雷射打標：市場佔有率分析、產業趨勢與統計、成長預測（2024-2029）

Laser Marking - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2024 - 2029)

出版日期: 2024年02月15日 | 出版商:

Mordor Intelligence | 英文 123 Pages | 商品交期: 2-3個工作天內

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簡介目錄

預計2024年雷射打標市場規模為39.1億美元，預計到2029年將達到51.8億美元，在預測期內（2024-2029年）年複合成長率為5.80%成長。

雷射打標經常用於增強設備製造中的可追溯性、品管和製程改進。透過在生產線開始時為每個組件分配一個 ID，條碼讀取器可以在每個製造步驟中追蹤零件。

主要亮點

傳統的雷射打標機和整合機器通常僅限於平坦的視野，並且可以透過在打標過程中旋轉和移動物體來調整以適應傾斜或圓柱形表面。然而，隨著製造業的發展，包括形狀更複雜的字母，雷射打標機正在被整合到編程機器人和先進的五軸機器中。
雷射打標是一種用途廣泛的技術，應用於多種行業。可以透過雷射蝕刻、雕刻或退火在多個表面上建立永久標記。這項卓越的技術廣泛應用於醫療保健、製藥、汽車、電子、工具機和包裝領域。
該市場受到各行業使用範圍擴大以及研發投資增加的影響，從而提高了雷射打標機的性能。雷射打標經常用於幫助設備製造過程中的可追溯性、品管和製程增強。持續的研究和創新對於開發環保的雷射打標流程並確保卓越的營運和環境完整性至關重要。這為永續市場成長鋪平了道路。維持市場競爭力的關鍵是增加研發投入並創造創新產品。
對於預算緊張的小型企業和新興企業來說，高昂的初始投資可能是一個挑戰。雷射打標機的初始成本可能很高，具體取決於雷射放置、所需功率、打標區域大小和附加功能等因素。因此，較高的初始成本可能會阻礙市場擴張。
包括冠狀病毒感染疾病（COVID-19）在內的各種宏觀經濟因素對全球雷射打標市場產生了負面影響。世界各地實施的嚴格封鎖措施擾亂了供應鏈。先前對設備機械需求旺盛的美國、德國、英國、中國等主要製造國，受疫情影響較大，此類產品市場陷入停滯。作為病毒遏制工作的一部分，公司允許非必要員工遠距工作，美國製造業蓬勃發展。中國面臨成長放緩，亞洲市場停滯不前，政府在最新五年計畫中瞄準的西方市場則因疫情捲土重來而舉步維艱。

雷射打標市場趨勢

工具機成為最大終端用戶

汽車零件雷射打標是一種靈活且永久的工藝，有助於在製造過程中和製造後追蹤和識別零件。以高精度和細節標記文字、徽標和其他圖像。在汽車領域，零件必須完全可追溯，不僅出於安全原因，而且出於技術原因。汽車製造商在其車輛上使用獨特的資料矩陣代碼和字母數字雕刻，防偽且易於讀取。雷射打標機可用於將這些重要代碼永久刻在幾乎任何材料上，無論部件是由塑膠還是金屬製成。
許多汽車零件由塑膠、輕金屬和鋼製成，並帶有可追溯性和品管標記。這些標記必須持久耐用，並能持續車輛或零件的使用壽命，即使暴露在高溫和油氣流體中也是如此。因此，汽車零件雷射打標可以在汽車製造中使用的大多數材料上提供持久的標記。
此外，雷射打標應用起來既簡單又快捷，使其成為大批量生產中經濟高效的解決方案，使組件故障更易於管理並減少出錯的機會。
雷射打標在汽車產業具有眾多優勢，包括耐用、防偽、高精度、速度快和高對比度。汽車製造商正在開發雷射技術作為標記組件的理想方式。雷射打標還可以抵抗熱應力以及酸、汽油、油和熱的影響，從而永久保證每個組件在品質方面的最大可追溯性。雷射打標由於其易用性和高速度也具有經濟效益。
此外，中階收入的增加和龐大的人口正在創造全球汽車需求並支持市場成長。 IBEF稱，印度汽車工業的目標是從2016年到2026年將汽車出口量增加五倍。 2022年印度汽車出口總量為5,617,246輛。
多家汽車製造商正致力於擴大製造能力，以滿足不斷成長的需求，並支持市場成長。例如，2023年10月，現代汽車與公共投資基金（PIF）宣布簽署合資協議，在沙烏地阿拉伯建造高度自動化的汽車製造工廠。

亞太地區預計將出現顯著成長

亞太地區包括多個製造業成長強勁的新興國家。該地區的新興國家，如中國、印度、韓國、台灣和越南，吸引了其他地區或國家的多家公司將其低技能和中等技能生產設施遷移到這些新興國家。較低的成本使該地區成為世界的製造地。
此外，這些國家的政府正在採取措施改善該地區的外國投資狀況。例如，印度政府最近發起了一項名為「印度製造」的計劃，旨在鼓勵企業在印度開設工廠並對製造業進行一定的投資。此外，中國政府也推出了進一步發展中國製造業的國家戰略規劃「中國製造2025」。
此外，該地區的製造業支出大幅增加，預計在未來許多年將繼續以合理的成長率成長。刺激該地區雷射打標解決方案需求的主要因素是生產支出的快速增加和新技術的採用。此外，一些已開發國家的製造業也為雷射打標市場提供了巨大的成長機會。
雷射打標技術因其成本效益、可靠性和產品獨特性而被廣泛應用於工業領域。一些公司，特別是醫療和國防領域的公司，已經引入了通訊協定來永久標記各種產品，以追蹤其來源、身份證明或文件用途。此外，航空和汽車產業也擴大採用這項技術。汽車公司利用這項技術在輪胎上列印序號，而無需改變輪胎的形狀。與傳統雕刻機相比，雷射打標被認為是一種有用的選擇，因為它更耐用，並且可以區分不同的飛機部件。
雷射打標設備廣泛應用於電子設備。製造許多電子和半導體產品，因此需要進行自動打標和雕刻流程。通常使用打標機在組件上打上各種資訊。

雷射打標行業概況

雷射打標市場被 Coherent Inc.、IPG Photonics Corporation、TRUMPF Group、Mecco Partners LLC 和 Gravotech Group 等主要公司瓜分。市場參與者正在採取合作夥伴關係和收購等策略來增強其產品供應並獲得永續的競爭優勢。

2023 年 9 月 - Videojet Technologies Inc. 宣布將在 2023 年包裝博覽會上展示標記、噴碼和印刷領域的工業 4.0 創新。該公司推出了新型 Videojet 3350 和 Videojet 3350 Smart Focus 雷射打標系統，旨在打標精確而複雜的程式碼。為食品、飲料、化妝品、藥品等行業提供高速支援。這兩個系統都為其他行業提供幾乎無限的字體、程式碼和圖形選項。
2023 年 6 月 - 相干公司宣布推出 PowerLine PS 30 皮秒雷射打標機，用於醫療設備製造中的耐腐蝕黑色打標和精密微加工。憑藉其高平均功率輸出，PowerLine PS 30 可快速完成黑色打標和微加工任務，顯著提高生產效率和擁有成本，同時保持極高的可靠性。

其他福利

Excel 格式的市場預測 (ME) 表
3 個月分析師支持

Key Highlights

Traditional laser markers and integrated machines have typically been restricted to a flat planar field of view, which may be adjusted for inclined planes or cylindrical surfaces by rotating and moving the object during marking. However, as manufacturing has evolved to include more complex-shaped characters, laser markers have been integrated into programmed robotics or advanced 5-axis machines.
Laser marking is an incredibly versatile technology used across various industries. It can create permanent marks on multiple surfaces through laser etching, engraving, or annealing. This remarkable technology is applied in healthcare and pharmaceuticals, automotive, electronics, machine tools, and packaging sectors.
The market is influenced by the expanding usage in different industries and the rise in investment in research and development, which results in improved functionality of laser markers. Laser marking is frequently employed to aid in traceability, quality control, and process enhancement during the manufacturing process of equipment. Continuing research and innovation will be crucial in developing laser marking processes that are environmentally responsible, guaranteeing both operational excellence and ecological integrity. This will pave the way for sustainable market growth. The key to remaining competitive in the market is increasing investment in research and development and creating innovative products.
The high initial investment can challenge small businesses or startups operating on limited budgets. Laser marking machines can entail a notable upfront expense, which can differ based on factors such as laser placement, power needs, marking area size, and additional functionalities. Consequently, the elevated initial cost may impede the expansion of the market.
Various macroeconomic factors, including COVID-19, adversely impacted the global laser marking market. The strict lockdown measures implemented worldwide caused disruptions in the supply chain. Leading manufacturing countries like the United States, Germany, the United Kingdom, and China, which previously showed significant demand for equipment and machinery, were heavily affected by the pandemic, leading to a suspension in the market for such products. The manufacturing sector in the United States thrived because companies allowed nonessential employees to work remotely as part of their virus containment measures. China faced a slowdown in growth, while Asian markets paused, and the Western market, which the government had targeted in their recent five-year plan, struggled with a resurgence of the pandemic.

Laser Marking Market Trends

Machine Tools to be the Largest End User

Laser marking automotive parts is a flexible and permanent process that helps track and identify parts during and even after manufacturing. It marks text, logos, or other images with great precision and detail. In the automobile sector, components need to be fully traceable, not only for safety reasons but also for technical reasons. Automobile manufacturers use unique, forgery-proof, and easy-to-read data matrix codes and alphanumeric inscriptions in the vehicles. The laser markers are used to immortalize these important codes on almost any material, regardless of whether the components are made from plastic or metal.
Many auto parts and components are made from plastics, light metals, and steel and are marked for traceability and quality control. These markings must be durable and last the car's or part's life, even when exposed to high temperatures and fluids such as oil and gas. Thus, laser marking of automotive parts offers lasting marks over time on most materials used in car manufacturing.
Moreover, laser markings can be applied easily and quickly, making them a cost-effective solution for mass production, making it easier to manage component malfunctions, and lowering the possibility of errors.
Laser marking in the automotive industry offers numerous benefits, such as durability, protection against forgery, maximum precision, speed, and high contrast. Automobile manufacturers make laser technology the ideal method for labeling components. Since laser marking is also resistant to thermal stress and exposure to acids, gasoline, oils, and heat, maximum traceability is permanently guaranteed for each component in terms of quality. Laser marking is also economically beneficial thanks to its ease of use and high speed.
Moreover, the rising middle-class income and a huge population create global demand for automobiles, thus supporting market growth. According to IBEF, the Indian auto industry aims to increase car exports five times from 2016 to 2026. The total number of automobile exports from India in FY2022 was 5,617,246 units.
Several automobile manufacturers focus on expanding their manufacturing capacity to meet the growing demand, thus supporting market growth. For instance, in October 2023, the Hyundai Motor Company and the Public Investment Fund (PIF) announced the signing of a joint venture agreement to construct a highly automated vehicle manufacturing plant in Saudi Arabia.

Asia-Pacific Expected to Witness Significant Growth

The Asia-Pacific includes several developing countries with strong growth in their manufacturing sectors. The developing countries in the region, such as China, India, South Korea, Taiwan, and Vietnam, attract several businesses from other areas or countries to relocate their low-skilled and medium-skilled production facilities to these developing countries, which are working at lower costs, the region has become a global manufacturing hub.
Furthermore, development to improve the foreign investment situation in the region has been made by the governments of these countries. For instance, the Indian government has recently launched an initiative called 'Make in India' aimed at promoting enterprises to set up shop in India and encouraging their specific investments into manufacturing. In addition, the Chinese Government has introduced a National Strategic Plan for Further Development of the Chinese Manufacturing Sector called 'Made in China 2025'.
Moreover, manufacturing spending in the region has increased significantly and is expected to continue rising at a reasonable growth rate over the years. The key factors stimulating demand for laser marking solutions in that region are this sharp increase in production expenditures and the adoption of new technologies. In addition, it is characterized by several advanced countries whose manufacturing sectors have given rise to a significant growth opportunity for laser marking markets.
Given its cost-effectiveness, reliability, and product uniqueness, laser marking technology is generally adopted across a wide range of industrial sectors. Several companies, especially in the health and defense sectors, are implementing protocols for permanently marking a wide range of products to trace their provenance, evidence of identity, or documentation purposes. Moreover, the aviation and automotive sectors are increasingly adopting this technology. Automobile companies use this technology to print serial numbers on tires without changing shape. It is believed that laser marking has been a helpful option in comparison to traditional engravers due to its high durability and the ability to distinguish many different aircraft parts.
The use of laser marking equipment in electronic devices is extensive. Many electronics and semiconductor products are manufactured, making it necessary to perform an automatic marking and engraving process. The components are usually marked with various information engraved on the marking machines.

Laser Marking Industry Overview

The laser marking market is fragmented, with the presence of major players like Coherent Inc., IPG Photonics Corporation, TRUMPF Group, Mecco Partners LLC, and Gravotech Group. Players in the market are adopting strategies such as partnerships and acquisitions to enhance their product offerings and gain sustainable competitive advantage.

September 2023 - Videojet Technologies Inc. announced that it would showcase Industry 4.0 innovations in marking, coding, and printing at Pack Expo 2023. The company introduced the new Videojet 3350 and Videojet 3350 Smart Focus laser marking systems, designed to mark precise, complex codes at high speed for the food, beverage, cosmetics, pharmaceutical, and other industries. Both systems offer virtually unlimited font, code, and graphics options in other industries.
June 2023 - Coherent Corporation announced the launch of the PowerLine PS 30 picosecond laser marking machine for corrosion-resistant black marking and precision micromachining in medical device manufacturing. The PowerLine PS 30, with its high average power, quickly completes black marking and micro-machining tasks, significantly improving production productivity and cost of ownership while maintaining very high reliability.

Additional Benefits:

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

1 INTRODUCTION

1.1 Study Assumptions and 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 - Porters Five Forces Analysis
- 4.2.1 Bargaining Power of Suppliers
- 4.2.2 Bargaining Power of Buyers
- 4.2.3 Threat of New Entrants
- 4.2.4 Threat of Substitutes
- 4.2.5 Degree of Competition
4.3 Impact of Macro Trends on the Market

5 MARKET DYNAMICS

5.1 Market Drivers
- 5.1.1 Increasing Applications in Various End-User Industries
- 5.1.2 Increased Investment in R&D leading to better Functionality
5.2 Market Challenges
- 5.2.1 High Cost of Deployment

6 MARKET SEGMENTATION

6.1 By Equipment
- 6.1.1 Fiber Laser
- 6.1.2 CO2 Laser
- 6.1.3 Solid State Laser
- 6.1.4 Other Equipment
6.2 By Offering
- 6.2.1 Hardware
- 6.2.2 Software
6.3 By End-user Industry
- 6.3.1 Healthcare
- 6.3.2 Automotive
- 6.3.3 Electronics
- 6.3.4 Machine Tools
- 6.3.5 Packaging
- 6.3.6 Other End-User Industries
6.4 By Geography
- 6.4.1 North America
- 6.4.2 Europe
- 6.4.3 Asia-Pacific
- 6.4.4 Rest of the World

7 COMPETITIVE LANDSCAPE

7.1 Company Profiles
- 7.1.1 Coherent Corporation
- 7.1.2 IPG Photonics Corporation
- 7.1.3 TRUMPF Group
- 7.1.4 Mecco Partners LLC
- 7.1.5 Gravotech Group
- 7.1.6 Keyence Corporation
- 7.1.7 Novanta Inc.
- 7.1.8 Epilog Corporation
- 7.1.9 Videojet Technologies Inc
- 7.1.10 Han's Laser Group