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市场调查报告书
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1403362
2030 年光纤雷射震动市场预测:按类型、应用和地区分類的全球分析Fiber Laser Doppler Vibrometer Market Forecasts to 2030 - Global Analysis By Type, Application and By Geography |
根据 Stratistics MRC 的数据,光纤雷射多普勒震动的全球市场预计在预测期内将以 4.0% 的复合年增长率成长。
光纤雷射多普勒震动是一种先进的光学测量设备,设计用于对錶面进行非接触式震动分析,通常透过光纤电缆将雷射光束射向表面来工作。此外,光纤传输系统可实现远端检测并提高弹性,提高多功能性,并允许在传统震动测量技术难以实现的位置进行测量。
使用 FLDV 技术进行高精度、非接触式震动测量的优越性正在得到业界的认可。教育和政府措施正在强调其在研究、汽车和航太领域的多样化应用。此外,随着研究的继续,它预计将获得更广泛的接受,特别是在寻求可靠和复杂的震动分析解决方案的行业中,从而显着扩大市场规模。
由于设计复杂且所需的零件复杂,製造流程成本高。与其他震动测量解决方案相比,FLDV 的市场需求较低,限制了规模经济,并使製造商难以透过大规模生产来降低成本。此外,由于高成本限制,潜在客户和市场参与企业面临重大障碍,这可能会阻碍普及并抑制市场扩张。
光纤技术的进步增强了 FLDV 的功能,并为震动分析提供了更灵活、更具适应性的解决方案。应用包括结构健康监测、材料测试和研究。纤维材料和设计的改进有助于提高灵敏度、改善讯号杂讯比和提高测量精度。此外,纤维技术随着不断创新而不断发展,为产业提供尖端的解决方案和精密震动测量,显着推动市场扩张。
由于缺乏全行业标准,因此很难一致地测量和比较不同 FLDV 系统的结果,这可能会导致效能指标、校准程序和资料解释之间存在差异。此外,标准化的缺乏可能导致缺乏一致性,使用户难以在不同仪器和实验室之间比较和重现结果。这种变化使最终用户的决策更加困难,并进一步限制了市场规模。
COVID-19大流行的主要影响是计划延迟、投资减少以及全球供应链中断。此外,金融不稳定影响了航太和汽车行业,特别是生产,导致计划延误和高科技设备市场下滑。此外,旅行限制使得安装和维护服务变得困难,影响了许多行业的 FLDV 采用,限制了市场扩张。
双光纤雷射多普勒震动(FLDV)领域估计占据最大的占有率,因为它具有两个光纤通道并且可以同时测量多个点。这种布置提高了空间分辨率,并能够在多个位置进行精确的同步震动分析。而且,其双通道能力满足了对更复杂和多功能解决方案日益增长的需求,在结构健康监测、品管和研究应用方面提供了卓越的性能,逐渐推动了市场的扩展。
预计汽车领域在预测期内复合年增长率最高。它们被广泛用于研究和开发,因为它们有助于提高车辆的整体性能、消除不必要的震动并优化车辆设计。车辆零件可进行高精度、非接触式震动测量,轻鬆评估乘坐舒适度和噪音水平。此外,随着汽车产业注重创新和性能,FLDV已成为汽车产业开发和品质保证过程中的宝贵工具,逐渐扩大了市场规模。
由于工业化的扩大、技术的进步以及研发投资的增加,亚太地区在预测期内获得了最大的市场占有率。政府和行业相关人员正在策略性地合作,以促进创新并加速采用尖端震动测量解决方案。此外,高精度感测器被政府用于研发、建筑物、桥樑和铁路的结构完整性,显着促进了市场扩张。
预计欧洲在预测期内的复合年增长率最高。目前的技术发展正在提高测量能力、整合复杂的讯号处理演算法以及增强 FLDV 性能。欧洲研究和学术机构利用这些仪器进行材料科学、结构动态和机械工程的研究。该地区是 Santec Corporation、Keysight Technologies、Polytec GmbH 和 Brimrose Corporation 等主要企业的所在地,这些参与者正在推动市场规模的发展。
According to Stratistics MRC, the Global Fiber Laser Doppler Vibrometer Market is growing at a CAGR of 4.0% during the forecast period. It is defined as an advanced optical measurement device designed for non-contact vibration analysis of surfaces which works by directing a laser beam toward the surface, usually through a fiber-optic cable. In addition, remote measurements and increased flexibility are made possible by the fiber-optic delivery system which enhances versatility and allows for measurements in locations where conventional vibration measurement techniques may be difficult to implement.
The industry is becoming more aware of the advantages of high-precision, non-contact vibration measurement as FLDV technologies. Diverse applications in research, automotive, and aerospace are highlighted by educational and government initiatives. In addition, they are expected to become more widely accepted as long as researchers persist, especially in industries looking for dependable and sophisticated vibration analysis solutions which significantly propel market size.
The manufacturing processes are costly due to the complex design and sophisticated components needed. Economies of scale are restricted by the smaller market demand for FLDVs relative to other vibration measurement solutions, which makes it difficult for manufacturers to lower costs through mass production. Furthermore, potential customers and industry participants face a big obstacle because of the high cost constraint, which can prevent widespread adoption and impede market expansion.
Advancements in fiber optics enhance the capabilities of FLDVs, enabling more flexible and adaptable solutions for vibration analysis. Structural health monitoring, material testing, and research are some of the applications included. Improved fiber materials and designs contribute to higher sensitivity, increased signal-to-noise ratios, and enhanced measurement accuracy. In addition, as fiber technology continues to evolve with ongoing innovations, offering industries cutting-edge solutions and precise vibration measurements will significantly boost market expansion.
The lack of industry-wide standards makes it difficult to measure and compare the outcomes of various FLDV systems consistently, which can result in variations in performance metrics, calibration procedures, and data interpretation. Additionally, this lack of standardization may lead to inconsistencies, making it challenging for users to compare and replicate results across different instruments or laboratories. This variability makes it more difficult for end users to make a decision, which further hinder market's size.
Project delays, lower investments, and disruptions in global supply chains were the main effects of the COVID-19 pandemic. Additionally, financial uncertainty affected the aerospace and automotive industries, in particular production, which resulted in project delays and a decline in the market for high-tech equipment. Furthermore, restrictions on travel made installation and maintenance services more difficult, which had an impact on the adoption of FLDVs across a number of industries which restrict the market expansion.
The dual fiber laser doppler vibrometer (FLDV) segment is estimated to hold the largest share, because it consists of devices that have two fiber-optic channels for simultaneous measurement at various points. This arrangement improves spatial resolution and enables accurate simultaneous vibration analysis at several locations. Moreover, its dual-channel capability offers superior performance in structural health monitoring, quality control, and research applications in response to the growing need for more sophisticated and versatile solutions, gradually propelling market expansion.
The automobile segment is anticipated to have highest CAGR during the forecast period. These are widely used in research and development because they help in improving overall automotive performance, source of undesired vibrations, and optimize vehicle design. It offers high-precision, non-contact vibration measurement of vehicle components, facilitating the evaluation of ride comfort and noise level. Additionally, the industry's focus on innovation and performance, making FLDVs valuable tools in the development and quality assurance processes within the automotive sector, which gradually drives market size.
Asia Pacific commanded the largest market share during the extrapolated period owing to expanding industrialization, technological advancements, and increased investments in research and development. Governments and industry players are working together strategically to promote innovations and accelerate the adoption of cutting-edge vibration measurement solutions. In addition, high-precision sensors are used by governments for R&D, structural integrity of buildings, bridges, and railroads, significantly boosting the market expansion.
Europe is expected to witness highest CAGR over the projection period. The current technological developments are to increase measurement capabilities, integrate complex signal processing algorithms, and enhance FLDV performance. Research and academic institutions in Europe are utilizing these instruments for studies in materials science, structural dynamics, and mechanical engineering. This region is home to major key players, including Santec Corporation, Keysight Technologies, Polytec GmbH, and Brimrose Corporation, which are driving the market size.
Some of the key players in the Fiber Laser Doppler Vibrometer Market include Sunny Optical Technology, OptoMet GmbH, NeoPhotonics Corporation, Renishaw plc, Holobright, Xonox Technology Inc., Keyence Corporation, Polytec GmbH and Hokuyo Automatic Co., Ltd.
In March 2023, Renishaw introduced fluorescence lifetime imaging microscopy (FLIM) functionality to its inVia™ confocal Raman microscope. In partnership with Becker & Hickl GmbH, the pioneers in time-correlated single photon counting (TCSPC), the system combines both Raman and FLIM in a single instrument.
In March 2023, Keyence has launched its high-precision LM-X multisensor measuring solution offering optical, laser, and touch-probe measurements in a single compact unit.
In September 2021, Sunny Optical Technology Group Company Limited, and Valens Semiconductor announced that they have partnered to integrate MIPI A-PHY-compliant chipsets into next-generation camera modules.