表紙
市場調査レポート

レーザー加工技術の世界市場:技術(CO2、Nd:YAG、ファイバー)、工程(彫刻、マーキング、切断、掘削)、基材(金属、ポリマー)、用途(エレクトロニクス、機械部品マーキング、医療、標識)および地域別分析

Laser Cutting, Drilling, Marking and Engraving Market by Technology (Co2 Laser, Excimer Laser, ND: YAG Laser, Fiber Laser); Base Material (Metals, Polymers); Application (Electronics, Machine Part Marking, Medical, Signage) & Geography- (2013 - 2018)

発行 MarketsandMarkets 商品コード 269867
出版日 ページ情報 英文 240 Pages
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レーザー加工技術の世界市場:技術(CO2、Nd:YAG、ファイバー)、工程(彫刻、マーキング、切断、掘削)、基材(金属、ポリマー)、用途(エレクトロニクス、機械部品マーキング、医療、標識)および地域別分析 Laser Cutting, Drilling, Marking and Engraving Market by Technology (Co2 Laser, Excimer Laser, ND: YAG Laser, Fiber Laser); Base Material (Metals, Polymers); Application (Electronics, Machine Part Marking, Medical, Signage) & Geography- (2013 - 2018)
出版日: 2013年05月01日 ページ情報: 英文 240 Pages
概要

当レポートでは、いくつか存在するレーザー利用法の中から、産業用素材加工技術の世界市場に注目し、将来の市場予測を示すほか、その動態を形成する推進・抑制要因、機会、緊急課題、成功への必須条件を探りながら、事業および技術開発の動向、競合環境などを世界規模で分析する最新情報を集め、概略以下の構成でお届けします。

第1章 イントロダクション

  • 重要所見
  • レポート説明
  • 調査対象市場
  • 推奨利用層
  • レポートの前提
  • 調査方法
    • 推定市場規模
    • 市場分析・データ三角測量
    • 二次情報源から得られたデータの主要ポイント
    • 一次情報源から得られたデータの主要ポイント
    • 取材対象とした主要企業および機関一覧

第2章 エグゼクティブサマリー

第3章 カバーストーリー

第4章 市場概要

  • イントロダクション
  • 市場の定義と範囲
  • 市場セグメンテーション
  • レーザー加工市場の歴史と進化
  • 技術および用途トレンド
  • レーザー素材加工の優位点
  • 産業安全性ファクター
  • 市場動態
  • 緊急課題
  • 成功の必須条件
  • Porterのファイブフォース分析

第5章 技術によるセグメンテーション

  • イントロダクション
  • レーザー発生源とレーザー装置市場比較
  • ガスレーザー
  • ソリッドステートレーザー
  • ファイバーレーザー
  • 半導体レーザー

第6章 工程によるセグメンテーション

  • イントロダクション
  • 切断と掘削
  • マーキングと彫刻
  • マイクロ加工
  • 先端加工技術

第7章 機器構成によるセグメンテーション

  • イントロダクション
  • レーザー切断用機器構成
  • レーザー彫刻用機器構成

第8章 産業別セグメンテーション

  • イントロダクション
  • 航空宇宙
  • 自動車
  • 商業用
  • 家庭用電子製品
  • 工作機械全般
  • 半導体・エレクトロニクス

第9章 地域によるセグメンテーション

  • イントロダクション
  • 北米
  • 欧州
  • アジア太平洋州
  • その他の地域

第10章 競合環境

  • 概要
  • 市場シェア分析
  • 主要な成長戦略
  • 競合状況およびトレンド

第11章 企業プロフィール(概要、財務、製品・サービス、財務、戦略、事業展開)

図表一覧

目次
Product Code: SE 1816

Since its advent in 1957, the early adopters of laser (light amplification by simulated emission of radiation) technology were applications such as; ranging, targeting, spectroscopy, and microscopy. The purpose of these applications was either the exploration/measurement of distances or the scientific/laboratory experiments. None of the above mentioned application promoted laser technology on the commercial front such as laser processing. However, with the technological developments, lasers became compact, robust, and versatile. Such developments triggered the industrial and commercial applications such as; micro-machining, modeling, precise sculpting, shaping & sizing objects and materials, and contactless imprinting which now are collectively referred to as laser processing applications.

The revenue generated from laser processing applications is supported by five critical pillars - laboratory equipments, defense & military, compact disc read/write heads, communications, and material processing. The research study, Laser Processing Market (2013 - 2018) analyses the vital material processing segment. The analysis is complemented by qualitative as well as quantitative data; latter being further divided into sales value, sale volume, and average selling price (ASP) data sets. Each of the data set contains historical, estimated, and forecasted values. The total market is segmented according to the technology, techniques, machine configuration, vertical, and geography.

Segmentation is done considering the supply side as well as the demand side market parameters. Segments such as technology, techniques, and machine configuration define the supply side market, whereas, vertical, application, and geography segments define the demand side market. The technology segmentation divides the market according to the various laser technologies such as CO2 laser, solid state lasers, fiber lasers, and excimer lasers. On the other hand, the machine configuration segment describes how the above mentioned lasers are used. Three types of configurations; moving material, flying optics, and hybrid, along with the mode of operation are covered in the report. Depending on the material type, lasers can be used in continuous mode or in a pulsed mode. The laser market data covered for various technology segments is mutually exclusive.

The major supply side segment is the technique which includes laser cutting, laser drilling, laser engraving, and laser marking. These four types of techniques have replaced the tradition mechanical processing techniques on a large scale. Depending on the application, base material type, and laser type, one can select a suitable laser processing technique. Though, techniques are different, the application market for each type wont be mutually exclusive since multiple techniques may be applied to same the product/application. The chapter also includes the level-2 segmentation of the techniques, giving descriptive data sets for various types of drilling (single pulse, percussion, trepanning, helical), cutting (fusion, flame, sublimation), and marking (masking, carbon migration, bonding).

Amongst the demand side segments, application segment is of the prime importance. The report discusses various applications with their respective impacts on the total market, cannibalization factor, year-on-year growth trend, and TAM/SAM data. Laser processing applications are also divided according to the processing techniques employed, allowing the reader to analyze each of the micro-markets individually. For example, the report differentiates between the automotive application market for laser drilling and automotive application market for laser cutting. Apart from the automotive segments, other major verticals considered for the analysis are aerospace, architecture, commercial, consumer electronics, and semiconductor & electronics.

The report also segments the market by various economic pockets such as; North America, Europe, APAC, and ROW. Further, major countries contributing to the market are analyzed with detailed representation of value and volume data. Apart from the quantitative data, the report also includes qualitative data analysis by the use of various tools and models. Porters five force analysis, value chain analysis, price trend analysis, market dynamics, burning issues, and winning imperatives are few of the analysis models used.

Competitive landscape, along with the recent developments in laser processing market is also discussed in the report. The major companies covered in the report are; Epilog Laser (U.S.), Universal Laser Systems (U.S.), Trotec Laser, Inc (U.S.), Needham-laser (U.K.), SEI Laser (Italy), Eurolaser (Germany), LaserStar (U.S.), and Xenetech Global, Inc (U.S.).

Table of Contents

1. INTRODUCTION

  • 1.1. KEY TAKE-AWAYS
  • 1.2. REPORT DESCRIPTION
  • 1.3. MARKETS COVERED
  • 1.4. STAKEHOLDERS
  • 1.5. REPORT ASSUMPTIONS
  • 1.6. RESEARCH METHODOLOGY
    • 1.6.1. MARKET SIZE ESTIMATION
    • 1.6.2. MARKET CRACKDOWN AND DATA TRIANGULATION
    • 1.6.3. KEY DATA POINTS TAKEN FROM SECONDARY SOURCES
    • 1.6.4. KEY DATA POINTS TAKEN FROM PRIMARY SOURCES
    • 1.6.5. LIST OF MAJOR COMPANIES AND ORGANIZATIONS COVERED IN PRIMARY RESEARCH

2. EXECUTIVE SUMMARY

3. COVER STORY

  • DAVID A. BELFORTE, EDITOR-IN-CHIEF, INDUSTRIAL LASER SOLUTIONS

4. MARKET OVERVIEW

  • 4.1. INTRODUCTION
  • 4.2. MARKET DEFINITION ANDSCOPE
  • 4.3. MARKET SEGMENTATION
  • 4.4. HISTORY AND EVOLUTION OF LASER PROCESSING MARKET
  • 4.5. TECHNOLOGY AND APPLICATION TRENDS
  • 4.6. ADVANTAGES OF LASER MATERIAL PROCESSING
  • 4.7. THE INDUSTRIAL SAFETY FACTORS
    • 4.7.1. MAXIMUM PERMISSIBLE EXPOSURE (MPE) LEVELS
    • 4.7.2. CLASSIFICATION
      • 4.7.2.1. By IEC standard
      • 4.7.2.2. By ANSI standard
  • 4.8. MARKET DYNAMICS
    • 4.8.1. DRIVERS
      • 4.8.1.1. Government regulations for compulsory use of laser marking
      • 4.8.1.2. Outclassing every other substitute tools
      • 4.8.1.3. Demand for the aesthetics
      • 4.8.1.4. Emerging application in oil and gas exploration field
      • 4.8.1.5. The introduction of direct diode lasers
    • 4.8.2. RESTRAINTS
      • 4.8.2.1. High initial investment and high maintenance cost
      • 4.8.2.2. Eurozone crises
      • 4.8.2.3. Rare earth elements mining: environmental concerns
    • 4.8.3. OPPORTUNITIES
      • 4.8.3.1. High adoption of Disk Lasers
      • 4.8.3.2. Automotive lights
      • 4.8.3.3. Other emerging applications and processes
  • 4.9. BURNING ISSUES
    • 4.9.1. TECHNICAL CHALLENGES WITH HIGH POWER LASERS
    • 4.9.2. SAFETY ISSUES WITH LASERS
  • 4.10. WINNING IMPERATIVES
    • 4.10.1. PRODUCT INNOVATION IS THE KEY
    • 4.10.2. VERTICAL CONSOLIDATION
    • 4.10.3. LASER DOPING OF SOLAR CELLS (LASSOL): TECHNOLOGY FOR SOLAR CELLS
  • 4.11. PORTER'S FIVE FORCES MODEL
    • 4.11.1. THREAT FROM NEW ENTRANTS
    • 4.11.2. THREAT FROM SUBSTITUTES
    • 4.11.3. BARGAINING POWER OF SUPPLIERS
    • 4.11.4. BARGAINING POWER OF BUYERS
    • 4.11.5. DEGREE OF COMPETITION
  • 4.12. VALUE CHAIN
  • 4.13. PRICE TREND ANALYSIS

5. SEGMENTATION BY TECHNOLOGY

  • 5.1. INTRODUCTION
  • 5.2. LASERS SOURCE AND LASER SYSTEM MARKET COMPARISON
  • 5.3. GAS LASERS
    • 5.3.1. CO2 LASERS
    • 5.3.2. EXCIMER LASERS
  • 5.4. SOLID STATE LASERS
    • 5.4.1. ND:YAG LASER
    • 5.4.2. ER: YAG LASER
  • 5.5. FIBER LASERS
  • 5.6. SEMICONDUCTOR LASERS

6. SEGMENTATION BY PROCESS

  • 6.1. INTRODUCTION
  • 6.2. CUTTING AND DRILLING
    • 6.2.1. CUTTING
      • 6.2.1.1. Fusion Cutting
      • 6.2.1.2. Flame Cutting
      • 6.2.1.3. Sublimation Cutting
    • 6.2.2. DRILLING
      • 6.2.2.1. Single Pulse Drilling
      • 6.2.2.2. Percussion Drilling
      • 6.2.2.3. Trepanning Drilling
      • 6.2.2.4. Helical Drilling
  • 6.3. MARKING AND ENGRAVING
    • 6.3.1. DIRECT LASER ENGRAVING
    • 6.3.2. DIRECT PHOTOPOLYMER LASER IMAGING
    • 6.3.3. SUB SURFACE LASER ENGRAVING
  • 6.4. MICRO-PROCESSING
  • 6.5. ADVANCED PROCESSING

7. SEGMENTATION BY MACHINE CONFIGURATION

  • 7.1. INTRODUCTION
  • 7.2. TYPES OF CONFIGURATION FOR LASER CUTTING
    • 7.2.1. MOVING MATERIAL LASER CONFIGURATION
    • 7.2.2. FLYING OPTICS SYSTEMS LASER CONFIGURATION
    • 7.2.3. HYBRID LASER CONFIGURATION
  • 7.3. TYPES OF CONFIGURATION FOR LASER ENGRAVING
    • 7.3.1. X-Y SURFACE BASED
    • 7.3.2. CYLINDRICAL WORK PIECES
    • 7.3.3. STATIONED LASER MACHINE

8. SEGMENTATION BY VERTICAL

  • 8.1. INTRODUCTION
  • 8.2. AEROSPACE
  • 8.3. ARCHITECTURE
    • 8.3.1. ARCHITECTURE VERTICAL SEGMENTATION BY PROCESS
  • 8.4. AUTOMOTIVE
    • 8.4.1. AUTOMOTIVE VERTICAL SEGMENTATION BY PROCESS
  • 8.5. COMMERCIAL
    • 8.5.1. COMMERCIAL VERTICAL SEGMENTATION BY PROCESS
    • 8.5.2. COMMERCIAL VERTICAL SEGMENTATION BY APPLICATION
  • 8.6. CONSUMER ELECTRONICS
    • 8.6.1. CONSUMER ELECTRONIC VERTICAL SEGMENTATION BY APPLICATION
  • 8.7. GENERAL MACHINE TOOLING
    • 8.7.1. GENERAL MACHINE TOOLING VERTICAL SEGMENTATION BY PROCESS
    • 8.7.2. GENERAL MACHINE TOOLING VERTICAL SEGMENTATION BY APPLICATION
  • 8.8. SEMICONDUCTOR & ELECTRONICS
    • 8.8.1. SEMICONDUCTOR & ELECTRONICS VERTICAL SEGMENTATION BY PROCESS
    • 8.8.2. SEMICONDUCTOR & ELECTRONICS VERTICAL SEGMENTATION BY APPLICATION

9. SEGMENTATION BY GEOGRAPHY

  • 9.1. INTRODUCTION
  • 9.2. NORTH AMERICA
  • 9.3. EUROPE
  • 9.4. APAC
  • 9.5. ROW

10. COMPETITIVE LANDSCAPE

  • 10.1. OVERVIEW
  • 10.2. MARKET SHARE ANALYSIS
  • 10.3. KEY GROWTH STRATEGIES
  • 10.4. COMPETITIVE SITUATION AND TRENDS
    • 10.4.1. NEW PRODUCT DEVELOPMENTS & ANNOUNCEMENTS
    • 10.4.2. AGREEMENTS, PARTNERSHIPS, JOINT VENTURES AND COLLABORATIONS
    • 10.4.3. MERGERS AND ACQUISITIONS

11. COMPANY PROFILES (Overview, Products and Services, Financials, Strategy & Development)*

  • 11.1. ALLTEC GMBH
  • 11.2. ALPHA NOV LASER
  • 11.3. BYSTRONIC, INC.
  • 11.4. COHERENT, INC.
  • 11.5. DPSS LASER, INC.
  • 11.6. EPILOG LASER, INC.
  • 11.7. EUROLASER GMBH
  • 11.8. IPG PHOTONICS CORPORATION
  • 11.9. JENOPTIK LASER GMBH
  • 11.10. LASERSTAR TECHNOLOGIES CORPORATION
  • 11.11. NEEDHAM LASER LTD.
  • 11.12. NEWPORT CORPORATION
  • 11.13. PRIMA INDUSTRIE S.P.A.
  • 11.14. Q-PEAK, INC.
  • 11.15. ROFIN-SINAR TECHNOLOGIES, INC.
  • 11.16. SEI LASER S.P.A
  • 11.17. TROTEC LASER, INC.
  • 11.18. TRUMPF LASER GMBH + CO. KG
  • 11.19. UNIVERSAL LASER SYSTEMS, INC.
  • 11.20. XENETECH GLOBAL, INC.

*Details on Overview, Products and Services, Financials, Strategy & Development might not be captured in case of unlisted companies.

LIST OF TABLES

  • TABLE 1: GENERAL ASSUMPTIONS, TERMINOLOGY AND APPLICATION KEY NOTES
  • TABLE 2: GLOBAL LASER PROCESSING MARKET, 2012 - 2018 ($MILLION)
  • TABLE 3: COMAPRISON OF PROCESSES BY, VERTICALS, 2012
  • TABLE 4: LASER PROCESSING VS MECHANICAL PROCESSING, 2013
  • TABLE 5: AVERAGE SELLING PRICE OF LASERS, BY TECHNOLOGY, 2012 ($)
  • TABLE 6: PUMP SOURCE KEY MANUFACTURERS AND SUPPLIERS, 2013
  • TABLE 7: LASER CAVITY KEY MANUFACTURERS AND SUPPLIERS, 2013
  • TABLE 8: LASER ELECTRONIC COMPONENT KEY MANUFACTURERS AND SUPPLIERS, 2013
  • TABLE 9: LASER OPTICS KEY MANUFACTURERS AND SUPPLIERS, 2013
  • TABLE 10: LASER ELECTRONIC SHUTTER KEY MANUFACTURERS AND SUPPLIERS, 2013
  • TABLE 11: PRICE ANALYSIS OF LASERS, BY TECHNOLOGY, 2012 - 2018 ($/WATT)
  • TABLE 12: GLOBAL LASER PROCESSING SYSTEMS MARKET REVENUE, BY TECHNOLOGY, 2012 - 2018 ($BILLION)
  • TABLE 13: GLOBAL LASER PROCESSING MARKET REVENUE, BY TECHNOLOGY, 2012 - 2018 ($MILLION)
  • TABLE 14: GLOBAL LASER PROCESSING MARKET REVENUE, BY GAIN MEDIUM, 2012 -2018 ($MILLION)
  • TABLE 15: ADVANTAGES OF CO2 LASERS
  • TABLE 16: DIFFERENCE BETWEEN CO2 LASER AND FIBER LASER
  • TABLE 17: GLOBAL CO2 LASER PROCESSING MARKET REVENUE, 2012 - 2018
  • TABLE 18: GLOBAL CO2 LASER MARKET SHARE, BY PROCESS, 2012 - 2018 ($MILLION)
  • TABLE 19: TYPES OF EXCIMER LASERS
  • TABLE 20: GLOBAL EXCIMER LASER PROCESSING MARKET REVENUE, 2012 - 2018 ($MILLION)
  • TABLE 21: GLOBAL EXCIMER LASER PROCESSING MARKET SHARE, BY PROCESS, 2012 - 2018 ($MILLION)
  • TABLE 22: GLOBAL SOLID STATE LASER PROCESSING MARKET REVENUE, 2012 - 2018 ($ MILLION)
  • TABLE 23: GLOBAL SOLID STATE LASER PROCESSING MARKET SHARE, BY APPLICATIONS, 2012 - 2018 ($MILLION)
  • TABLE 24: ADVANTAGES OF FIBER LASER
  • TABLE 25: GLOBAL FIBER LASER PROCESSING MARKET REVENUE, 2012 - 2018 ($MILLION)
  • TABLE 26: GLOBAL FIBER LASER PROCESSING MARKET SHARE, BY APPLICATIONS, 2012 - 2018 ($MILLION)
  • TABLE 27: GLOBAL SEMICONDUCTOR LASER PROCESSING MARKET REVENUE, 2012 - 2018 ($MILLION)
  • TABLE 28: GLOBAL SEMICONDUCTOR LASER PROCESSING MARKET SHARE, BY APPLICATIONS, 2012 - 2018, ($MILLION)
  • TABLE 29: GLOBAL LASER PROCESSING MARKET, BY APPLICATIONS, 2012 - 2018 ($MILLION)
  • TABLE 30: GLOBAL CUTTING AND DRILLING PROCESS MARKET, BY TECHNOLOGY, 2012 - 2018 ($MILLION)
  • TABLE 31: TYPES OF LASER AND THEIR APPLICATIONS
  • TABLE 32: GLOBAL LASER CUTTING PROCESS MARKET, BY VERTICAL, 2012 - 2018 ($MILLION)
  • TABLE 33: GLOBAL LASER CUTTING MARKET, BY APPLICATION, 2012 - 2018 (%)
  • TABLE 34: GLOBAL LASER DRILLING PROCESS MARKET, BY VERTICAL, 2012 - 2018 ($MILLION)
  • TABLE 35: GLOBAL LASER DRILLING MARKET, BY APPLICATION, 2012 - 2018 (%)
  • TABLE 36: GLOBAL MARKING AND ENGRAVING PROCESS MARKET, BY TECHNOLOGY, 2012 - 2018 ($MILLION)
  • TABLE 37: GLOBAL LASER MARKING & ENGRAVING MARKET, BY APPLICATION, 2012 - 2018 (%)
  • TABLE 38: GLOBAL LASER MARKING AND ENGRAVING PROCESS MARKET, BY VERTICAL, 2012 - 2018 ($MILLION)
  • TABLE 39: GLOBAL MICRO-PROCESSING MARKET REVENUE, BY TECHNOLOGY, 2012 - 2018 ($MILLION)
  • TABLE 40: GLOBAL LASER MICRO-PROCESSING MARKET, BY VERTICAL, 2012 - 2018 ($MILLION)
  • TABLE 41: GLOBAL LASER MICRO-PROCESSING MARKET, BY APPLICATION, 2012 - 2018 (%)
  • TABLE 42: GLOBAL ADVANCED PROCESSING MARKET, BY TECHNOLOGY, 2012 - 2018 ($MILLION)
  • TABLE 43: GLOBAL LASER ADVANCED PROCESSING MARKET, BY VERTICAL, 2012 - 2018 ($MILLION)
  • TABLE 44: COMPARISON OF DIFFERENT LASER CUTTING CONFIGURATIONS
  • TABLE 45: GLOBAL LASER PROCESSING MARKET, BY MACHINE CONFIGURATION, 2012 - 2018 ($MILLION)
  • TABLE 46: GLOBAL LASER PROCESSING MARKET REVENUE, 2012 - 2018 ($MILLION)
  • TABLE 47: GLOBAL LASER PROCESSING MARKET REVENUE, BY VERTICALS, 2012 - 2018 ($MILLION)
  • TABLE 48: GLOBAL LASER PROCESSING MARKET REVENUE, BY AEROSPACE, 2012 - 2018 ($MILLION)
  • TABLE 49: GLOBAL LASER PROCESSING MARKET REVENUE, BY ARCHITECTURE, 2012 - 2018 ($MILLION)
  • TABLE 50: GLOBAL ARCHITECTURE LASER PROCESSING MARKET REVENUE, BY PROCESS, 2012 - 2018, ($MILLION)
  • TABLE 51: GLOBAL LASER PROCESSING MARKET REVENUE, BY AUTOMOTIVE, 2012 - 2018 ($MILLION)
  • TABLE 52: GLOBAL AUTOMOTIVE LASER PROCESSING MARKET REVENUE, BY PROCESS, 2012 - 2018 ($MILLION)
  • TABLE 53: GLOBAL LASER PROCESSING MARKET REVENUE, BY COMMERCIAL, 2012 - 2018 ($MILLION)
  • TABLE 54: GLOBAL COMMERCIAL LASER PROCESSING MARKET REVENUE, BY PROCESS, 2012 - 2018 ($MILLION)
  • TABLE 55: GLOBAL COMMERCIAL LASER PROCESSING MARKET REVENUE, BY APPLICATIONS, 2012 - 2018 ($MILLION)
  • TABLE 56: GLOBAL LASER PROCESSING MARKET REVENUE, BY CONSUMER ELECTRONICS, 2012 - 2018 ($MILLION)
  • TABLE 57: GLOBAL CONSUMER ELECTRONICS LASER PROCESSING MARKET REVENUE, BY PROCESS, 2012 - 2018 ($MILLION)
  • TABLE 58: GLOBAL LASER PROCESSING MARKET REVENUE, BY GENERAL MACHINE TOOLING, 2012 - 2018 ($MILLION)
  • TABLE 59: GLOBAL GENERAL MACHINE TOOLING LASER PROCESSING MARKET REVENUE, BY PROCESS, 2012 - 2018 ($MILLION)
  • TABLE 60: GLOBAL GENERAL MACHINE TOOLING LASER PROCESSING MARKET REVENUE, BY APPLICATION, 2012 - 2018 ($MILLION)
  • TABLE 61: GLOBAL LASER PROCESSING MARKET REVENUE, BY SEMICONDUCTOR & ELECTRONICS, 2012 - 2018 ($MILLION)
  • TABLE 62: GLOBAL SEMICONDUCTOR & ELECTRONICS LASER PROCESSING MARKET REVENUE, BY PROCESS, 2012 - 2018 ($MILLION)
  • TABLE 63: GLOBAL SEMICONDUCTOR & ELECTRONICS LASER PROCESSING MARKET VERTICAL REVENUE, BY APPLICATIONS, 2012 - 2018 ($MILLION)
  • TABLE 64: GLOBAL LASER PROCESSING MARKET REVENUE, 2012 - 2018 ($MILLION)
  • TABLE 65: NORTH AMERICA: LASER PROCESSING MARKET, BY PROCESS, 2012 - 2018 (%)
  • TABLE 66: EUROPE: LASER PROCESSING MARKET, BY PROCESS, 2012 - 2018 (%)
  • TABLE 67: APAC: LASER PROCESSING MARKET, BY PROCESS, 2012 - 2018 (%)
  • TABLE 68: APAC LASER PROCESSING MARKET SEGMENTATION, BY COUNTRY, 2012 - 2018 ($MILLION)
  • TABLE 69: ROW: LASER PROCESSING MARKET, BY PROCESS, 2012 - 2018 (%)
  • TABLE 70: LASER PROCESSING MARKET: MARKET SHARE ANALYSIS, 2012
  • TABLE 71: NEW PRODUCT LAUNCH/DEVELOPMENT, 2010 - 2013
  • TABLE 72: AGREEMENTS, PARTNERSHIPS, JOINT VENTURES & COLLABORATIONS, 2010 - 2012
  • TABLE 73: MERGERS & ACQUISITIONS, 2010 - 2012
  • TABLE 74: COHERENT: OVERALL REVENUE, 2011 - 2012 ($MILLION)
  • TABLE 75: COHERENT: MARKET REVENUE, BY SEGMENTS, 2011 - 2012 ($MILLION)
  • TABLE 76: COHERENT: MARKET REVENUE, BY GEOGRAPHY, 2011 - 2012 ($MILLION)
  • TABLE 77: EUROLASER: OVERALL REVENUE, 2011 - 2012 ($MILLION)
  • TABLE 78: IPG PHOTONICS: OVERALL REVENUE, 2011 - 2012 ($MILLION)
  • TABLE 79: IPG PHOTONICS: MARKET REVENUE, BY SEGMENTS, 2011 - 2012 ($MILLION)
  • TABLE 80: IPG PHOTONICS: MARKET REVENUE, BY GEOGRAPHY, 2011 - 2012 ($MILLION)
  • TABLE 81: NEWPORT: OVERALL REVENUE, 2011 - 2012 ($MILLION)
  • TABLE 82: NEWPORT: MARKET REVENUE, BY SEGMENTS, 2011 - 2012 ($MILLION)
  • TABLE 83: NEWPORT: MARKET REVENUE, BY GEOGRAPHY, 2011 - 2012 ($MILLION)
  • TABLE 84: PRIMA INDUSTRIE S.P.A. OVERALL REVENUE, 2011 - 2012 ($MILLION)
  • TABLE 85: PRIMA INDUSTRIE S.P.A. MARKET REVENUE, BY SEGMENTS, 2011 - 2012 ($MILLION)
  • TABLE 86: PRIMA INDUSTRIE S.P.A. MARKET REVENUE, BY GEOGRAPHY, 2011 - 2012 ($MILLION)
  • TABLE 87: ROFIN-SINAR TECHNOLOGIES: OVERALL REVENUE, 2011 - 2012 ($MILLION)
  • TABLE 88: ROFIN-SINAR TECHNOLOGIES: MARKET REVENUE, BY SEGMENTS, 2011 - 2012 ($MILLION)
  • TABLE 89: ROFIN-SINAR TECHNOLOGIES: MARKET REVENUE, BY GEOGRAPHY, 2011 - 2012 ($MILLION)
  • TABLE 90: SEI LASER: OVERALL REVENUE, 2010-2011 ($MILLION)

LIST OF FIGURES

  • FIGURE 1: MARKETS COVERED FOR ANALYSIS
  • FIGURE 2: MARKET RESEARCH METHODOLOGY
  • FIGURE 3: MARKET CRACKDOWN AND DATA TRIANGULATION
  • FIGURE 4: LASER OPERATING MODES
  • FIGURE 5: ELEMENTS OF LASER
  • FIGURE 6: TYPES OF LASER
  • FIGURE 7: LASER PROCESSING MARKET SEGMENTATION BY SUPPLIERS SIDE
  • FIGURE 8: LASER PROCESSING MARKET SEGMENTATION BY DEMAND SIDE
  • FIGURE 9: INVENTION OF MAJOR LASER PROCESSING TECHNOLOGIES
  • FIGURE 10: EVOLUTION OF LASER TECHNOLOGY
  • FIGURE 11: REVISED SYSTEM AS PER IEC STANDARD
  • FIGURE 12: LASER SYSTEM AS PER ANSI (U.S.) STANDARD
  • FIGURE 13: PORTER'S FIVE FOR ANALYSIS OF LASER PROCESSING MARKET, 2012
  • FIGURE 14: LASER PROCESSING MARKET: THREATS FROM NEW ENTRANTS, 2012
  • FIGURE 15: LASER PROCESSING MARKET: THREATS FROM SUBSTITUTES, 2012
  • FIGURE 16: LASER PROCESSING MARKET: BARGAINING POWER OF SUPPLIERS, 2012
  • FIGURE 17: LASER PROCESSING MARKET: BARGAINING POWER OF BUYERS, 2012
  • FIGURE 18: LASER PROCESSING MARKET: DEGREE OF COMPETITION, 2012
  • FIGURE 19: VALUE CHAIN OF LASER SYSTEMS, 2013
  • FIGURE 20: LASER SOURCE REVENUE AND LASER SYSTEM REVENUE COMPARISON, 2012
  • FIGURE 21: CARBON DIOXIDE (CO2) LASER SETUP
  • FIGURE 22: SOLID STATE LASER SETUP
  • FIGURE 23: FIBER LASER SETUP
  • FIGURE 24: FIBER BRAGG GRATINGS (FBG)
  • FIGURE 25: TYPES OF LASER CUTTING
  • FIGURE 26: TYPES OF LASER DRILLING
  • FIGURE 27: FACTORS DETERMINING LASER MACHINE
  • FIGURE 28: KEY GROWTH STRATEGIES
  • FIGURE 29: DPSS LASERS: PRODUCT LINE
  • FIGURE 30: DPSS LASERS: APPLICATIONS
  • FIGURE 31: LASER PROCESS: EPILOG LASER PRODUCT LINE
  • FIGURE 32: ROFIN-SINAR TECHNOLOGIES: BUSINESS SEGMENT
  • FIGURE 33: TRUMPF LASER: PRODUCT LINE
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