市场调查报告书
商品编码
1438243
到 2030 年视觉检查显微镜的全球市场预测:按类型、放大倍率、照明源、应用、最终用户和地区进行分析Visual Inspection Microscope Market Forecasts to 2030 - Global Analysis By Type, Magnification, Illumination Source, Application, End User and by Geography |
根据 Stratistics MRC 的数据,2023 年全球视觉检测显微镜市场规模为 12.9 亿美元,预计在预测期内复合年增长率为 7.8%,到 2030 年将达到 21.9 亿美元。
用于仔细检查和分析小物体和微小细节的专用光学工具称为目视检查显微镜。这款功能强大的仪器使用一流的镜头和照明系统来提供清晰度和放大倍率,使用户能够在微观层面上检查物体。此外,它还可以被电子、材料科学、生物学和品管等各个领域的专业人员用来发现缺陷、评估材料品质并进行准确的检查。
根据国际显微镜学会的说法,成像技术的进步大大提高了视觉检查显微镜的功能,可以在各种科学和工业应用中进行更详细和准确的分析。
对准确品质保证的需求日益增长
视觉检查显微镜市场的主要驱动因素是电子、医疗保健和材料科学等各行业对产品品质和可靠性的日益关注。随着世界各地製造标准的收紧,公司越来越依赖视觉检查显微镜来发现和纠正微观缺陷。这种需求在半导体製造等行业尤其强烈,在这些行业中,精度对于满足和超越严格的品质标准至关重要。
有限的视野和景深
景深和视野狭窄是目视检查显微镜的通用问题。然而,光学系统的固有限制仍然是一个挑战,特别是对于需要同时观察大面积或3D结构的应用。此外,为了寻求更广阔的视野,研究人员和製造商可能需要研究不同的显像模式或将互补技术与视觉检查显微镜结合。
奈米科技的快速发展
奈米技术的快速发展为视觉检测显微镜市场创造了巨大的机会。由于许多研究人员进行奈米级研究,他们需要具有以前难以想像的分辨率和精度的显微镜。此外,具有复杂奈米级影像处理能力的视觉检查显微镜的使用将极大地促进材料科学、奈米科学和相关领域的进步。
竞争替代技术
对于特定应用具有特殊优势的替代技术可与视觉检查显微镜竞争,例如原子力显微镜 (AFM) 和扫描电子显微镜 (SEM)。此外,这些替代技术可能会取代视觉检查显微镜,特别是在特定成像模式或高放大倍率不可或缺的领域。为了保持市场占有率,製造商必须表现出创造力和弹性。
COVID-19 大流行扰乱了製造、供应链和研究活动,对视觉检查显微镜市场产生了重大影响。为阻止病毒传播而采取的限制措施以及全球经济的不可预测性正在导致工业界削减资本支出、重新确定研究优先顺序并推迟计划完成。此外,虽然医疗保健和製药行业对用于病毒相关研究和诊断的目视检查显微镜的需求仍然强劲,但整个市场正遭受供应链中断、远端工作限制、产品开发和我们面临的挑战。造成的困难。
光学显微镜市场预计将在预测期内成为最大的市场
占据视觉检查显微镜市场最大份额的部分是光学显微镜。光学显微镜有双眼和三目两种类型,使用可见光进行观察和放大。正常的实验工作是使用双眼显微镜完成的,但三目显微镜具有附加功能,例如用于记录的相机附件。此外,它还因其在提供高解析度成像方面的多功能性以及在广泛的科学和工业应用中的易用性而受到重视,使其成为市场的主导者。
预计製造业和工业领域在预测期内复合年增长率最高
预计製造业和工业部门的复合年增长率最高。随着行业优先考虑製造过程中的品管和精度,对先进视觉检测显微镜的需求不断增加。这些显微镜对于发现缺陷、确保产品完整性和维持严格的生产标准至关重要。此外,与自动化和数位技术的整合进一步提高了工业环境中视觉检测显微镜的效率和精度。
亚太地区所占份额最大。该地区的主导地位是韩国、日本和中国等国家强大的工业化和快速技术发展的结果。製造业的成长推动了对高精度视觉检测显微镜的需求,特别是在电子和汽车行业。此外,由于各领域研发投入的增加,新兴经济体的影响力进一步增强。
目视检查显微镜的销售预计将在北美具有最高的复合年增长率。该地区的成长得益于蓬勃发展的医疗保健和生命科学产业、先进製造业的强大影响力以及对研发的大量投资。此外,北美对技术创新的持续关注和对高精度检测工具的强烈需求推动了视觉检测显微镜的使用增加。
According to Stratistics MRC, the Global Visual Inspection Microscope Market is accounted for $1.29 billion in 2023 and is expected to reach $2.19 billion by 2030 growing at a CAGR of 7.8% during the forecast period. A specialized optical tool for closely examining and analyzing small objects or minute details is called a visual inspection microscope. This potent instrument uses top-notch lenses and lighting systems to provide clarity and magnification, allowing users to examine objects at the microscopic level. Moreover, professionals can use it to find flaws, evaluate the quality of materials, and carry out exact inspections in a variety of fields, such as electronics, materials science, biology, and quality control.
According to the International Association of Microscopists, the advancements in imaging technology have significantly enhanced the capabilities of visual inspection microscopes, allowing for more detailed and accurate analysis in various scientific and industrial applications.
Growing need for accurate quality assurance
The primary driver of the visual inspection microscope market is the increasing focus on product quality and reliability in various industries, including electronics, healthcare, and materials science. Businesses are depending more and more on visual inspection microscopes to find and fix microscopic flaws as global manufacturing standards get stricter. Additionally, in industries like semiconductor manufacturing, where accuracy is essential to meet or surpass strict quality standards, this demand is especially strong.
Limited field of view and depth of field
Limitations in depth of field and field of view are common for visual inspection microscopes. Improvements in these aspects have been made; however, the intrinsic limitations of optical systems may still pose challenges for some applications, particularly those that demand simultaneous observation of larger areas or three-dimensional structures. Furthermore, to seek wider views, researchers and manufacturers might have to investigate different imaging modalities or pair up complementary technologies with visual inspection microscopes.
Rapid developments in nanotechnology
Rapid developments in nanotechnology present the visual inspection microscope market with a strong opportunity. A growing number of researchers are in need of microscopes with previously unheard-of levels of resolution and precision as they work at the nanoscale. Moreover, advancements in materials science, nanoscience, and related fields will be greatly aided by the use of visual inspection microscopes with sophisticated nanoscale imaging capabilities.
Alternative technologies competition
Alternative technologies, like atomic force microscopes (AFM) and scanning electron microscopes (SEM), which have special advantages in particular applications, compete with visual inspection microscopes. Additionally, the danger comes from these alternatives potential to replace visual inspection microscopes, especially in fields where certain imaging modes or higher magnification are essential. To keep their market share, manufacturers must be creative and flexible.
Manufacturing, supply chains, and research activities have all been disrupted by the COVID-19 pandemic, which has had a substantial effect on the market for visual inspection microscopes. Due to the limitations put in place to stop the virus's spread, as well as the unpredictability of the state of the world economy, industries have lowered their capital expenditures, changed their research priorities, and delayed project completion dates. Furthermore, the healthcare and pharmaceutical industries continue to have a strong need for visual inspection microscopes for virus-related research and diagnostics, but the market as a whole has faced difficulties due to supply chain interruptions, limitations on remote work, and a brief lull in product development and innovation.
The Optical Microscope segment is expected to be the largest during the forecast period
The segment that commands the largest share of the market for visual inspection microscopes is optical microscopes. Both binocular and trinocular versions of these microscopes use visible light for observation and magnification. Normal laboratory tasks are typically performed with binocular microscopes, but trinocular microscopes have additional features like camera attachments for documentation. Moreover, their versatility in offering high-resolution imaging and ease of use across a wide range of scientific and industrial applications is credited with their market dominance.
The Manufacturing and Industrial Sector segment is expected to have the highest CAGR during the forecast period
The manufacturing and industrial sectors are projected to have the highest CAGR. The need for advanced visual inspection microscopes is rising as industries prioritize quality control and precision in their manufacturing processes. These microscopes are essential for spotting flaws, guaranteeing the integrity of the product, and upholding strict production standards. Additionally, the efficiency and accuracy of visual inspection microscopes in industrial settings are further enhanced by their integration with automation and digital technologies.
The Asia-Pacific area holds the largest share. The region's dominance is a result of strong industrialization and quick technical development in nations like South Korea, Japan, and China. The need for high-precision visual inspection microscopes has been fueled by the growing manufacturing sector, especially in the electronics and automotive sectors. Furthermore, the prominence of emerging economies is further enhanced by the increasing investments made in research and development in a variety of fields.
Visual Inspection Microscope sales are expected to grow at the highest CAGR in North America. The region's growth is being propelled by a thriving healthcare and life sciences sector, a strong presence of advanced manufacturing industries, and significant investments in research and development. Moreover, the increased use of visual inspection microscopes in North America is partly due to the ongoing focus on technological innovation and the robust demand for high-precision inspection tools.
Key players in the market
Some of the key players in Visual Inspection Microscope market include Leica Microsystems, Nikon Instruments, Olympus Corporation, Zeiss Group, Keyence Corporation, Thermo Fisher Scientific Inc, Hitachi High-Tech Corporation, JEOL Ltd, Bruker Corporation and Motic Instruments Inc.
In January 2024, Leica Microsystems has launched an evolved version of its ARveo 8 digital visualisation microscope for neurosurgery. The ever-growing ecosystem, ARveo 8, enhances surgical visualisation through the application of a 3D view and augmented reality (AR) fluorescence, as stated in a press release. For brain-tumour surgery, the company's new GLOW400 3D AR fluorescence helps surgeons to achieve a new level of clinical value creation, with clear visualisation of both anatomical structures and a wide range of fluorescence information.
In November 2023, Nikon Selects Aeva in Multi-year Production Agreement to Power Next Generation of High Precision Industrial Metrology Inspection Products. Aeva, a leader in next-generation sensing and perception systems, announced a production win with Nikon Corporation, a pioneer in optical technology markets and a global manufacturer and supplier of metrology and inspection equipment for the industrial automation and metrology markets. Under the agreement, Aeva will supply Nikon with its micron-precise LiDAR-on-Chip technology to power Nikon's products for industrial metrology and quality control.
In March 2023, Olympus Corporation has reached an agreement to acquire Taewoong Medical Co, Ltd, a Korean company that produces medical devices, including metallic stents for gastrointestinal (GI) use. As per the deal, Taewoong Medical Co, Ltd will be paid about $370 million in cash, out of which $255.5 million will be paid during the closing, and an additional amount of up to $114.5 million will be paid based on the accomplishment of future milestones.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.