市場調查報告書 - 94405

微細材料加工用雷射:2009年

Lasers for Micro Materials Processing-2009

出版商 Strategies Unlimited
出版日期 2009年07月30日 內容資訊 英文 97 Pages
價格
微細材料加工用雷射:2009年 Lasers for Micro Materials Processing-2009
出版日期: 2009年07月30日 內容資訊: 英文 97 Pages
簡介

2009年材料加工用的低輸出功率雷射市場雖預計出現40%的跌幅,但預計在2013年成長為超過4億6000萬美元規模的市場。

本報告書內容包括:微細材料加工用雷射市場分析以及半導體電路修護、印刷電路板(PCB)打洞、太陽電池製造、支架切削等市場介紹。內容綱要摘記如下:

第1章 實施概要

第2章 調查範圍及定義

  • 調查方法
  • 微細材料加工的定義
  • 「Early Peak」的影響
  • 材料加工的條件
  • 主要雷射類型比較
  • 雷射價格
  • 出口管制
  • 智慧財產權的課題
  • 保護眼睛的安全措施

第3章 最終用途預測

第4章 雷射加工別預測

第5章 輸出功率及脈衝波別預測

第6章 雷射類型別預測

第7章 波長別預測

第8章 供應商及市場佔有率

  • 地區別流通:最終使用者
  • 地區別流通:系統銷售企業
  • 雷射的市場佔有率:供應商別
  • 主要供應商及他們的雷射技術
  • 匯率及地區經濟

圖表

目錄

This new report from Strategies Unlimited examines in more detail the many segments that make up the market for lasers for micro materials processing. This includes materials processing applications using lasers under 1 kilowatt in optical power, but not including laser marking or decorative engraving. The category includes lasers for a wide variety of applications, from semiconductor circuit repair, drilling holes in printed circuit boards, manufacturing solar cells, stent cutting, and many more.

These market segments have been discussed in our earlier reports on industrial lasers, but this report extends its audit of over 120 applications and the wide range of technology solutions in this highly fragmented category. The report also examines more segments than ever before, including: end-user sectors, processes, power levels, pulse types, laser types, and wavelengths. It is the only market report of its kind on this topic, and one in a series of market reports on lasers by Strategies Unlimited.

The report concludes that sales of lasers for low-power materials processing will fall by 40% 2009, but it will grow to exceed $460 million by 2013. The strongest growth will be in fiber lasers, diode lasers, green lasers, mode-locked (ultrafast) lasers, and lasers for manufacturing solar cells. While the market appears at first to be merely scaling to the world economy, it is also likely to disrupt market share in many segments, in a game of musical chairs.

Table of Contents

1. EXECUTIVE SUMMARY

2. METHODOLOGY AND INTRODUCTION

  • 2.1 Methodology
  • 2.2 Defining Micro Materials Processing
  • 2.3 The “Early Peak” Effect
  • 2.4 Materials Processing Requirements
  • 2.5 Comparison of Key Laser Types
  • 2.6 Laser Pricing
  • 2.7 Export Controls
  • 2.8 Intellectual Property Issues
  • 2.9 Eyesafe Operation

3. FORECAST OF END-USER APPLICATIONS

4. FORECAST BY LASER PROCESS

5. FORECAST BY POWER AND PULSE TYPE

6. FORECAST BY LASER TYPE

7. FORECAST BY WAVELENGTH

8. SUPPLIERS AND MARKET SHARE

  • 8.1 Regional Distribution of End Users
  • 8.2 Regional Distribution of System Vendors
  • 8.3 Laser Market Share by Supplier
  • 8.4 Summary of Key Suppliers and Their Laser Technologies
  • 8.5 Exchange Rates and Regional Economics

LIST OF FIGURES

  • 1.1 Forecast of Laser Revenues by Laser Type - Micro Materials Processing, 2008 - 2013
  • 1.2 Revenue Share by Laser Supplier - Micro Materials Processing, 2008
  • 2.1 Calibration of Applications with Laser Types
  • 2.2 Map of Materials Processing Regimes - Unit Sales vs. Output Power
  • 2.3 Synrad CO2 Laser, Firestar F-Series
  • 2.4 LASAG Fiber-Coupled Pulsed YAG Laser Station, SLS 200 Series
  • 2.5 TRUMPF Picosecond Disk Laser, TruMicro 5000 Series
  • 2.6 Pyrophotonics Tunable-Pulse Fiber Laser, PyroFlex 25 Series
  • 2.7 Laserline Fiber-Coupled Diode Laser Station, VG-Power Series
  • 2.8 Newport High-Peak-Power UV Q-Switched DPSSL, Pulseo Series
  • 2.9 Coherent High-Power Excimer Laser, COMPexPro Series
  • 2.10 The “Early Peak” Phenomenon for a New Application In Micro Materials Processing
  • 2.11 The Net Effect of Many New Applications with “Early Peaks”
  • 2.12 Map of Materials Processing Parameters - Beam Quality vs. Output Power
  • 2.13 Beam Parameter Product vs. Optical Power by Laser Type
  • 2.14 Map of Materials Processing Parameters: Intensity vs. Interaction Time - Thermal Regimes
  • 2.15 Map of Materials Processing Parameters: Intensity vs. Interaction Time - All Regimes
  • 2.16 Laser Prices vs. Power Level - CW Lasers
  • 3.1 Forecast of Laser Revenues by End-User Sector - Micro Materials Processing, 2008 - 2013
  • 4.1 Share of Laser Revenues by Process - Micro Materials Processing, 2008
  • 4.2 Map of Laser Types and Conditions for Different Metal Welding Processes
  • 4.3 Map of Laser Types and Conditions for Different Metal Drilling Processes
  • 5.1 Forecast of Laser Revenues by Average Output Power - Micro Materials Processing, 2008 - 2013
  • 5.2 Forecast of Laser Revenues by Pulse Type - Micro Materials Processing, All Laser Types, 2008
  • 5.3 Map of Relative Laser Sales by Average Power by Pulse Type
  • 6.1 Forecast of Laser Revenues by Laser Type - Micro Materials Processing, 2008 - 2013
  • 6.2 Forecast of Revenue Share by Laser Type - Micro Materials Processing, 2008 - 2013
  • 7.1 Share of Laser Revenues by Wavelength - Micro Materials Processing, 2008
  • 7.2 Progress in Output Power in Yb- and Tm-Doped Fiber Lasers, 2001 - 2009
  • 8.1 Supply Chain of Lasers and Laser-Based Systems
  • 8.2 Industrial Laser Unit Installations by Region of the End User - Micro Materials Processing, 2008
  • 8.3 Industrial Laser Revenues by Region of the Customer - Micro Materials Processing, 2008
  • 8.4 Micro Materials Processing Laser Revenue Share by Supplier, 2008
  • 8.5 Micro Materials Processing Laser Revenue Share by Region of the Headquarters of the Supplier, 2008
  • 8.6 Average Interbank Exchange Rates by Quarter - Prices for Foreign Currencies, 2006 - 2009
  • 8.7 Average Interbank Exchange Rates by Quarter - Prices for U.S. Dollars, 2006 - 2009

LIST OF TABLES

  • 1.1 Summary of Conclusions for Different Segmentations of the Micro Category
  • 2.1 Summary of the Three Major Materials Processing Segments
  • 2.2 Advantages and Examples of Laser-Based Tools for Micro Applications
  • 2.3 Features of Key Laser Types
  • 2.4 Types of Commercial Solid-State Lasers
  • 2.5 Types of Commercial CO2 Lasers
  • 2.6 Example Laser Prices vs. Power Level
  • 2.7 Partial List of Controlled Lasers Not Suitable for Export to Non-Wassenaar Countries
  • 3.1 Economic Outlook for Selected End-User Markets
  • 3.2 Forecast of Laser Sales by End-User Sector - Micro Materials Processing, 2008 - 2013
  • 3.3 Map of Applications and Processes - General Manufacturing
  • 3.4 Map of Applications and Processes - Electronics Assembly
  • 3.5 Map of Applications and Processes - Semiconductors and Displays
  • 3.6 Map of Applications and Processes - Medical Devices
  • 3.7 Map of Applications and Processes - Transport
  • 4.1 Forecast of Laser Sales by Process - Micro Materials Processing, All Laser Types, 2008 - 2013
  • 4.2 Summary of Micro Materials Processes
  • 4.3 Summary of Key Laser Differentiators for Different Metal Welding Processes
  • 5.1 Forecast of Laser Sales by Average Output Power - Micro Materials Processing, All Laser Types, 2008 - 2013
  • 5.2 Summary of Laser Segmentation by Average Output Power
  • 5.3 Forecast of Laser Sales by Pulse Type - Micro Materials Processing, All Laser Types, 2008 - 2013
  • 5.4 Summary of Laser Segmentation by Pulse Type
  • 6.1 Forecast of Laser Sales by Laser Type - Micro Materials Processing - Units, Prices, and Revenues, 2008 - 2013
  • 6.2 Summary of Segmentation by Laser Type
  • 7.1 Forecast of Laser Sales by Wavelength - Units, Prices, and Revenues, 2008 - 2013
  • 7.2 Summary of Laser Segmentation by Wavelength
  • 7.3 Comparison of Three Key Fiber Laser Types
  • 8.1 Micro Materials Processing Laser Revenue Share by Supplier, 2008
  • 8.2 Key Products of Leading Suppliers of Lasers for Micro Materials Processing
  • 8.3 Mini-Profiles of Leading Suppliers of Lasers for Micro Materials Processing

微細材料加工用雷射:2009年是由出版商Strategies Unlimited在2009年07月30日所出版的。這份市場調查報告書包含97 Pages 價格從美金2950起跳。

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