1. Market Research
  2. > Manufacturing Market Trends
  3. > 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)

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 laser processing market is segmented according to the technology, laser processing 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, laser processing 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 laser processing technique which includes laser cutting, laser drilling, laser engraving, and laser marking. These four types of laser processing 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 laser processing techniques may be applied to same the product/application. The chapter also includes the level-2 segmentation of laser processing 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 laser processing 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

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) and Geography- (2013 - 2018)
1 INTRODUCTION 18
1.1 KEY TAKE-AWAYS 18
1.2 REPORT DESCRIPTION 18
1.3 MARKETS COVERED 20
1.4 STAKEHOLDERS 21
1.5 REPORT ASSUMPTIONS 21
1.6 RESEARCH METHODOLOGY 23
1.6.1 MARKET SIZE ESTIMATION 25
1.6.2 MARKET CRACKDOWN AND DATA TRIANGULATION 25
1.6.3 KEY DATA POINTS TAKEN FROM SECONDARY SOURCES 27
1.6.4 KEY DATA POINTS TAKEN FROM PRIMARY SOURCES 27
1.6.5 LIST OF MAJOR COMPANIES AND ORGANIZATIONS COVERED IN PRIMARY RESEARCH 28
2 EXECUTIVE SUMMARY 29
3 COVER STORY 32
DAVID A. BELFORTE, EDITOR-IN-CHIEF,
INDUSTRIAL LASER SOLUTIONS 32
4 MARKET OVERVIEW 35
4.1 INTRODUCTION 36
4.2 MARKET DEFINITION ANDSCOPE 39
4.3 MARKET SEGMENTATION 41
4.4 HISTORY AND EVOLUTION OF LASER PROCESSING MARKET 43
4.5 TECHNOLOGY AND APPLICATION TRENDS 45
4.6 ADVANTAGES OF LASER MATERIAL PROCESSING 46
4.7 THE INDUSTRIAL SAFETY FACTORS 47
4.7.1 MAXIMUM PERMISSIBLE EXPOSURE (MPE) LEVELS 47
4.7.2 CLASSIFICATION 48
4.7.2.1 By IEC standard 48
4.7.2.2 By ANSI standard 50
4.8 MARKET DYNAMICS 51
4.8.1 DRIVERS 51
4.8.1.1 Government regulations for compulsory use of laser marking 51
4.8.1.2 Outclassing every other substitute tools 52
4.8.1.3 Demand for the aesthetics 53
4.8.1.4 Emerging application in oil and gas exploration field 53
4.8.1.5 The introduction of direct diode lasers 53
4.8.2 RESTRAINTS 54
4.8.2.1 High initial investment and high maintenance cost 54
4.8.2.2 Eurozone crises 55
4.8.2.3 Rare earth elements mining: environmental concerns 55
4.8.3 OPPORTUNITIES 55
4.8.3.1 High adoption of Disk Lasers 55
4.8.3.2 Automotive lights 56
4.8.3.3 Other emerging applications and processes 57
4.9 BURNING ISSUES 58
4.9.1 TECHNICAL CHALLENGES WITH HIGH POWER LASERS 58
4.9.2 SAFETY ISSUES WITH LASERS 58
4.10 WINNING IMPERATIVES 59
4.10.1 PRODUCT INNOVATION IS THE KEY 59
4.10.2 VERTICAL CONSOLIDATION 59
4.10.3 LASER DOPING OF SOLAR CELLS (LASSOL): TECHNOLOGY FOR SOLAR CELLS 60
4.11 PORTER'S FIVE FORCES MODEL 61
4.11.1 THREAT FROM NEW ENTRANTS 62
4.11.2 THREAT FROM SUBSTITUTES 63
4.11.3 BARGAINING POWER OF SUPPLIERS 64
4.11.4 BARGAINING POWER OF BUYERS 65
4.11.5 DEGREE OF COMPETITION 66

4.12 VALUE CHAIN 67
4.13 PRICE TREND ANALYSIS 73
5 SEGMENTATION BY TECHNOLOGY 74
5.1 INTRODUCTION 75
5.2 LASERS SOURCE AND LASER SYSTEM MARKET COMPARISON 77
5.3 GAS LASERS 79
5.3.1 CO2 LASERS 79
5.3.2 EXCIMER LASERS 83
5.4 SOLID STATE LASERS 86
5.4.1 ND:YAG LASER 89
5.4.2 ER: YAG LASER 90
5.5 FIBER LASERS 91
5.6 SEMICONDUCTOR LASERS 96
6 SEGMENTATION BY PROCESS 100
6.1 INTRODUCTION 101
6.2 CUTTING AND DRILLING 102
6.2.1 CUTTING 103
6.2.1.1 Fusion Cutting 107
6.2.1.2 Flame Cutting 108
6.2.1.3 Sublimation Cutting 108
6.2.2 DRILLING 108
6.2.2.1 Single Pulse Drilling 109
6.2.2.2 Percussion Drilling 109
6.2.2.3 Trepanning Drilling 109
6.2.2.4 Helical Drilling 110
6.3 MARKING AND ENGRAVING 112
6.3.1 DIRECT LASER ENGRAVING 114
6.3.2 DIRECT PHOTOPOLYMER LASER IMAGING 115
6.3.3 SUB SURFACE LASER ENGRAVING 115
6.4 MICRO-PROCESSING 117
6.5 ADVANCED PROCESSING 119
7 SEGMENTATION BY MACHINE CONFIGURATION 121
7.1 INTRODUCTION 122
7.2 TYPES OF CONFIGURATION FOR LASER CUTTING 124
7.2.1 MOVING MATERIAL LASER CONFIGURATION 124
7.2.2 FLYING OPTICS SYSTEMS LASER CONFIGURATION 124
7.2.3 HYBRID LASER CONFIGURATION 124
7.3 TYPES OF CONFIGURATION FOR LASER ENGRAVING 127
7.3.1 X-Y SURFACE BASED 127
7.3.2 CYLINDRICAL WORK PIECES 128
7.3.3 STATIONED LASER MACHINE 128
8 SEGMENTATION BY VERTICAL 129
8.1 INTRODUCTION 130
8.2 AEROSPACE 132
8.3 ARCHITECTURE 133
8.3.1 ARCHITECTURE VERTICAL SEGMENTATION BY PROCESS 134
8.4 AUTOMOTIVE 135
8.4.1 AUTOMOTIVE VERTICAL SEGMENTATION BY PROCESS 136
8.5 COMMERCIAL 137
8.5.1 COMMERCIAL VERTICAL SEGMENTATION BY PROCESS 138
8.5.2 COMMERCIAL VERTICAL SEGMENTATION BY APPLICATION 139
8.6 CONSUMER ELECTRONICS 140
8.6.1 CONSUMER ELECTRONIC VERTICAL SEGMENTATION BY APPLICATION 141
8.7 GENERAL MACHINE TOOLING 142
8.7.1 GENERAL MACHINE TOOLING VERTICAL SEGMENTATION BY PROCESS 143
8.7.2 GENERAL MACHINE TOOLING VERTICAL SEGMENTATION BY APPLICATION 144
8.8 SEMICONDUCTOR and ELECTRONICS 145
8.8.1 SEMICONDUCTOR and ELECTRONICS VERTICAL SEGMENTATION BY PROCESS 146
8.8.2 SEMICONDUCTOR and ELECTRONICS VERTICAL SEGMENTATION BY APPLICATION 147
9 SEGMENTATION BY GEOGRAPHY 148
9.1 INTRODUCTION 149
9.2 NORTH AMERICA 150
9.3 EUROPE 151
9.4 APAC 152
9.5 ROW 153
10 COMPETITIVE LANDSCAPE 155
10.1 OVERVIEW 155
10.2 MARKET SHARE ANALYSIS 155
10.3 KEY GROWTH STRATEGIES 156
10.4 COMPETITIVE SITUATION AND TRENDS 157
10.4.1 NEW PRODUCT DEVELOPMENTS and ANNOUNCEMENTS 157
10.4.2 AGREEMENTS, PARTNERSHIPS, JOINT VENTURES AND COLLABORATIONS 164
10.4.3 MERGERS AND ACQUISITIONS 166
11 COMPANY PROFILES 168
(Overview, Products and Services, Financials, Strategy and Development)*
11.1 ALLTEC GMBH 168
11.2 ALPHA NOV LASER 171
11.3 BYSTRONIC, INC. 175
11.4 COHERENT, INC. 178
11.5 DPSS LASER, INC. 183
11.6 EPILOG LASER, INC. 187
11.7 EUROLASER GMBH 190
11.8 IPG PHOTONICS CORPORATION 193
11.9 JENOPTIK LASER GMBH 198
11.10 LASERSTAR TECHNOLOGIES CORPORATION 202
11.11 NEEDHAM LASER LTD. 204
11.12 NEWPORT CORPORATION 206
11.13 PRIMA INDUSTRIE S.P.A. 210
11.14 Q-PEAK, INC. 215
11.15 ROFIN-SINAR TECHNOLOGIES, INC. 217
11.16 SEI LASER S.P.A 223
11.17 TROTEC LASER, INC. 226
11.18 TRUMPF LASER GMBH + CO. KG 229
11.19 UNIVERSAL LASER SYSTEMS, INC. 234
11.20 XENETECH GLOBAL, INC. 237
*Details on Overview, Products and Services, Financials, Strategy and Development might not be captured in case of unlisted companies.


LIST OF TABLES


TABLE 1 GENERAL ASSUMPTIONS, TERMINOLOGY AND APPLICATION KEY NOTES 22
TABLE 2 GLOBAL LASER PROCESSING MARKET, 2012 - 2018 ($MILLION) 30
TABLE 3 COMAPRISON OF PROCESSES BY, VERTICALS, 2012 40
TABLE 4 LASER PROCESSING VS MECHANICAL PROCESSING, 2013 46
TABLE 5 AVERAGE SELLING PRICE OF LASERS, BY TECHNOLOGY, 2012 ($) 54
TABLE 6 PUMP SOURCE KEY MANUFACTURERS AND SUPPLIERS, 2013 69
TABLE 7 LASER CAVITY KEY MANUFACTURERS AND SUPPLIERS, 2013 70
TABLE 8 LASER ELECTRONIC COMPONENT KEY MANUFACTURERS AND SUPPLIERS, 2013 70
TABLE 9 LASER OPTICS KEY MANUFACTURERS AND SUPPLIERS, 2013 71
TABLE 10 LASER ELECTRONIC SHUTTER KEY MANUFACTURERS AND
SUPPLIERS, 2013 72
TABLE 11 PRICE ANALYSIS OF LASERS, BY TECHNOLOGY, 2012 - 2018 ($/WATT) 73
TABLE 12 GLOBAL LASER PROCESSING SYSTEMS MARKET REVENUE, BY TECHNOLOGY, 2012 - 2018 ($BILLION) 75
TABLE 13 GLOBAL LASER PROCESSING MARKET REVENUE, BY TECHNOLOGY, 2012 - 2018 ($MILLION) 76
TABLE 14 GLOBAL LASER PROCESSING MARKET REVENUE, BY GAIN MEDIUM, 2012 -2018 ($MILLION) 78
TABLE 15 ADVANTAGES OF CO2 LASERS 80
TABLE 16 DIFFERENCE BETWEEN CO2 LASER AND FIBER LASER 81
TABLE 17 GLOBAL CO2 LASER PROCESSING MARKET REVENUE, 2012 - 2018 82
TABLE 18 GLOBAL CO2 LASER MARKET SHARE, BY PROCESS,
2012 - 2018 ($MILLION) 83
TABLE 19 TYPES OF EXCIMER LASERS 84
TABLE 20 GLOBAL EXCIMER LASER PROCESSING MARKET REVENUE,
2012 - 2018 ($MILLION) 85
TABLE 21 GLOBAL EXCIMER LASER PROCESSING MARKET SHARE, BY PROCESS, 2012 - 2018 ($MILLION) 86
TABLE 22 GLOBAL SOLID STATE LASER PROCESSING MARKET REVENUE,
2012 - 2018 ($ MILLION) 88
TABLE 23 GLOBAL SOLID STATE LASER PROCESSING MARKET SHARE,
BY APPLICATIONS, 2012 - 2018 ($MILLION) 89
TABLE 24 ADVANTAGES OF FIBER LASER 93
TABLE 25 GLOBAL FIBER LASER PROCESSING MARKET REVENUE,
2012 - 2018 ($MILLION) 94
TABLE 26 GLOBAL FIBER LASER PROCESSING MARKET SHARE, BY APPLICATIONS, 2012 - 2018 ($MILLION) 95
TABLE 27 GLOBAL SEMICONDUCTOR LASER PROCESSING MARKET REVENUE, 2012 - 2018 ($MILLION) 98
TABLE 28 GLOBAL SEMICONDUCTOR LASER PROCESSING MARKET SHARE,
BY APPLICATIONS, 2012 - 2018, ($MILLION) 99
TABLE 29 GLOBAL LASER PROCESSING MARKET, BY APPLICATIONS,
2012 - 2018 ($MILLION) 101
TABLE 30 GLOBAL CUTTING AND DRILLING PROCESS MARKET, BY TECHNOLOGY, 2012 - 2018 ($MILLION) 102
TABLE 31 TYPES OF LASER AND THEIR APPLICATIONS 104
TABLE 32 GLOBAL LASER CUTTING PROCESS MARKET, BY VERTICAL,
2012 - 2018 ($MILLION) 105
TABLE 33 GLOBAL LASER CUTTING MARKET, BY APPLICATION, 2012 - 2018 (%) 106
TABLE 34 GLOBAL LASER DRILLING PROCESS MARKET, BY VERTICAL,
2012 - 2018 ($MILLION) 110
TABLE 35 GLOBAL LASER DRILLING MARKET, BY APPLICATION, 2012 - 2018 (%) 111
TABLE 36 GLOBAL MARKING AND ENGRAVING PROCESS MARKET,
BY TECHNOLOGY, 2012 - 2018 ($MILLION) 113
TABLE 37 GLOBAL LASER MARKING and ENGRAVING MARKET, BY APPLICATION, 2012 - 2018 (%) 114
TABLE 38 GLOBAL LASER MARKING AND ENGRAVING PROCESS MARKET,
BY VERTICAL, 2012 - 2018 ($MILLION) 116
TABLE 39 GLOBAL MICRO-PROCESSING MARKET REVENUE, BY TECHNOLOGY, 2012 - 2018 ($MILLION) 117
TABLE 40 GLOBAL LASER MICRO-PROCESSING MARKET, BY VERTICAL,
2012 - 2018 ($MILLION) 118
TABLE 41 GLOBAL LASER MICRO-PROCESSING MARKET, BY APPLICATION,
2012 - 2018 (%) 118
TABLE 42 GLOBAL ADVANCED PROCESSING MARKET, BY TECHNOLOGY,
2012 - 2018 ($MILLION) 119
TABLE 43 GLOBAL LASER ADVANCED PROCESSING MARKET, BY VERTICAL,
2012 - 2018 ($MILLION) 120
TABLE 44 COMPARISON OF DIFFERENT LASER CUTTING CONFIGURATIONS 125
TABLE 45 GLOBAL LASER PROCESSING MARKET, BY MACHINE CONFIGURATION, 2012 - 2018 ($MILLION) 126
TABLE 46 GLOBAL LASER PROCESSING MARKET REVENUE,
2012 - 2018 ($MILLION) 130
TABLE 47 GLOBAL LASER PROCESSING MARKET REVENUE, BY VERTICALS,
2012 - 2018 ($MILLION) 131
TABLE 48 GLOBAL LASER PROCESSING MARKET REVENUE, BY AEROSPACE,
2012 - 2018 ($MILLION) 132
TABLE 49 GLOBAL LASER PROCESSING MARKET REVENUE, BY ARCHITECTURE, 2012 - 2018 ($MILLION) 133
TABLE 50 GLOBAL ARCHITECTURE LASER PROCESSING MARKET REVENUE,
BY PROCESS, 2012 - 2018, ($MILLION) 134
TABLE 51 GLOBAL LASER PROCESSING MARKET REVENUE, BY AUTOMOTIVE, 2012 - 2018 ($MILLION) 135
TABLE 52 GLOBAL AUTOMOTIVE LASER PROCESSING MARKET REVENUE,
BY PROCESS, 2012 - 2018 ($MILLION) 136
TABLE 53 GLOBAL LASER PROCESSING MARKET REVENUE, BY COMMERCIAL, 2012 - 2018 ($MILLION) 137
TABLE 54 GLOBAL COMMERCIAL LASER PROCESSING MARKET REVENUE,
BY PROCESS, 2012 - 2018 ($MILLION) 138
TABLE 55 GLOBAL COMMERCIAL LASER PROCESSING MARKET REVENUE,
BY APPLICATIONS, 2012 - 2018 ($MILLION) 139
TABLE 56 GLOBAL LASER PROCESSING MARKET REVENUE, BY CONSUMER ELECTRONICS, 2012 - 2018 ($MILLION) 140
TABLE 57 GLOBAL CONSUMER ELECTRONICS LASER PROCESSING MARKET REVENUE, BY PROCESS, 2012 - 2018 ($MILLION) 141
TABLE 58 GLOBAL LASER PROCESSING MARKET REVENUE, BY GENERAL MACHINE TOOLING, 2012 - 2018 ($MILLION) 142
TABLE 59 GLOBAL GENERAL MACHINE TOOLING LASER PROCESSING MARKET REVENUE, BY PROCESS, 2012 - 2018 ($MILLION) 143
TABLE 60 GLOBAL GENERAL MACHINE TOOLING LASER PROCESSING MARKET REVENUE, BY APPLICATION, 2012 - 2018 ($MILLION) 144
TABLE 61 GLOBAL LASER PROCESSING MARKET REVENUE, BY SEMICONDUCTOR and ELECTRONICS, 2012 - 2018 ($MILLION) 145
TABLE 62 GLOBAL SEMICONDUCTOR and ELECTRONICS LASER PROCESSING MARKET REVENUE, BY PROCESS, 2012 - 2018 ($MILLION) 146
TABLE 63 GLOBAL SEMICONDUCTOR and ELECTRONICS LASER PROCESSING MARKET VERTICAL REVENUE, BY APPLICATIONS,
2012 - 2018 ($MILLION) 147
TABLE 64 GLOBAL LASER PROCESSING MARKET REVENUE,
2012 - 2018 ($MILLION) 149
TABLE 65 NORTH AMERICA: LASER PROCESSING MARKET, BY PROCESS,
2012 - 2018 (%) 150
TABLE 66 EUROPE: LASER PROCESSING MARKET, BY PROCESS, 2012 - 2018 (%) 151
TABLE 67 APAC: LASER PROCESSING MARKET, BY PROCESS, 2012 - 2018 (%) 152
TABLE 68 APAC LASER PROCESSING MARKET SEGMENTATION, BY COUNTRY, 2012 - 2018 ($MILLION) 153
TABLE 69 ROW: LASER PROCESSING MARKET, BY PROCESS, 2012 - 2018 (%) 154
TABLE 70 LASER PROCESSING MARKET: MARKET SHARE ANALYSIS, 2012 155
TABLE 71 NEW PRODUCT LAUNCH/DEVELOPMENT, 2010 - 2013 157
TABLE 72 AGREEMENTS, PARTNERSHIPS, JOINT VENTURES and
COLLABORATIONS, 2010 - 2012 164
TABLE 73 MERGERS and ACQUISITIONS, 2010 - 2012 166
TABLE 74 COHERENT: OVERALL REVENUE, 2011 - 2012 ($MILLION) 179
TABLE 75 COHERENT: MARKET REVENUE, BY SEGMENTS,
2011 - 2012 ($MILLION) 180
TABLE 76 COHERENT: MARKET REVENUE, BY GEOGRAPHY,
2011 - 2012 ($MILLION) 180
TABLE 77 EUROLASER: OVERALL REVENUE, 2011 - 2012 ($MILLION) 191
TABLE 78 IPG PHOTONICS: OVERALL REVENUE, 2011 - 2012 ($MILLION) 194
TABLE 79 IPG PHOTONICS: MARKET REVENUE, BY SEGMENTS,
2011 - 2012 ($MILLION) 195
TABLE 80 IPG PHOTONICS: MARKET REVENUE, BY GEOGRAPHY,
2011 - 2012 ($MILLION) 195
TABLE 81 NEWPORT: OVERALL REVENUE, 2011 - 2012 ($MILLION) 207
TABLE 82 NEWPORT: MARKET REVENUE, BY SEGMENTS, 2011 - 2012 ($MILLION) 207
TABLE 83 NEWPORT: MARKET REVENUE, BY GEOGRAPHY,
2011 - 2012 ($MILLION) 208
TABLE 84 PRIMA INDUSTRIE S.P.A. OVERALL REVENUE, 2011 - 2012 ($MILLION) 212
TABLE 85 PRIMA INDUSTRIE S.P.A. MARKET REVENUE, BY SEGMENTS,
2011 - 2012 ($MILLION) 212
TABLE 86 PRIMA INDUSTRIE S.P.A. MARKET REVENUE, BY GEOGRAPHY,
2011 - 2012 ($MILLION) 213
TABLE 87 ROFIN-SINAR TECHNOLOGIES: OVERALL REVENUE,
2011 - 2012 ($MILLION) 220
TABLE 88 ROFIN-SINAR TECHNOLOGIES: MARKET REVENUE, BY SEGMENTS,
2011 - 2012 ($MILLION) 220
TABLE 89 ROFIN-SINAR TECHNOLOGIES: MARKET REVENUE, BY GEOGRAPHY, 2011 - 2012 ($MILLION) 221
TABLE 90 SEI LASER: OVERALL REVENUE, 2010-2011 ($MILLION) 224


LIST OF FIGURES


FIGURE 1 MARKETS COVERED FOR ANALYSIS 21
FIGURE 2 MARKET RESEARCH METHODOLOGY 24
FIGURE 3 MARKET CRACKDOWN AND DATA TRIANGULATION 26
FIGURE 4 LASER OPERATING MODES 37
FIGURE 5 ELEMENTS OF LASER 37
FIGURE 6 TYPES OF LASER 38
FIGURE 7 LASER PROCESSING MARKET SEGMENTATION BY SUPPLIERS SIDE 41
FIGURE 8 LASER PROCESSING MARKET SEGMENTATION BY DEMAND SIDE 42
FIGURE 9 INVENTION OF MAJOR LASER PROCESSING TECHNOLOGIES 43
FIGURE 10 EVOLUTION OF LASER TECHNOLOGY 44
FIGURE 11 REVISED SYSTEM AS PER IEC STANDARD 48
FIGURE 12 LASER SYSTEM AS PER ANSI (U.S.) STANDARD 50
FIGURE 13 PORTER'S FIVE FOR ANALYSIS OF LASER PROCESSING MARKET, 2012 61
FIGURE 14 LASER PROCESSING MARKET: THREATS FROM NEW ENTRANTS, 2012 62
FIGURE 15 LASER PROCESSING MARKET: THREATS FROM SUBSTITUTES, 2012 63
FIGURE 16 LASER PROCESSING MARKET: BARGAINING POWER OF
SUPPLIERS, 2012 64
FIGURE 17 LASER PROCESSING MARKET: BARGAINING POWER OF BUYERS, 2012 65
FIGURE 18 LASER PROCESSING MARKET: DEGREE OF COMPETITION, 2012 66
FIGURE 19 VALUE CHAIN OF LASER SYSTEMS, 2013 68
FIGURE 20 LASER SOURCE REVENUE AND LASER SYSTEM REVENUE
COMPARISON, 2012 77
FIGURE 21 CARBON DIOXIDE (CO2) LASER SETUP 79
FIGURE 22 SOLID STATE LASER SETUP 87
FIGURE 23 FIBER LASER SETUP 91
FIGURE 24 FIBER BRAGG GRATINGS (FBG) 92
FIGURE 25 TYPES OF LASER CUTTING 107
FIGURE 26 TYPES OF LASER DRILLING 109
FIGURE 27 FACTORS DETERMINING LASER MACHINE 122
FIGURE 28 KEY GROWTH STRATEGIES 156
FIGURE 29 DPSS LASERS: PRODUCT LINE 184
FIGURE 30 DPSS LASERS: APPLICATIONS 185
FIGURE 31 LASER PROCESS: EPILOG LASER PRODUCT LINE 188
FIGURE 32 ROFIN-SINAR TECHNOLOGIES: BUSINESS SEGMENT 218
FIGURE 33 TRUMPF LASER: PRODUCT LINE 230

View This Report »

Get Industry Insights. Simply.

  • Latest reports & slideshows with insights from top research analysts
  • 24 Million searchable statistics with tables, figures & datasets
  • More than 10,000 trusted sources
24/7 Customer Support

Talk to Ahmad

+1 718 618 4302

Purchase Reports From Reputable Market Research Publishers
Smart Manufacturing Market - Global Industry Analysis, Size, Share, Growth, Trends and Forecast 2016 - 2024

Smart Manufacturing Market - Global Industry Analysis, Size, Share, Growth, Trends and Forecast 2016 - 2024

  • $ 5795
  • Industry report
  • November 2016
  • by Transparency Market Research

Global Smart Manufacturing Market: Overview Smart manufacturing is an enhanced process of production with the objective of optimizing concept generation, product transaction, and manufacturing. It refers ...

Printed Electronics Market by Material (Ink, Substrate), Technology (Inkjet, Screen, Gravure, Flexographic), Device (Sensors, Displays, Batteries, RFID, Lighting, Photovoltaic) and Geography - Global Forecast to 2022

Printed Electronics Market by Material (Ink, Substrate), Technology (Inkjet, Screen, Gravure, Flexographic), Device (Sensors, Displays, Batteries, RFID, Lighting, Photovoltaic) and Geography - Global Forecast to 2022

  • $ 5650
  • Industry report
  • October 2016
  • by MarketsandMarkets

“The printed electronics market growth driven by the growth of Internet of Things and various advantages” The printed electronics market was valued at USD 3.13 billion in 2015 and is expected to reach ...

China Semiconductor Industry: Expansion Plans Analysis and Trends (Government Policies and Guidelines, Import and Export Impact on Trade Partners, Key Concepts, Case Study, Key Strategies Adopted, Future Plans, and Recommendation to Players)

China Semiconductor Industry: Expansion Plans Analysis and Trends (Government Policies and Guidelines, Import and Export Impact on Trade Partners, Key Concepts, Case Study, Key Strategies Adopted, Future Plans, and Recommendation to Players)

  • $ 5650
  • Industry report
  • August 2016
  • by MarketsandMarkets

“The China semiconductor industry size projected to grow at a CAGR of 12.8%” The China semiconductor industry is expected to reach USD 157.66 billion by 2020, at a CAGR of 12.8% between 2016 and 2020. ...


ref:plp2013

Reportlinker.com © Copyright 2016. All rights reserved.

ReportLinker simplifies how Analysts and Decision Makers get industry data for their business.