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1644557

高功率雷射系統:全球市場佔有率分析、產業趨勢與統計、成長預測(2025-2030 年)

Global High Power Laser Systems - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030)
出版日期: | 出版商: Mordor Intelligence | 英文 120 Pages | 商品交期: 2-3個工作天內

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簡介目錄

預計預測期內全球高功率雷射系統市場複合年成長率將超過 7.1%。

全球高功率雷射系統市場-IMG1

主要亮點

  • 市場對配備先進雷射頭感測器和人工智慧演算法的互聯機器的需求強勁,以實現先進的製程監控和控制功能。這些機器可以與其他系統和管理軟體整合,以最大限度地提高效率和生產力。
  • 這使得高功率雷射機在每個階段都由軟體控制,包括導入用戶系統中產生的生產訂單、自動編程、生產計畫、創建要加載到機器上的工作列表、收集有關生產的機器資料(生產的件數、使用的材料)和性能(機器狀態、警報、加工時間)並提供生產管理系統所需的資料,同時完全符合工業 4.0 法規的要求。
  • 汽車和一般製造業採用高功率雷射切割製程來縮短加工週期。工具成本的降低和材料靈活性的提高導致了雷射切割的使用量的快速增加。
  • 此外,輸出功率10千瓦及以上的高功率二極體雷射正在為雷射覆層開闢新的應用場景。例如,可以在汽車、機械製造和其他行業中生產和應用特別永續和資源高效的塗料。為了推進這一想法,2022 年 4 月,弗勞恩霍夫材料與光束技術研究所 IWS 與工業合作夥伴一起,在“HICLAD”標籤下為此類雷射器開發了應用程式和特定工藝,從而能夠使用高功率雷射器進行彈性雷射覆層,使其為工業化做好準備。
  • 然而,採用雷射技術的成本高、政府法律規範和政策嚴格以及缺乏熟練的人力和專業知識限制了市場的發展並阻礙了其成長。雷射產業也受到了新冠肺炎疫情的嚴重影響。廣泛應用高功率雷射的製造業和汽車業由於2020年生產限制而成長放緩,導致整體對雷射系統的需求減少。然而,隨著生產活動的恢復,對雷射的需求預計將復甦並進一步增加。

高功率雷射系統市場趨勢

焊接領域預計將佔據主要市場佔有率

  • 焊接一直被認為是一項技術含量高且勞力密集的工藝。焊接品質不能只以外觀來判斷。焊接品質取決於熔化階段材料與氣體的相互作用以及冷卻階段材料之間的結合。
  • 特殊合金(如硼鋼、高強度鎳合金、鉻合金、鈦合金等)的使用增加帶來了新的挑戰,因為這些材料的加工參數視窗變得越來越窄。利用高功率雷射系統可以嚴格控制焊接過程。
  • 此外,由於焊接品質、可靠性和性能的提高,高功率光纖雷射焊接繼續發展成為首選製程。一些光纖雷射焊接應用是自熱焊,其中焊縫完全透過熔化一部分母材形成,並且不使用額外的填充絲或粉末。這些增強包括改善被焊接部件的接頭配合公差(空氣間隙、不匹配等)、消除焊接過程中的凝固裂紋以及修改焊縫金屬的化學成分或微觀結構以獲得合適的機械性能。
  • 此外,高功率雷射焊接在汽車行業越來越受歡迎。目前它已廣泛應用於汽車的各個領域,包括車身框架(白色車身)、門框、後行李箱、車蓋、底盤的大規模焊接、以及前背光源和電子外殼的雷射塑膠焊接。雷射焊接也廣泛用於許多子部件的金屬焊接,例如安全氣囊啟動器、電動馬達中的線圈繞組、車輛電子設備中的電池接片和匯流排連接以及汽車製造中的電氣互連,儘管這些馬達有時會被遺忘,因為它們位於汽車內部並且體積很小。
  • 隨著全球汽車產業需求和產量的激增,所研究的市場預計將遇到有利可圖的機會。例如,根據國際汽車製造商組織(OICA)的預測,2021年全球汽車產量將達到約8,000萬輛。這一數字與前一年同期比較成長了約3%。到2020年,中國、日本和德國將成為最大的汽車和商用車生產國。

亞太地區市場預計將實現高成長

  • 亞太地區雷射產業近年來由於國內經濟狀況的不斷改善而獲得了顯著的成長。本區持續注重科學研究、技術提升、市場開拓及雷射工業建設,加強雷射產業發展力道。
  • 例如,隨著「中國製造2025」策略的推進,中國製造業正向高階化、智慧化轉型。雷射技術以其效率高、耗材低、材料變形小、對工件適應性強等特點,已成為高階製造業不可或缺的工具。高階雷射加工設備越來越受到關注。在目前的雷射加工應用中,雷射切割是最普遍的,而光纖雷射是最受歡迎的光源系統。
  • 2021年12月,由華南大學與銳利科雷射聯合研發的我國首台100kW高功率雷射在湖南省衡陽市正式投入使用。與傳統雷射相比,100kW高功率雷射結構更緊湊、電光轉換效率更高、消費量更低、光束品質更好。
  • 日本致力於開發先進的軍事技術,例如高功率微波和雷射武器系統,以應對來自鄰國日益成長的飛彈威脅。日本防衛省計畫在2025年前研發出一種用於摧毀敵方無人機的高功率雷射器,並將與企業合作進行此計劃。
  • 近日,日本電氣電子企業古河電工研發並發表了一款工業雷射。該公司目前正在進一步增強其光纖雷射技術,以用於能源、資訊、傳熱、連接和儲存應用。

高功率雷射系統產業概況

全球高功率雷射系統市場較為分散,主要參與者包括 Prima Industrie SpA、IP Photonics Corporation 和 Coherent Inc.佔據市場主導地位的大公司正致力於擴大多個地區的基本客群。這些公司正在利用戰略合作計劃來增加市場佔有率和盈利。

  • 2021 年 10 月-相干公司推出新型高功率紫外線雷射。相干公司的 AVIA LX 355-30 奈秒紫外線 (UV) 雷射具有無與倫比的高功率、可靠性和長壽命組合,可大幅提高生產率,尤其適用於微電子製造中的精密切割、鑽孔和微結構操作。
  • 2021 年 5 月 - Prima Industrie SpA 開發了一款在義大利設計和製造的新型 Laser Genius+ 2D 光纖雷射機。該機器速度快、生產效率高,軌道速度可達180公尺/分鐘。 Laser Genius+ 機器有 1530、2060 和 2040 三種尺寸。光纖雷射的輸出功率從2kW到15kW。這台機器旨在讓您完全控制雷射加工,在所有可用功率下為您提供堅如磐石的可靠性和品質。新的雷射頭還設計用於有效管理熔化板材所需的熱量,同時保持冷卻和清潔,並配有可即時主動控制切割過程的感測器、密封隔離的光學元件、簡化的機械裝置和高效的煙霧提取系統。

其他福利:

  • Excel 格式的市場預測 (ME) 表
  • 3 個月的分析師支持

目錄

第 1 章 簡介

  • 研究假設和市場定義
  • 研究範圍

第2章調查方法

第3章執行摘要

第4章 市場洞察

  • 市場概況
  • 產業吸引力-波特五力分析
    • 供應商的議價能力
    • 消費者議價能力
    • 新進入者的威脅
    • 競爭對手之間的競爭
    • 替代品的威脅
  • 系統中使用的雷射光源類型(光纖、圓盤、二極體、CO2)

第 5 章 Mahle 動力學

  • 市場促進因素
  • 市場挑戰

第6章 按應用分類的市場區隔

  • 斷開
  • 焊接
  • 其他(覆層、硬化、清洗、消融)

7. 按區域分類的市場

  • 中國
  • 日本
  • 歐洲
  • 北美洲
  • 世界其他地區

第8章 競爭格局

  • 公司簡介
    • Prima Industrie SpA
    • Han's Laser Technology Industry Group
    • IP Photonics Corporation
    • Bystronic Laser AG
    • El.En. SpA
    • Coherent Inc
    • TRUMPF SE+Co. KG
    • Preco Inc
    • HSG Laser

第9章投資分析

第10章 市場機會與未來趨勢

簡介目錄
Product Code: 90663

The Global High Power Laser Systems Market is expected to register a CAGR of greater than 7.1% during the forecast period.

Global High Power Laser Systems - Market - IMG1

Key Highlights

  • The market is witnessing robust demand for interconnected machines with advanced laser head sensors and artificial intelligence algorithms for advanced process monitoring and control features. These machines can be integrated with other systems and management software, thus maximizing efficiency and productivity.
  • This enables the high-power laser machine to be managed by software for all phases, including importing production orders generated by the user's system, automatic programming, production planning and creation of worklists to be loaded onto the machine, collection of machine data on production (pieces produced, materials used) and performance (machine status, alarms, processing times), and offer the data necessary for production control management systems, all the while being fully compliant to Industry 4.0 law requirements.
  • Automotive and general manufacturing operations use high-power laser cutting processes to shorten process cycle times. The combination of reduced tooling costs and flexibility in materials is leading to the rapidly increased use of laser cutting.
  • Further, high-power diode lasers with outputs of ten or more kilowatts are opening new application scenarios for laser cladding. Particularly sustainable and resource-efficient coatings can be produced and applied, for instance, in automotive, machine construction, and other industries. To advance the idea, in April 2022, together with industrial partners, the Fraunhofer Institute for Material and Beam Technology IWS, developed applications and specific processes for this laser class to industry readiness under the label "HICLAD," which enables resilient laser cladding with a high-power laser.
  • On the flip side, high costs associated with the deployment of laser technology, strict regulatory framework and policies imposed by the government, and a lack of skilled personnel and expertise restrict the market and hamper its growth. Also, the laser industry suffered significantly from the impacts of the covid-19 pandemic. Manufacturing and automotive industries, in which high-power lasers are widely used, witnessed a slowdown owing to production restrictions in 2020, resulting in a decline in the overall demand for laser systems. However, the resumption of production activities has revived the demand for lasers, which is expected to increase further.

High Power Laser Systems Market Trends

Welding Segment is Expected to Hold a Major Market Share

  • Welding has always been considered a highly-skilled and labor-intensive activity, and in many respects, it is. One cannot assume the quality of a weld by appearance. The quality of the weld is demarcated by material and gas interactions during the molten phase and the bonding of the materials during the cooling phase.
  • With the increasing use of specialty alloys (e.g., boron steel, high-strength nickel alloys, chromium alloys, and titanium alloys), new challenges arise because the processing parameter window for these materials may be narrow. The welding process can be tightly controlled with high-power laser systems.
  • Further, High Power Fiber laser welding continues to evolve as a preferred process with enhancements in weld quality, reliability, and performance, as several fiber laser welding applications are autogenous, where the weld is formed entirely by melting parts of the base metal, and no additional filler wire or powder is used. The enhancements include better joint fit-up tolerance (air gaps, mismatch, etc.) of the parts to be welded, elimination of solidification cracking during the welding, and modifying the weld metal's chemical composition or microstructure to obtain suitable mechanical properties, etc.
  • Also, high-power laser welding is gaining popularity in the automotive industry. It is now commonplace for many automotive applications, including large-scale welding of body frames (body-in-white), door frames, trunks, auto hoods, chassis, and laser plastic welding for front and backlights and electronic housings. Sometimes forgotten as the welds are internal to automobiles and sometimes very small in size, laser welding is also widely used for metal welding of many sub-components, including airbag initiators, motor coil windings, and battery tab-to-bus bar connections for vehicle electronics, and electrical interconnections within an automobile build.
  • With the global upsurge in the demand and production in the automotive industry, the studied market is anticipated to encounter lucrative opportunities. For instance, according to the Organisation Internationale des Constructeurs d'Automobiles (OICA), in 2021, approximately 80 million motor vehicles will be produced worldwide. This figure translates into an increase of around 3%, compared with the previous year. China, Japan, and Germany were the largest car and commercial vehicle producers in 2020.

The Asia Pacific Region is Expected to Witness a High Market Growth

  • The Asia Pacific region's laser industry has seen significant growth in recent years, with the continuous improvement of domestic economic conditions. The region has consistently focused on scientific research, technology upgrades, market exploration, and the construction of laser industrial parks, which has intensified the development of the laser industry.
  • For instance, with the advancement of the "Made in China 2025" strategy, the manufacturing industry in China is transforming into a high-end, intelligent type. Laser technology has become an indispensable tool in high-end manufacturing due to its high efficiency, low consumables, small material deformation, and strong adaptability to processing objects. High-end laser processing equipment is receiving more and more attention. In current laser processing applications, laser cutting is the most popular, and fiber laser is the most popular light source system.
  • In December 2021, China's first 100 kW ultra-high-power laser, jointly developed by Nanhua University and Rayco Laser, was officially used in Hengyang City, Hunan Province. Compared with a traditional laser, the 100 kW ultra-high power laser has a more compact structure, higher electrical and optical conversion efficiency, lower energy consumption, and better beam quality.
  • In Japan, the focus is on developing advanced military technologies such as high-power microwave- and laser-based weapon systems to help combat the growing missile threat posed by neighboring countries. Japan's Defense Ministry has planned to develop high-powered lasers to destroy enemy drones until 2025 and will engage with companies for the project.
  • Recently, Japan's Furukawa Electric, an electric and electronics equipment company, developed and launched an industrial laser. The company is now further enhancing its fiber laser technology for energy, information, heat conduction, connection, and storage applications.

High Power Laser Systems Industry Overview

The Global High Power Laser Systems Market is moderately fragmented with significant players like Prima Industrie S.p.A, IP Photonics Corporation, Coherent Inc., etc. With a prominent share in the market, the major players are focusing on expanding their customer base across several regions. These companies leverage strategic collaborative initiatives to expand their market share and profitability.

  • October 2021 - Coherent, Inc. launched its new high-power UV laser. The Coherent AVIA LX 355-30 nanosecond ultraviolet (UV) laser offers an unmatched combination of high output power, reliability, and long lifetime, providing a significant boost in productivity for high-precision cutting, drilling, and microstructuring tasks, particularly in microelectronics production.
  • May 2021 - Prima Industrie S.p.A developed a new Laser Genius+ 2D fiber laser machine, wholly designed and built in Italy. The machine is fast and productive, with a trajectory speed of 180m/min. The Laser Genius+ machines comprise sizes 1530, 2060, and 2040. It can be equipped with numerous fiber laser powers, from 2 to 15 kW. The machine is built to have total control over the laser process and obtain robust reliability and quality with all available power. The new laser head has also been designed to efficiently manage the heat required to melt thick sheets while staying cold and clean, thanks to sensors that actively control the cutting process in real-time, hermetically isolated optics, simplified mechanics, and the high efficiency fumes extraction system.

Additional Benefits:

  • The market estimate (ME) sheet in Excel format
  • 3 months of analyst support

TABLE OF CONTENTS

1 INTRODUCTION

  • 1.1 Study Assumption & Market Definition
  • 1.2 Scope Of The Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET INSIGHTS

  • 4.1 Market Overview
  • 4.2 Industry Attractiveness - Porter's Five Force Analysis
    • 4.2.1 Bargaining Power Of Suppliers
    • 4.2.2 Bargaining Power Of Consumers
    • 4.2.3 Threat Of New Entrants
    • 4.2.4 Intensity Of Competitive Rivalry
    • 4.2.5 Threat of Substitute Products
  • 4.3 Type of Laser Sources Used on the Systems (Fiber, Disk, Diode, and CO2)

5 MARET DYNAMICS

  • 5.1 Market Drivers
  • 5.2 Market Challenged

6 MARKET SEGMENTATION - BY APPLICATION

  • 6.1 Cutting
  • 6.2 Welding
  • 6.3 Others (Cladding, Hardening, Cleaning and Ablation)

7 MARKET SEGMENTATION - BY GEOGRAPHY

  • 7.1 China
  • 7.2 Japan
  • 7.3 Europe
  • 7.4 North America
  • 7.5 Rest of the World

8 COMPETITIVE LANDSCAPE

  • 8.1 Company Profiles
    • 8.1.1 Prima Industrie S.p.A
    • 8.1.2 Han's Laser Technology Industry Group
    • 8.1.3 IP Photonics Corporation
    • 8.1.4 Bystronic Laser AG
    • 8.1.5 El.En. S.p.A
    • 8.1.6 Coherent Inc
    • 8.1.7 TRUMPF SE + Co. KG
    • 8.1.8 Preco Inc
    • 8.1.9 HSG Laser

9 INVESTMENT ANALYSIS

10 MARKET OPPORTUNITIES AND FUTURE TRENDS