
  • 医療機器で用いられる主な材料
  • 市場推進因子と動向

第13章 軟包装市場におけるPVD

  • 製品の定義
  • 包装部門における競合
  • 包装産業における用途
  • 軟包装部門で用いられる主な材料
  • 軟包装市場の推進因子と動向

第14章 産業部門におけるPVD

  • 製品の定義
  • 産業部門における競合
  • 主な産業用用途
  • 主な産業用被膜材料
  • 産業部門の推進因子と動向

図表

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目次

Abstract

REPORT HIGHLIGHTS

The global market for the PVD (physical vapor deposition) industry was $9.2 billion in 2010 and $9.9 billion in 2011. BCC projects this market to reach nearly $15 billion by 2016 at a compound annual growth rate (CAGR) of 8.5% between 2011 and 2016.

PVD equipment represents the largest market segment, as shipments are projected to grow at a compound annual growth rate (CAGR) of 7.9% from $7.1 billion in 2011 to reach an estimated $10.4 billion in 2016.

Materials deposited by PVD were estimated at $1.6 billion in 2011 and they are projected to reach nearly $2.7 billion in 2016, a CAGR of 11.3%.

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REPORT SCOPE

INTRODUCTION

STUDY GOALS AND OBJECTIVES

BCC Research's goal in conducting this study was to determine the current status of the global market for physical vapor deposition (PVD) equipment, material deposited by the process and deposition services. We also sought to assess the worldwide growth potential for this technology from 2010 through 2016. We were particularly interested in the types of equipment and materials being used in consumer and industrial applications. We were also again interested in the status of the industry in relation to the continuing global economic and currency problems and the impact they had on equipment demand.

Our major objective was to present a comprehensive analysis of the PVD industry and project its future course.

REASONS FOR DOING THE STUDY

PVD has been a proven technology over the past several decades. Its use has made possible more sophisticated manufacturing and fabrication techniques. Smaller sized products have also broadened the demand for vapor deposited materials. New and existing products require materials that can be delivered by vacuum deposition of films on a growing variety of substrates.

We have examined the current position of PVD technologies and materials in eight major industries. We were interested in what materials and types of PVD systems were being used to meet demands for more sophisticated products. We also analyzed the movements in PVD demand for particular industries caused by the economic downturn of 2007-2008 and the continuing current business problems.

INTENDED AUDIENCE

We present an overview of deposition technologies and future trends, along with a global industry structure, including leading manufacturers of equipment and service providers. A review of the PVD industry's competitiveness in each of the eight market sectors is also provided. Within each industry, there is an overview of key applications, the advantages of using PVD, an analysis of market factors that will impact demand, shipments for 2010 and 2011, and estimated shipments for 2016.

This study will be of interest to those in the microelectronics business, manufacturers of cutting tools, specialty packagers, maker of storage equipment and media, companies in the solar energy business, manufacturers of automotive and aerospace parts, medical device makers and those in the optics industry. It will also be of interest to companies engaged in the manufacture of deposition equipment and materials and to surface coaters.

SCOPE OF REPORT

This study encompasses PVD technologies and materials in terms of application, properties and processes. BCC Research analyzes the major types of PVD systems and materials used to manufacture products in eight key industries. Applications are discussed, as are properties imparted by PVD. Trends in demand also are reviewed and their impacts on PVD are assessed.

Market drivers within each industry are identified. Materials deposited by PVD are analyzed according to basic functions (e.g., wear resistance, abrasion and corrosion resistance, conductivity and barrier protection). The value of PVD equipment shipments is projected within each industry by type of system. Material shipment values are projected, along with PVD service revenues. Technological issues and trends are reviewed, and other influential factors such as economic conditions and standards are discussed.

Because this is a global study, BCC Research analyzes domestic and international technological issues and economic considerations.

METHODOLOGY

BCC Research presents an analysis of the value of PVD systems, materials deposited and services provided by type of system, material and industry segment. Estimated value is what manufacturers and material providers have paid in current dollars. Then, based on our surveys, we analyze industry growth in relation to the growth of PVD technology, calculate estimates of growth, and forecast shipments for 2014.

INFORMATION SOURCES

BCC Research interviewed approximately 130 companies to obtain data for this report. Included were manufacturers of PVD equipment, material suppliers, deposition service providers, industrial and consumer product manufacturing companies, and various end users of products fabricated using the PVD process. Additional data were obtained from government information, trade associations, industry and financial sources, and an exhaustive review of technical literature.

ANALYST'S CREDENTIALS

After a successful career at IBM, Robert H. Moran has written extensively as a research analyst and editor at BCC Research. The topics of his reports range from various deposition technologies to displays, solar energy and solid-state lighting. Mr. Moran has been writing for BCC Research for more than 20 years. He earned a B.S. degree in Economics from the University of Pennsylvania.

Table of Contents

Chapter- 1: INTRODUCTION - Complimentary

  • STUDY GOAL AND OBJECTIVES
  • REASONS FOR DOING THE STUDY
  • INTENDED AUDIENCE
  • SCOPE OF REPORT
  • METHODOLOGY
  • INFORMATION SOURCES
  • ANALYST'S CREDENTIALS
  • RELATED BCC REPORTS
  • BCC ONLINE SERVICES
  • DISCLAIMER

Chapter- 2: SUMMARY

  • Table Summary : VALUE OF GLOBAL PVD INDUSTRY, THROUGH 2016
  • Figure Summary : GLOBAL VALUE OF THE PVD INDUSTRY, 2010-2016

Chapter- 3: OVERVIEW

  • PVD DEPOSITION TECHNOLOGY
  • CLASSIFICATION OF MATERIALS
  • MAJOR APPLICATIONS
  • Table 3 : LEADING PVD APPLICATIONS

Chapter- 4: PVD INDUSTRY STRUCTURE

  • INDUSTRY TRENDS
  • GLOBAL PVD MANUFACTURING
  • GLOBAL CONSUMPTION OF PVD EQUIPMENT
  • MARKET SHARES
  • COMPANY PROFILES

Chapter- 5: PVD TECHNOLOGY

  • THE BASIC PHYSICAL VAPOR DEPOSITION PROCESS
  • PVD EQUIPMENT CONFIGURATIONS
  • TECHNOLOGY TRENDS IN PVD
  • INDUSTRY COMPETITIVENESS
  • PATENT ANALYSIS

Chapter- 6: THE PVD MARKET

  • INDUSTRY APPROACH
  • MARKET ANALYSIS

Chapter- 7: PVD IN THE MICROELECTRONICS MARKET

  • WHAT ARE THE BASIC MICROELECTRONIC PRODUCTS?
  • THE COMPETITIVENESS OF PVD IN MICROELECTRONICS
  • SEMICONDUCTOR APPLICATIONS
  • SEMICONDUCTOR MARKET DRIVERS AND TRENDS
  • OTHER MICROELECTRONIC APPLICATIONS

Chapter- 8: PVD IN THE STORAGE MARKET

  • SAMPLE STORAGE PRODUCTS
  • STORAGE INDUSTRY COMPETITIVENESS
  • STORAGE APPLICATIONS
  • MAJOR MATERIALS USED IN STORAGE MEDIA
  • STORAGE MARKET DRIVERS AND TRENDS

Chapter- 9: PVD IN THE CUTTING TOOL MARKET

  • PRODUCT DEFINITION
  • CUTTING TOOL INDUSTRY COMPETITIVENESS
  • CUTTING TOOL APPLICATIONS
  • KEY MATERIALS DEPOSITED ON CUTTING TOOLS
  • CUTTING TOOL MARKET DRIVERS AND TRENDS

Chapter- 10: PVD IN THE SOLAR INDUSTRY

  • PRODUCT DEFINITION
  • SOLAR INDUSTRY COMPETITIVENESS
  • SOLAR INDUSTRY APPLICATIONS
  • MAJOR MATERIALS USED IN THE SOLAR INDUSTRY
  • SOLAR MARKET DRIVERS AND TRENDS

Chapter- 11: PVD IN THE OPTICS INDUSTRY

  • PRODUCT DEFINITION
  • COMPETITIVENESS OF THE OPTICAL INDUSTRY
  • MATERIALS USED FOR OPTICAL APPLICATIONS
  • OPTICAL MARKET DRIVERS AND TRENDS

Chapter- 12: PVD IN THE MEDICAL EQUIPMENT MARKET

  • PRODUCT DEFINITION
  • MEDICAL INDUSTRY COMPETITIVENESS
  • MEDICAL EQUIPMENT APPLICATIONS
  • MAJOR MATERIALS USED IN THE MEDICAL DEVICE INDUSTRY
  • MARKET DRIVERS AND TRENDS

Chapter- 13: PVD IN THE FLEXIBLE PACKAGING MARKET

  • PRODUCT DEFINITION
  • PACKAGING INDUSTRY COMPETITIVENESS
  • PACKAGING INDUSTRY APPLICATIONS
  • KEY MATERIALS USED FOR FLEXIBLE PACKAGING
  • FLEXIBLE PACKAGING MARKET DRIVERS AND TRENDS

Chapter- 14: PVD IN THE INDUSTRIAL MARKET

  • PRODUCT DEFINITION
  • INDUSTRIAL MARKET COMPETITIVENESS
  • KEY INDUSTRIAL APPLICATIONS
  • KEY INDUSTRIAL COATING MATERIALS
  • INDUSTRIAL MARKET DRIVERS AND TRENDS

List of Tables

  • Summary Table : VALUE OF GLOBAL PVD INDUSTRY, THROUGH 2016
  • Table 1 : THE BASIC PHYSICAL VAPOR DEPOSITION TECHNOLOGIES
  • Table 2 : TYPICAL MATERIALS DEPOSITED BY PVD AND THEIR KEY PROPERTIES
  • Table 3 : LEADING PVD APPLICATIONS
  • Table 4 : KEY COMPANIES INVOLVED IN THE GLOBAL PVD BUSINESS
  • Table 5 : KEY TECHNICAL AREAS REFLECTING PVD IMPROVEMENTS
  • Table 6 : REGIONAL SHARE OF GLOBAL PVD MANUFACTURING 2010-2016
  • Table 7 : GLOBAL SHARE OF PVD CONSUMPTION, 2010-2016
  • Table 8 : MARKET SHARES OF GLOBAL PVD MANUFACTURING COMPANIES, 2011
  • Table 9 : PVD EVAPORATION SOURCES
  • Table 10 : KEY ADVANTAGES OF THE PVD EVAPORATION PROCESS
  • Table 11 : MAJOR LIMITATIONS OF EVAPORATION
  • Table 12 : KEY ADVANTAGES OF SPUTTERING
  • Table 13 : MAJOR LIMITATIONS OF SPUTTERING
  • Table 14 : ADVANTAGES/LIMITATIONS OF THE ION BEAM ASSISTED DEPOSITION PROCESS
  • Table 15 : KEY ADVANTAGES OF PULSED LASER DEPOSITION
  • Table 16 : ADVANTAGES AND LIMITATIONS OF THE CATHODIC ARC PROCESS
  • Table 17 : BASIC ADVANTAGES OF ROLL COATING
  • Table 18 : TECHNICAL ADVANTAGES OF CLUSTER TOOLS
  • Table 19 : BASIC BENEFITS OF IN-LINE PVD SYSTEMS
  • Table 20 : INDUSTRIAL APPLICATIONS OF NANOCOMPOSITES
  • Table 21 : APPLICATIONS OF A ROTATABLE SPUTTER TARGET SYSTEM
  • Table 22 : MAJOR APPLICATIONS FOR LARGE AREA ROLL-TO-ROLL DEPOSITION SYSTEMS
  • Table 23 : PVD PATENTS BY TECHNICAL CATEGORY, LATE 2009-2011
  • Table 24 : PVD PATENTS BY COMPANY (TWO OR MORE PATENTS) LATE 2009-2011
  • Table 25 : ESTIMATED GLOBAL PHYSICAL VAPOR DEPOSITION EQUIPMENT REVENUES AND MARKET SHARE, 2010-2016
  • Table 26 : BASIC MICROELECTRONIC PRODUCTS THAT EMPLOY THE PVD PROCESS
  • Table 27 : CHARACTERISTICS OF INTEGRATED CIRCUITS
  • Table 28 : GLOBAL DEMAND FOR SEMICONDUCTORS THROUGH 2011
  • Table 29 : ECONOMIC ASSUMPTIONS FOR THE FUTURE GROWTH OF SEMICONDUCTORS AND PVD EQUIPMENT
  • Table 30 : THE PURPOSE OF THE SEMI ORGANIZATION
  • Table 31 : CHALLENGES FACING THE SIA
  • Table 32 : ESTIMATED GLOBAL FABRICATION CAPACITY, 2011
  • Table 33 : IMPACT OF MAJOR COMPETITIVE FACTORS ON THE GROWTH OF PVD IN THE MICROELECTRONICS INDUSTRY
  • Table 34 : BASIC SEMICONDUCTOR APPLICATIONS DONE BY PVD
  • Table 35 : DESIRED DIELECTRIC PROPERTIES FOR MICROELECTRONIC PRODUCTS
  • Table 36 : IMPACT ON PVD SYSTEMS BY CHANGES IN SEMICONDUCTOR APPLICATIONS
  • Table 37 : ADVANTAGES OF PVD IN SEMICONDUCTOR FABRICATION
  • Table 38 : KEY MATERIALS DEPOSITED BY PVD FOR SEMICONDUCTOR FABRICATION
  • Table 39 : PVD FUNCTIONS VERSUS OTHER TECHNOLOGIES IN SEMICONDUCTOR FABRICATION
  • Table 40 : GLOBAL GROWTH TREND OF PVD FOR SEMICONDUCTORS, THROUGH 2011
  • Table 41 : OVERVIEW OF OTHER MICROELECTRONICS PVD PRODUCTS AND APPLICATIONS
  • Table 42 : ADVANTAGES OF PVD FOR OTHER MICROELECTRONIC PRODUCTS
  • Table 43 : KEY MATERIALS USED IN OTHER MICROELECTRONIC PRODUCTS
  • Table 44 : FORECAST ASSUMPTIONS - PVD GROWTH IN MICROELECTRONICS
  • Table 45 : PROJECTED GLOBAL GROWTH TREND OF PVD FOR SEMICONDUCTORS, THROUGH 2016
  • Table 46 : FORECAST - VALUE OF GLOBAL SHIPMENTS OF PVD EQUIPMENT FOR MICROELECTRONICS, THROUGH 2016
  • Table 47 : FORECAST--GLOBAL VALUE OF MATERIALS DEPOSITED BY PVD IN MICROELECTRONICS, THROUGH 2016
  • Table 48 : VALUE OF GLOBAL PVD DEPOSITION SERVICES FOR THE MICROELECTRONICS INDUSTRY, THROUGH 2016
  • Table 49 : COMMON DATA STORAGE PRODUCTS
  • Table 50 : ADVANCEMENTS IN DATA STORAGE
  • Table 51 : GLOBAL DEMAND FOR DATA STORAGE PRODUCTS THROUGH 2011
  • Table 52 : MISSION OF THE IDEMA
  • Table 53 : GLOBAL STORAGE MANUFACTURING COMPANIES BY REGION, 2009
  • Table 54 : REPRESENTATIVE STANDARDS TOPICS
  • Table 55 : IMPACT OF MAJOR FACTORS ON THE GROWTH OF PVD IN THE DATA STORAGE PRODUCTS MARKET, 2010
  • Table 56 : KEY STORAGE APPLICATIONS BY SUBSTRATE MATERIAL
  • Table 57 : HISTORY OF TAPE STORAGE PRODUCTS AND FUNCTION
  • Table 58 : MAJOR PLUSES OF PVD FOR STORAGE PRODUCTS
  • Table 59 : MAJOR MATERIALS DEPOSITED BY PVD FOR THE FABRICATION OF STORAGE DEVICES, 2010
  • Table 60 : GLOBAL GROWTH TREND OF PVD FOR THE DATA STORAGE INDUSTRY, THROUGH 2011
  • Table 61 : FORECAST ASSUMPTIONS - PVD GROWTH IN DATA STORAGE
  • Table 62 : PROJECTED GLOBAL GROWTH TREND OF PVD FOR DATA STORAGE, THROUGH 2016
  • Table 63 : FORECAST - VALUE OF GLOBAL PVD SHIPMENTS BY TYPE FOR THE STORAGE PRODUCTS INDUSTRY, THROUGH 2016
  • Table 64 : FORECAST - GLOBAL VALUE OF MATERIALS DEPOSITED BY PVD IN THE STORAGE INDUSTRY, THROUGH 2016
  • Table 65 : FORECAST - VALUE OF GLOBAL PVD SERVICES IN THE DATA STORAGE INDUSTRY, THROUGH 2016
  • Table 66 : GENERAL TYPES OF CUTTING TOOLS COATED BY PVD
  • Table 67 : GLOBAL DEMAND FOR CUTTING TOOLS, THROUGH 2016
  • Table 68 : GLOBAL CUTTING TOOL MARKET BY REGION, 2010-2016
  • Table 69 : IMPACT OF MAJOR FACTORS ON THE GROWTH OF PVD IN THE CUTTING TOOL INDUSTRY
  • Table 70 : BASIC CUTTING TOOL PVD APPLICATIONS
  • Table 71 : KEY MATERIALS DEPOSITED BY PVD FOR CUTTING TOOL APPLICATIONS
  • Table 72 : GLOBAL GROWTH TREND OF PVD FOR THE CUTTING TOOL INDUSTRY, THROUGH 2016
  • Table 73 : FORECAST ASSUMPTIONS FOR PVD GROWTH IN CUTTING TOOLS
  • Table 74 : PROJECTED GLOBAL GROWTH TREND OF PVD FOR THE CUTTING TOOL INDUSTRY, THROUGH 2016
  • Table 75 : FORECAST - VALUE OF GLOBAL PVD EQUIPMENT FOR THE CUTTING TOOL INDUSTRY, THROUGH 2016
  • Table 76 : FORECAST-GLOBAL VALUE OF MATERIALS DEPOSITED BY PVD FOR CUTTING TOOL APPLICATIONS, THROUGH 2016
  • Table 77 : FORECAST - VALUE OF PVD COATING SERVICES IN THE CUTTING TOOL INDUSTRY, THROUGH 2016
  • Table 78 : BASIC TYPES OF PHOTOVOLTAIC PRODUCTS
  • Table 79 : OVERVIEW OF SOLAR ENERGY STATUS, 2011
  • Table 80 : GLOBAL DEMAND FOR SOLAR CELLS, THROUGH 2011
  • Table 81 : MAJOR RESEARCH PROJECTS AT ENREL
  • Table 82 : WHY THE JAPANESE INVESTED IN PHOTOVOLTAICS
  • Table 83 : IMPACT OF MAJOR FACTORS IN THE GROWTH OF PVD IN THE SOLAR INDUSTRY
  • Table 84 : BASIC PVD SOLAR INDUSTRY APPLICATIONS
  • Table 85 : EMERGING PVD SOLAR APPLICATIONS
  • Table 86 : MAJOR ADVANTAGES OF PVD IN MAKING SOLAR CELLS
  • Table 87 : MAJOR MATERIALS FOR SOLAR APPLICATIONS
  • Table 88 : GROWTH TRENDS FOR PVD IN THE SOLAR INDUSTRY, THROUGH 2009
  • Table 89 : FORECAST ASSUMPTIONS FOR PVD GROWTH IN THE SOLAR INDUSTRY
  • Table 90 : PROJECTED GLOBAL GROWTH TRENDS FOR PVD IN THE SOLAR MARKET, THROUGH 2016
  • Table 91 : FORECAST - VALUE OF GLOBAL PVD SHIPMENTS FOR THE SOLAR INDUSTRY, THROUGH 2016
  • Table 92 : FORECAST - GLOBAL VALUE OF MATERIALS DEPOSITED BY PVD FOR THE SOLAR INDUSTRY, THROUGH 2016
  • Table 93 : FORECAST - VALUE OF GLOBAL PVD SERVICES IN THE SOLAR INDUSTRY, THROUGH 2016
  • Table 94 : BASIC TYPES OF OPTICAL PRODUCTS
  • Table 95 : ECONOMIC GROWTH FACTORS FOR THE OPTICS INDUSTRY
  • Table 96 : GLOBAL DEMAND FOR OPTICAL PRODUCTS THROUGH 2011
  • Table 97 : KEY TO SUCCESSFUL OPTICAL COATINGS
  • Table 98 : IMPACT OF MAJOR FACTORS IN PVD GROWTH IN THE OPTICS INDUSTRY
  • Table 99 : MOST COMMON OPTICS PVD APPLICATIONS
  • Table 100 : KEY MATERIALS USED FOR OPTICAL COATINGS
  • Table 101 : GLOBAL GROWTH TREND OF PVD FOR THE OPTICS INDUSTRY THROUGH 2016
  • Table 102 : FORECAST ASSUMPTIONS - PVD GROWTH IN THE OPTICS MARKET
  • Table 103 : PROJECTED GLOBAL GROWTH TREND OF PVD FOR THE OPTICS INDUSTRY, THROUGH 2016
  • Table 104 : FORECAST - VALUE OF GLOBAL PVD EQUIPMENT SHIPMENTS BY TYPE FOR THE OPTICS INDUSTRY, THROUGH 2016
  • Table 105 : FORECAST - GLOBAL VALUE OF MATERIALS DEPOSITED BY PVD IN THE OPTICS INDUSTRY, THROUGH 2016
  • Table 106 : FORECAST - VALUE OF GLOBAL PVD SERVICES IN THE OPTICS INDUSTRY, THROUGH 2016
  • Table 107 : BASIC TYPES OF MEDICAL DEVICES
  • Table 108 : GLOBAL PRODUCTION OF MEDICAL EQUIPMENT AND SUPPLIES BY REGION, 2010-2016
  • Table 109 : GLOBAL DEMAND FOR MEDICAL PRODUCTS THROUGH 2010
  • Table 110 : IMPACT OF MAJOR FACTORS ON THE GROWTH OF PVD IN THE MEDICAL EQUIPMENT INDUSTRY
  • Table 111 : OVERVIEW OF MEDICAL EQUIPMENT APPLICATIONS
  • Table 112 : MAJOR THIN FILM MATERIALS USED TO MANUFACTURE MEDICAL DEVICES AND EQUIPMENT
  • Table 113 : GLOBAL GROWTH TRENDS OF PVD AND THE MEDICAL EQUIPMENT INDUSTRY, THROUGH 2011
  • Table 114 : FORECAST ASSUMPTIONS FOR PVD GROWTH IN THE MEDICAL EQUIPMENT MARKET
  • Table 115 : PROJECTED GLOBAL GROWTH TREND OF PVD FOR THE MEDICAL EQUIPMENT MARKET, THROUGH 2016
  • Table 116 : FORECAST - GLOBAL VALUE OF PVD EQUIPMENT SHIPMENTS FOR THE MEDICAL EQUIPMENT INDUSTRY, THROUGH 2016
  • Table 117 : FORECAST - GLOBAL VALUE OF MATERIALS DEPOSITED BY PVD IN THE MEDICAL EQUIPMENT MARKET, THROUGH 2016
  • Table 118 : FORECAST - VALUE OF WORLDWIDE PVD SERVICES IN THE MEDICAL EQUIPMENT MARKET, THROUGH 2016
  • Table 119 : REPRESENTATIVE PRODUCTS USING FLEXIBLE PACKAGING
  • Table 120 : GLOBAL DEMAND FOR FLEXIBLE PACKAGING, THROUGH 2011
  • Table 121 : POSITIVE FACTORS FOR INTERNATIONAL FLEXIBLE PACKAGING
  • Table 122 : IMPACT OF MAJOR GROWTH FACTORS ON PVD FOR FLEXIBLE PACKAGING
  • Table 123 : KEY ADVANTAGES OF GLASS COATINGS
  • Table 124 : OVERVIEW OF FLEXIBLE PACKAGING APPLICATIONS
  • Table 125 : ADVANTAGES OF PVD IN FLEXIBLE PACKAGING
  • Table 126 : KEY MATERIALS DEPOSITED BY PVD IN FLEXIBLE PACKAGING
  • Table 127 : GLOBAL GROWTH TREND OF PVD FOR THE FLEXIBLE PACKAGING INDUSTRY, THROUGH 2011
  • Table 128 : FORECAST ASSUMPTIONS FOR PVD GROWTH IN THE FLEXIBLE PACKAGING MARKET
  • Table 129 : PROJECTED GLOBAL GROWTH TREND OF PVD FOR THE SPECIALTY PACKAGING MARKET, THROUGH 2016
  • Table 130 : GLOBAL SHIPMENTS OF PVD EQUIPMENT BY TYPE FOR FLEXIBLE PACKAGING, THROUGH 2016
  • Table 131 : FORECAST - GLOBAL VALUE OF MATERIALS DEPOSITED BY PVD IN THE FLEXIBLE PACKAGING INDUSTRY, THROUGH 2016
  • Table 132 : FORECAST - VALUE OF WORLDWIDE PVD SERVICES IN THE FLEXIBLE PACKAGING INDUSTRY, THROUGH 2016
  • Table 133 : BASIC TYPES OF INDUSTRIAL PRODUCTS
  • Table 134 : GLOBAL AUTO PRODUCTION, THROUGH 2011
  • Table 135 : POSITIVE SIGNS FOR THE AUTO INDUSTRY'S FUTURE
  • Table 136 : U.S. AEROSPACE SALES, THROUGH 2011
  • Table 137 : IMPACT OF MAJOR FACTORS ON PVD GROWTH IN THE INDUSTRIAL MARKET
  • Table 138 : OVERVIEW OF CURRENT AND EMERGING INDUSTRIAL PVD APPLICATIONS
  • Table 139 : ADVANTAGES OF PVD INDUSTRIAL COATINGS
  • Table 140 : KEY MATERIALS DEPOSITED BY PVD FOR INDUSTRIAL APPLICATIONS
  • Table 141 : GLOBAL GROWTH TREND OF PVD FOR THE INDUSTRIAL MARKET, THROUGH 2011
  • Table 142 : FORECAST ASSUMPTIONS - PVD GROWTH IN THE INDUSTRIAL MARKET
  • Table 143 : PROJECTED GLOBAL GROWTH TREND OF PVD IN THE INDUSTRIAL MARKET, THROUGH 2016
  • Table 144 : FORECAST - VALUE OF GLOBAL PVD SYSTEMS FOR USE IN THE INDUSTRIAL MARKET, THROUGH 2016
  • Table 145 : FORECAST - GLOBAL VALUE OF MATERIALS DEPOSITED BY PVD IN THE INDUSTRIAL MARKET, THROUGH 2016
  • Table 146 : FORECAST - VALUE OF GLOBAL PVD SERVICES IN THE INDUSTRIAL MARKET, THROUGH 2016

List of Figures

  • Summary Figure : GLOBAL VALUE OF THE PVD INDUSTRY, 2010-2016
  • Figure 1 : GLOBAL PVD MANUFACTURING BY REGION 2010-2016
  • Figure 2 : GLOBAL PVD CONSUMPTION BY REGION 2010-2016
  • Figure 3 : ESTIMATED GLOBAL PVD EQUIPMENT MARKET SHARE, 2010-2016
  • Figure 4 : GLOBAL SHIPMENTS OF PVD EQUIPMENT FOR THE MICROELECTRONICS INDUSTRY, 2010-2016
  • Figure 5 : GLOBAL VALUE OF MATERIALS DEPOSITED BY PVD IN MICROELECTRONICS, 2010-2016
  • Figure 6 : GLOBAL VALUE OF PVD EQUIPMENT SHIPMENTS FOR THE DATA STORAGE INDUSTRY, 2010-2016
  • Figure 7 : GLOBAL SHIPMENTS OF MATERIALS FOR PVD IN THE STORAGE INDUSTRY, 2010-2016
  • Figure 8 : GLOBAL VALUE OF PVD SHIPMENTS FOR THE CUTTING TOOL INDUSTRY, 2010-2016
  • Figure 9 : GLOBAL VALUE OF MATERIALS DEPOSITED BY PVD FOR THE CUTTING TOOL INDUSTRY, 2010-2016
  • Figure 10 : GLOBAL SHIPMENTS OF PVD EQUIPMENT FOR USE IN THE SOLAR INDUSTRY, 2010-2016
  • Figure 11 : GLOBAL VALUE OF PVD SHIPMENTS FOR THE SOLAR INDUSTRY, 2010-2016
  • Figure 12 : GLOBAL VALUE OF PVD SHIPMENTS FOR THE OPTICAL INDUSTRY, 2010-2016
  • Figure 13 : GLOBAL VALUE OF MATERIALS DEPOSITED BY PVD IN THE OPTICS INDUSTRY, 2010-2016
  • Figure 14 : GLOBAL VALUE OF PVD EQUIPMENT SHIPMENTS FOR THE MEDICAL EQUIPMENT MARKET, 2010-2016
  • Figure 15 : GLOBAL VALUE OF PVD SHIPMENTS FOR THE MEDICAL EQUIPMENT MARKET, 2010-2016
  • Figure 16 : GLOBAL VALUE OF PVD EQUIPMENT SHIPMENTS FOR THE FLEXIBLE PACKAGING MARKET, 2010-2016
  • Figure 17 : GLOBAL VALUE OF MATERIALS DEPOSITED BY PVD IN THE FLEXIBLE PACKAGING INDUSTRY, 2010-2016
  • Figure 18 : GLOBAL VALUE OF PVD MATERIALS DEPOSITED BY PVD 2010-2016
  • Figure 19 : GLOBAL VALUE OF MATERIALS DEPOSITED BY PVD FOR THE INDUSTRIAL MARKET, 2010-2016
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