The North America Eddy-current Testing Market is expected to witness market growth of 9.2% CAGR during the forecast period (2022-2028).
The abilities of an eddy current testing are influenced by a number of elements. Eddy currents passes through materials with higher conductivity values is expected to be more sensitive to surface flaws but it is expected to penetrate the material less deeply, with penetration also being affected by test frequency. Higher test frequencies improve near-surface resolution while limiting penetration depth, whereas lower test frequencies improve penetration depth. Because the magnetic field goes deeper into the test piece, larger coils inspect a larger volume of material from any given position, but smaller coils are more sensitive to small faults.
While the test material's conductivity and permeability are outside the operator's command, the test frequency, coil type, and coil size can all be chosen based on the test requirements. The probe type is expected to dictate resolution, while material and equipment features is expected to control detection capabilities. Some inspections need scanning through numerous frequencies to optimize results, or multiple probes to achieve the best resolution and penetration required to detect all probable faults. To enhance test performance, it's critical to choose the proper probe for each application.
Eddy's current probes and equipment are available in a range of combinations. For convenient transportation, eddy scopes and a resistivity tester are packaged in tiny, battery-operated systems. There are also computer-based solutions that allow for easy data manipulation in the laboratory. Trend removal, background subtraction, and noise reduction are all examples of signal processing software. In some cases, impedance analyzers are employed to improve quantitative eddy-current measurements. Multidimensional scanning capabilities are employed in some laboratories to create images of the scan zones. There are a few transportable scanning devices available for specific uses, such as scanning fuselage sections.
The US market dominated the North America Eddy-current Testing Market by Country in 2021, and is expected to continue to be a dominant market till 2028; thereby, achieving a market value of $461.6 million by 2028. The Canada market is estimated to grow at a CAGR of 11.7% during (2022 - 2028). Additionally, The Mexico market is expected to display a CAGR of 10.7% during (2022 - 2028).
Based on Service, the market is segmented into Inspection Services, Equipment Rental Services, Training Services, and Caliberation Services. Based on Technique, the market is segmented into Conventional Eddy Current Testing, Eddy Current Array, Alternating Current Field Measurement, Remote Field Testing, and Others. Based on Industry, the market is segmented into Manufacturing, Automotive, Power Generation, Government Infrastructure & Public Safety, Oil & Gas, and Others. Based on countries, the market is segmented into U.S., Mexico, Canada, and Rest of North America.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Olympus Corporation, Eddyfi Technologies, ETher NDE Ltd., Fidgeon Ltd., ibg NDT Systems Corporation, Magnetic Analysis Corporation, Mistras Group, Inc., TÜV Rheinland AG, Ashtead Group PLC, and Waygate Technologies.
The abilities of an eddy current testing are influenced by a number of elements. Eddy currents passes through materials with higher conductivity values is expected to be more sensitive to surface flaws but it is expected to penetrate the material less deeply, with penetration also being affected by test frequency. Higher test frequencies improve near-surface resolution while limiting penetration depth, whereas lower test frequencies improve penetration depth. Because the magnetic field goes deeper into the test piece, larger coils inspect a larger volume of material from any given position, but smaller coils are more sensitive to small faults.
While the test material's conductivity and permeability are outside the operator's command, the test frequency, coil type, and coil size can all be chosen based on the test requirements. The probe type is expected to dictate resolution, while material and equipment features is expected to control detection capabilities. Some inspections need scanning through numerous frequencies to optimize results, or multiple probes to achieve the best resolution and penetration required to detect all probable faults. To enhance test performance, it's critical to choose the proper probe for each application.
Eddy's current probes and equipment are available in a range of combinations. For convenient transportation, eddy scopes and a resistivity tester are packaged in tiny, battery-operated systems. There are also computer-based solutions that allow for easy data manipulation in the laboratory. Trend removal, background subtraction, and noise reduction are all examples of signal processing software. In some cases, impedance analyzers are employed to improve quantitative eddy-current measurements. Multidimensional scanning capabilities are employed in some laboratories to create images of the scan zones. There are a few transportable scanning devices available for specific uses, such as scanning fuselage sections.
The US market dominated the North America Eddy-current Testing Market by Country in 2021, and is expected to continue to be a dominant market till 2028; thereby, achieving a market value of $461.6 million by 2028. The Canada market is estimated to grow at a CAGR of 11.7% during (2022 - 2028). Additionally, The Mexico market is expected to display a CAGR of 10.7% during (2022 - 2028).
Based on Service, the market is segmented into Inspection Services, Equipment Rental Services, Training Services, and Caliberation Services. Based on Technique, the market is segmented into Conventional Eddy Current Testing, Eddy Current Array, Alternating Current Field Measurement, Remote Field Testing, and Others. Based on Industry, the market is segmented into Manufacturing, Automotive, Power Generation, Government Infrastructure & Public Safety, Oil & Gas, and Others. Based on countries, the market is segmented into U.S., Mexico, Canada, and Rest of North America.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Olympus Corporation, Eddyfi Technologies, ETher NDE Ltd., Fidgeon Ltd., ibg NDT Systems Corporation, Magnetic Analysis Corporation, Mistras Group, Inc., TÜV Rheinland AG, Ashtead Group PLC, and Waygate Technologies.
Scope of the Study
Market Segments Covered in the Report:
By Service
- Inspection Services
- Equipment Rental Services
- Training Services
- Caliberation Services
By Technique
- Conventional Eddy Current Testing
- Eddy Current Array
- Alternating Current Field Measurement
- Remote Field Testing
- Others
By Industry
- Manufacturing
- Automotive
- Power Generation
- Government Infrastructure & Public Safety
- Oil & Gas
- Others
By Country
- US
- Canada
- Mexico
- Rest of North America
Key Market Players
List of Companies Profiled in the Report:
- Olympus Corporation
- Eddyfi Technologies
- ETher NDE Ltd.
- Fidgeon Ltd.
- ibg NDT Systems Corporation
- Magnetic Analysis Corporation
- Mistras Group, Inc.
- TÜV Rheinland AG
- Ashtead Group PLC
- Waygate Technologies
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Table of Contents
Chapter 1. Market Scope & Methodology
Chapter 2. Market Overview
Chapter 4. North America Eddy-current Testing Market by Service
Chapter 5. North America Eddy-current Testing Market by Technique
Chapter 6. North America Eddy-current Testing Market by Industry
Chapter 7. North America Eddy-current Testing Market by Country
Chapter 8. Company Profiles
Companies Mentioned
- Olympus Corporation
- Eddyfi Technologies
- ETher NDE Ltd.
- Fidgeon Ltd.
- ibg NDT Systems Corporation
- Magnetic Analysis Corporation
- Mistras Group, Inc.
- TÜV Rheinland AG
- Ashtead Group PLC
- Waygate Technologies
Methodology
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