Global Cleanliness Analysis System Market Research Report 2023-Competitive Analysis, Status and Outlook by Type, Downstream Industry, and Geography, Forecast to 2029

Global Cleanliness Analysis System Market Research Report 2023-Competitive Analysis, Status and Outlook by Type, Downstream Industry, and Geography, Forecast to 2029


Cleanliness Analysis System is an analysis system that can quickly identify, analyze and classify particles or impurities, and provide fast, accurate and reliable quantitative data support for customers' R&D and production. Suppliers and manufacturers of products such as automotive and electronics can ensure better product performance and longevity through efficient and reliable technical cleanliness by analyzing particle number, size and composition.

Market Overview:

The latest research study on the global Cleanliness Analysis System market finds that the global Cleanliness Analysis System market reached a value of USD 261.61 million in 2022. It’s expected that the market will achieve USD 410.02 million by 2028, exhibiting a CAGR of 7.78% during the forecast period.

Rising market demand for cleanliness measurement and analysis in the manufacture of automotive components

In recent years, the global automobile manufacturing industry has developed rapidly. According to the statistics of the International Automobile Manufacturers Association (OICA), in 2020, 49 countries around the world will produce a total of 77.6216 million vehicles in 2020. In 2021, the global automobile production situation will pick up, with a year-on-year increase of 3.13%, and the production of 80.146 million vehicles. As the epidemic is gradually brought under control, the production and sales of automobiles will continue to increase.

The important parts of automobiles mainly include engine components. In the automotive industry, foreign matter or residue (fine particle) contamination adhering to the material of auto parts, etc., reduces the strength and safety of products. Contaminants are the cause of failure of engine components. For example, in a cylinder liner of an engine block, a piston that repeatedly reciprocates with a gap (gap) of only a few μm relies on engine oil to maintain airtightness. When a very small amount of metal contamination adheres to the sides of the piston rings, due to repeated back-and-forth motions, the inner wall of the cylinder liner can scratch, resulting in engine failure. In addition, with the increase of vehicles equipped with large-capacity batteries such as EVs (electric vehicles), HEVs (hybrid electric vehicles), and PHEVs (plug-in hybrid vehicles), metal contamination of parts and materials that cause heat or fire in lithium-ion batteries things are getting more and more attention.

In the automotive industry, the measurement and analysis of contaminants and ensuring cleanliness are particularly important due to the life-threatening risks. At the same time, some international industrial standard measurement and analysis methods also manage the cleanliness of pollutant residues. For example, ISO16232/VDA19. Therefore, with the continuous development of the automobile manufacturing industry, the market demand for the Cleanliness Analysis System from automobile manufacturers continues to rise.

Cleanliness requirements in electronics industry drive industry growth

The electronics industry has become a national strategic development industry in countries all over the world and occupies an important position in the production of the national economy. In the electronics industry, the cleanliness of components is very important. Because small particles increase the risk of failure of components with high power density characteristics. Components such as printed circuit boards (PCBs) often have sub-micron-scale gaps and nano-scale features. For example, conductive particles can cause PCB shorts by creating a direct conductive path between two contacts or by shortening the distance between subjects and increasing the chance of dielectric breakdown. Therefore, in the electronics industry, Cleanliness Analysis System is widely used in the cleaning verification and inspection of PCB boards, particle detection after glass panel cleaning, verification of chip cleaning after photolithography, and so on.

With the rise of new technologies such as the Internet, big data, and artificial intelligence, and the acceleration of new infrastructure projects led by 5G, the electronic materials industry will continue to develop. In the future, the continuous development of the electronics industry will continue to drive the development of the Cleanliness Analysis System market.

Customer Resource Barriers

Cleanliness Analysis System is widely used in automotive, electronic industry and other fields. For many products in the automotive and electronics industries, components must be free of dust or unwanted particles at all stages of the production and assembly process. Particulate contamination is a cause of defects in components, reducing their performance and longevity. Industries such as the automotive and electronics industries will spend more money on cleanliness analysis during the manufacturing of components and products.

Therefore, customers in industries such as automobile and electronic industry usually have strong purchasing power. These customers have high requirements for equipment performance stability, data reliability and timeliness of after-sales maintenance. In order to achieve efficient and cost-effective cleanliness analysis, downstream customers generally tend to choose Cleanliness Analysis System suppliers with high brand awareness and good industry reputation, and are willing to pay a certain premium for reliable equipment performance and high-quality after-sales service. At the same time, due to the high technical requirements and professionalism of the products, customers pay attention to the continuity of subsequent equipment procurement and operation services. After selecting a certain manufacturer, they usually do not replace them at will. Therefore, participants in the industry must build a relatively complete marketing channel network and spend more costs to enter the supplier system of large customers.

Region Overview:

Geographically, Europe held the largest market share – 34.41% in 2022.

Company Overview:

Zeiss is one of the major players operating in the Cleanliness Analysis System market, holding a share of 33.36% in 2023.

Zeiss

ZEISS is a leading international technology company operating in the fields of optics and optoelectronics. ZEISS develops, produces and distributes highly innovative industrial metrology and quality assurance solutions for its customers, microscopy solutions for life sciences and materials research, and medical technology solutions for ophthalmology and microsurgery diagnosis and treatment.

Leica

Leica Microsystems is one of Danaher Corporation's many life sciences companies. Leica Microsystems develops and manufactures microscopes and scientific instruments for the analysis of micro and nanostructures. Recognized for its optical precision and innovative technologies, the company is one of the market leaders in compound and stereo microscopes, digital microscopes, confocal laser scanning and super-resolution microscopes and related imaging systems, electron microscope sample preparation and surgical microscopes one.

Segmentation Overview:

As for product types, the Light Scattering Analysis segment held the largest market share in 2022.

Gravimetric Inspection

This type refers to the Cleanliness Analysis System that adopts the principle of weight detection. Using the rinse solvent and filter, the amount of contamination on the part can be weighed to accurately calculate the amount of contamination remaining after the part's production cleaning.

Light Scattering Analysis

This type refers to the Cleanliness Analysis System using the principle of light scattering analysis. In addition to the presence or absence and number of pollutants, the size, particle size distribution, and particle properties (metals, fibers, etc.) of each particle can also be determined.

Application Overview:

In the Cleanliness Analysis System market, 46.23% of the total value was generated through the Automotive segment by application in 2022.

Key Companies in the global Cleanliness Analysis System market covered in Chapter 3:

Zeiss
Thermo Fisher Scientific
OLYMPUS
JOMESA
Dr.J Scientific
KEYENCE
Leica
Optimax

In Chapter 4 and Chapter 14.2, on the basis of types, the Cleanliness Analysis System market from 2018 to 2029 is primarily split into:

Gravimetric Inspection
Light Scattering Analysis

In Chapter 5 and Chapter 14.3, on the basis of Downstream Industry, the Cleanliness Analysis System market from 2018 to 2029 covers:

Automotive
Electronic
Others

Geographically, the detailed analysis of consumption, revenue, market share and growth rate, historic and forecast (2018-2029) of the following regions are covered in Chapter 8 to Chapter 14:

North America (United States, Canada)
Europe (Germany, UK, France, Italy, Spain, Russia, Netherlands, Turkey, Switzerland, Sweden)
Asia Pacific (China, Japan, South Korea, Australia, India, Indonesia, Philippines, Malaysia)
Latin America (Brazil, Mexico, Argentina)
Middle East & Africa (Saudi Arabia, UAE, Egypt, South Africa)


Chapter 1 Market Definition and Statistical Scope
Chapter 2 Research Findings and Conclusion
Chapter 3 Key Companies’ Profile
Chapter 4 Global Cleanliness Analysis System Market Segmented by Type
Chapter 5 Global Cleanliness Analysis System Market Segmented by Downstream Industry
Chapter 6 Cleanliness Analysis System Industry Chain Analysis
Chapter 7 The Development and Dynamics of Cleanliness Analysis System Market
Chapter 8 Global Cleanliness Analysis System Market Segmented by Geography
Chapter 9 North America
Chapter 10 Europe
Chapter 11 Asia Pacific
Chapter 12 Latin America
Chapter 13 Middle East & Africa
Chapter 14 Global Cleanliness Analysis System Market Forecast by Geography, Type, and Downstream Industry 2023-2029
Chapter 15 Appendix

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