Gear Measuring Machine Industry Analysis in North America
Study on Gear Measuring Machines in North America by <300 mm, 300 to 600 mm, 601 to 900 mm, 901 to 1,200 mm, and Above 1,200 mm Working Diameter from 2024 to 2034
Analysis of Gear Measuring Machines Covering Countries Including Analysis of United States, Canada
Gear Measuring Machine Sales Outlook for North America (2024 to 2034)
Sales of gear measuring machines in North America are estimated at US$ 51.7 million in 2024 and are projected to rise at a CAGR of 2.7% to reach US$ 61.48 million by the end of 2034.
A gear measuring machine is a specialized piece of equipment designed to assess and quantify the characteristics and dimensions of gears. These machines play a crucial role in quality control and ensuring the precision of gears used in various applications, including automotive, aerospace, machinery, and more.
Gear measuring machines determine the accurate dimensions of gears, including tooth size, pitch, diameter, and other critical parameters. These machines assess the geometry of gear teeth, such as profile, helix angle, and tooth spacing, ensuring they conform to specified standards and tolerances.
Many modern gear measuring machines are equipped with automation features, allowing for efficient and rapid measurement of multiple gears in a production environment. These machines are essential for industries such as automation, construction, aviation, and mining where precise and high-quality gears are critical for the performance and reliability of machinery and equipment.
Large gears with diameters above 1,200 mm are commonly used in heavy industrial applications, such as mining, construction, and energy production. These sectors rely on large gears to handle the substantial loads and power transmission requirements of their machinery. Gear machines with capacities above 1,200 mm are essential for manufacturing gears suitable for such heavy-duty applications.
Gears are integral components in various power transmission systems, such as those used in wind turbines, hydroelectric plants, and other large-scale energy installations. The gears employed in these systems are often oversized, necessitating the use of gear machines capable of handling larger diameters.
Fact.MR, a market research and competitive intelligence provider, estimates that the demand for gear measuring machines with a workpiece diameter of above 1,200 mm is projected to increase at a CAGR of 3% and reach a market value of US$ 24.32 million by 2034.
Report Attributes | Details |
---|---|
Gear Measuring Machine Sales in North America (2024E) | US$ 51.7 Million |
Forecasted Sales (2034F) | US$ 61.48 Billion |
Demand Growth (2024 to 2034) | 2.7% CAGR |
901 to 1,200 mm Work Diameter Gear Measuring Machine Sales (2024E) | US$ 9.5 Million |
Aviation Gear Measuring Machine Sales (2024E) | US$ 4.3 Million |
Construction & Mining Gear Measuring Machine Demand Growth (2024 to 2034) | 2% CAGR |
Key Companies Profiled |
|
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What’s Driving Steady Demand for Gear Measuring Machines in North America?
“Precision Gear Measuring Machines Maintaining Integrity of Automotive and Aerospace Gears”
Continuous growth in the automotive and aerospace industries in North America is a significant driver of the demand for precise and high-quality gears. In these industries, gears play a crucial role in various applications, including engines, transmissions, drivetrain systems, and aerospace propulsion systems.
The North American automotive industry is constantly evolving, with a focus on improving vehicle efficiency, fuel economy, and overall performance. Gears are fundamental components in transmissions and engines, and their precision directly impacts the efficiency and performance of vehicles.
Advancements in transmission technologies, such as automatic transmissions, dual-clutch transmissions, and electric drivetrains, require gears with specific designs and tolerances. Advanced gear measuring machines are essential for ensuring the precision and reliability of these intricate gear systems.
In the aerospace industry, safety and reliability are paramount. Gears are integral to aircraft propulsion systems, landing gear mechanisms, and other critical components. The stringent standards and regulations in the aerospace sector necessitate the use of advanced gear measuring machines and other gear inspection instruments to ensure the highest level of precision and quality.
Aerospace manufacturers are increasingly focusing on lightweighting strategies to improve fuel efficiency and reduce emissions. This trend requires the production of gears from advanced materials, such as lightweight alloys and composites. Precision gear measuring machines play a crucial role in maintaining the integrity of gears made from these innovative materials.
Country-wise Analysis
How is the Market Evolving in the United States?
“Increasing Use of Advanced Gear Measuring Machine in Modern Automotive Manufacturing”
Attribute | United States |
---|---|
Market Value (2024E) | US$ 43.5 Million |
Growth Rate (2024 to 2034) | 2.8% CAGR |
Projected Value (2034F) | US$ 57.34 Million |
The United States is a key player in the global automotive industry. Continuous advancements in the sector, including the push toward electric vehicles, automated driving technologies, and enhanced fuel efficiency, are driving the demand for precise gears. Gear measuring machines essential in ensuring the quality and accuracy of gears are exhibiting growing demand in modern automotive applications.
Will Canada Be an Investment-Worthy Market for Gear Measuring Machine Manufacturers?
“Sales of Improved Gear Measuring Machines High in Energy and Mining Industries”
Attribute | Canada |
---|---|
Market Value (2024E) | US$ 8.2 Million |
Growth Rate (2024 to 2034) | 2.2% CAGR |
Projected Value (2034F) | US$ 10.19 Million |
Canada has a significant presence in resource and mining industries, where large gears are used in heavy machinery. Demand for gear measuring machines stems from the need to ensure the precise manufacturing of gears for mining equipment, contributing to operational efficiency and safety.
Canada's energy sector, including oil and gas, demands reliable and precise gears for various applications. Gear measuring machines play a role in ensuring the quality of gears used in energy extraction, processing, and transportation systems.
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Category-wise Analysis
Why is Demand for Gear Measuring Machines Increasing in Automotive Manufacturing?
“Innovative Gear Designs and Integration of Industry 4.0 Technologies Driving Sales of Advanced Automotive Gear Measuring Machines”
Attribute | Automotive Manufacturing |
---|---|
Segment Value (2024E) | US$ 15.4 Million |
Growth Rate (2024 to 2034) | 2.5% CAGR |
Projected Value (2034F) | US$ 19.71 Million |
The automotive industry is witnessing a shift toward advanced transmission technologies, such as automatic transmissions, dual-clutch transmissions, and continuously variable transmissions (CVTs). These technologies demand gears with specific designs and precise tolerances, driving the need for advanced gear measuring machines.
Automotive manufacturers are continually innovating and introducing complex gear designs to enhance performance and fuel efficiency. Advanced gear measuring machines are equipped to handle the intricacies of these designs, including precise measurement of gear profiles, tooth geometry, and surface finish.
Integration of Industry 4.0 technologies in manufacturing processes is a growing trend. Advanced gear measuring machines with smart features, connectivity, and data analysis capabilities are contributing to the implementation of smart manufacturing practices in the North American automotive sector.
Competitive Landscape
Leading gear measuring machine manufacturers in the North American market are adopting several organic and inorganic strategies to enhance their market position and drive revenue growth. These strategies are often geared towards meeting evolving industry demands, embracing technological advancements, and addressing the specific needs of their customers.
Leading companies invest heavily in research and development activities to introduce innovative features and technologies in their gear measuring machines. By offering cutting-edge products, companies are attracting customers looking for state-of-the-art solutions that contribute to high precision and efficiency.
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Segmentation of Gear Measuring Machines Study in North America
-
By Max. Working Diameter :
- <300 mm
- 300 to 600 mm
- 601 to 900 mm
- 901 to 1,200 mm
- Above 1,200 mm
-
By Permissible Test Gear Weight :
- Below 50 Kg
- 50 to 100 Kg
- 101 to 250 Kg
- 251 to 500 Kg
- 501 to 750 Kg
- 751 to 1,000 Kg
- Above 1,000 Kg
-
By Application :
- Gear Manufacturing
- Automotive Manufacturing
- Construction & Mining Equipment Manufacturing
- Aviation Industry
- Agriculture & Forestry Equipment Manufacturing
- Industrial Equipment Manufacturing
- Others
-
By Country :
- United States
- Canada
Table of Content
1. North America Industry - Executive Summary 1.1. North America Industry Overview 1.2. Demand Side Trends 1.3. Supply Side Trends 1.4. Fact.MR Analysis and Recommendations 2. North America Industry Overview 2.1. Industry Coverage / Taxonomy 2.2. Industry Introduction and Definition 3. Industry Risks and Trends Assessment 3.1. Risk Assessment 3.1.1. COVID-19 Crisis and Impact 3.1.2. COVID-19 Impact Benchmark with Previous Crisis 3.1.2.1. Change in Demand 3.1.2.2. Before and After COVID-19 Crisis (Projected) 3.1.2.3. Before and After Sub-prime Crisis – 2008 (Actual) 3.1.2.4. Change in Demand Post-Recovery Period (After Each Crisis) 3.1.3. Impact on Industry and Value (US$ Mn) 3.1.3.1. Likely Loss of Value in 2023 3.1.3.2. Mid-term and Long-term Forecasts 3.1.3.3. Quarter by Quarter Demand and Recovery Assessment 3.1.4. Anticipated Demand and Value Recovery Curve 3.1.4.1. Likelihood of U-Shape Recovery 3.1.4.2. Likelihood of L-Shape Recovery 3.1.5. Recovery Period Assessment by Key Countries 3.1.6. Recovery Assessment by Key Industry Segments 3.1.7. Action Points and Recommendations for Suppliers 3.1.8. Impact on Trade Balance 3.2. Key Trends Impacting the Industry 3.3. Formulation and Source Development Trends 4. Industry Background and Data Points 4.1. Need of the Hour for Industries 4.2. Industry Wise Industry 4.0 4.3. – Strategic Priorities 4.4. Life Cycle Stage 4.5. Importance of Technology 4.6. Use Cases of Gear Measuring Machine 4.7. Forecast Factors: Relevance and Impact 4.8. Investment Feasibility Matrix 4.9. PESTLE Analysis 4.10. Porter’s Five Forces Analysis 4.11. Industry Dynamics 4.11.1. Drivers 4.11.2. Restraints 4.11.3. Opportunity Analysis 4.11.4. Trend 5. North America Industry Analysis 2018 to 2023 and Forecast, 2024 to 2034 5.1. Historical Industry Value (US$ Mn) Analysis, 2018 to 2023 5.2. Current and Future Industry Value (US$ Mn) Projections, 2024 to 2034 5.2.1. Y-o-Y Growth Trend Analysis 5.2.2. Absolute $ Opportunity Analysis 6. North America Industry Analysis 2018 to 2023 and Forecast 2024 to 2034, By Max. Working Diameter 6.1. Introduction / Key Findings 6.2. Historical Industry Value (US$ Mn) Analysis By Max. Working Diameter, 2018 to 2023 6.3. Current and Future Industry Value (US$ Mn) Analysis and Forecast By Max. Working Diameter, 2024 to 2034 6.3.1. <300 mm 6.3.2. 300 to 600 mm 6.3.3. 601 to 900 mm 6.3.4. 901 to 1,200 mm 6.3.5. Above 1,200 mm 6.4. Industry Attractiveness Analysis By Max. Working Diameter 7. North America Industry Analysis 2018 to 2023 and Forecast 2024 to 2034, by Permissible Test Gear Weight 7.1. Introduction / Key Findings 7.2. Historical Industry Value (US$ Mn) Analysis By Permissible Test Gear Weight, 2018 to 2023 7.3. Current and Future Industry Value (US$ Mn) Analysis and Forecast By Permissible Test Gear Weight, 2024 to 2034 7.3.1. Below 50 Kg 7.3.2. 50 to 100 Kg 7.3.3. 101 to 250 Kg 7.3.4. 251 to 500 Kg 7.3.5. 501 to 750 Kg 7.3.6. 751 to 1,000 Kg 7.3.7. Above 1,000 Kg 7.4. Industry Attractiveness Analysis By Permissible Test Gear Weight 8. North America Industry Analysis 2018 to 2023 and Forecast 2024 to 2034, by Application 8.1. Introduction / Key Findings 8.2. Historical Industry Value (US$ Mn) Analysis By Application, 2018 to 2023 8.3. Current and Future Industry Value (US$ Mn) Analysis and Forecast By Application, 2024 to 2034 8.3.1. Gear Manufacturing 8.3.2. Automotive Manufacturing 8.3.3. Construction & Mining Equipment Manufacturing 8.3.4. Aviation Industry 8.3.5. Agriculture & Forestry Equipment Manufacturing 8.3.6. Industrial Equipment Manufacturing 8.3.7. Others 8.4. Industry Attractiveness Analysis By Application 9. North America Industry Analysis 2018 to 2023 and Forecast 2024 to 2034, by Country 9.1. Introduction / Key Findings 9.2. Historical Industry Value (US$ Mn) Analysis By Country, 2018 to 2023 9.3. Current and Future Industry Value (US$ Mn) Analysis and Forecast By Country, 2024 to 2034 9.3.1. United States 9.3.2. Canada 9.4. Industry Attractiveness Analysis By Country 10. United States Industry Analysis 2018 to 2023 and Forecast 2024 to 2034 10.1. Introduction / Key Findings 10.2. Historical Industry Value (US$ Mn) Trend Analysis By Industry Taxonomy, 2018 to 2023 10.3. Industry Value (US$ Mn) Forecast By Industry Taxonomy, 2024 to 2034 10.3.1. By Max. Working Diameter 10.3.2. By Permissible Test Gear Weight 10.3.3. By Application 10.4. Industry Attractiveness Analysis 10.4.1. By Max. Working Diameter 10.4.2. By Permissible Test Gear Weight 10.4.3. By Application 11. Canada Industry Analysis 2018 to 2023 and Forecast 2024 to 2034 11.1. Introduction / Key Findings 11.2. Historical Industry Size (US$ Mn) Trend Analysis By Industry Taxonomy, 2018 to 2023 11.3. Current and Future Industry Value (US$ Mn) Analysis and Forecast, 2024 to 2034 11.3.1. By Max. Working Diameter 11.3.2. By Permissible Test Gear Weight 11.3.3. By Application 11.4. Industry Attractiveness Analysis 11.4.1. By Max. Working Diameter 11.4.2. By Permissible Test Gear Weight 11.4.3. By Application 12. Industry Structure Analysis 12.1. Industry Analysis by Tier of Companies 12.2. Industry Concentration 12.3. Industry Share Analysis of Top Players 12.4. Industry Presence Analysis 13. Competition Analysis 13.1. Competition Dashboard 13.2. Competition Benchmarking 13.3. Competition Deep Dive 13.4. Gleason Corporation 13.4.1. Company Overview 13.4.2. Source overview 13.4.3. SWOT Analysis 13.4.4. Key Developments 13.5. KAPP Werkzeugmaschinen GmbH 13.6. Klingelnberg America Inc. 13.7. ZEISS Group 13.8. United Gear & Machine Company, Inc. 14. Assumptions and Acronyms Used 15. Research Methodology
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List Of Table
Table 1: North America Industry Value (US$ Mn) Analysis, by Max. Working Diameter, 2018 to 2023
Table 2: North America Industry Value (US$ Mn) Analysis, by Max. Working Diameter, 2024 to 2034
Table 3: North America Industry Value (US$ Mn) Opportunity Analysis, by Max. Working Diameter, 2024 to 2034
Table 4: North America Industry Value (US$ Mn) Analysis, by Permissible Test Gear Weight, 2018 to 2023
Table 5: North America Industry Value (US$ Mn) Analysis, by Permissible Test Gear Weight, 2024 to 2034
Table 6: North America Industry Value (US$ Mn) Opportunity Analysis, by Permissible Test Gear Weight, 2024 to 2034
Table 7: North America Industry Value (US$ Mn) Analysis, by Application, 2018 to 2023
Table 8: North America Industry Value (US$ Mn) Analysis, by Application, 2024 to 2034
Table 9: North America Industry Value (US$ Mn) Opportunity Analysis, by Application, 2024 to 2034
Table 10: North America Industry Value (US$ Mn) Analysis, by Country, 2018 to 2023
Table 11: North America Industry Value (US$ Mn) Analysis, by Country, 2024 to 2034
Table 12: North America Industry Value (US$ Mn) Opportunity Analysis, by Country, 2024 to 2034
Table 13: United States Industry Value (US$ Mn) Analysis, by Max. Working Diameter, 2018 to 2023
Table 14: United States Industry Value (US$ Mn) Analysis, by Max. Working Diameter, 2024 to 2034
Table 15: United States Industry Value (US$ Mn) Opportunity Analysis, by Max. Working Diameter, 2024 to 2034
Table 16: United States Industry Value (US$ Mn) Analysis, by Permissible Test Gear Weight, 2018 to 2023
Table 17: United States Industry Value (US$ Mn) Analysis, by Permissible Test Gear Weight, 2024 to 2034
Table 18: United States Industry Value (US$ Mn) Opportunity Analysis, by Permissible Test Gear Weight, 2024 to 2034
Table 19: United States Industry Value (US$ Mn) Analysis, by Application, 2018 to 2023
Table 20: United States Industry Value (US$ Mn) Analysis, by Application, 2024 to 2034
Table 21: United States Industry Value (US$ Mn) Opportunity Analysis, by Application, 2024 to 2034
Table 22: Canada Industry Value (US$ Mn) Analysis, by Max. Working Diameter, 2018 to 2023
Table 23: Canada Industry Value (US$ Mn) Analysis, by Max. Working Diameter, 2024 to 2034
Table 24: Canada Industry Value (US$ Mn) Opportunity Analysis, by Max. Working Diameter, 2024 to 2034
Table 25: Canada Industry Value (US$ Mn) Analysis, by Permissible Test Gear Weight, 2018 to 2023
Table 26: Canada Industry Value (US$ Mn) Analysis, by Permissible Test Gear Weight, 2024 to 2034
Table 27: Canada Industry Value (US$ Mn) Opportunity Analysis, by Permissible Test Gear Weight, 2024 to 2034
Table 28: Canada Industry Value (US$ Mn) Analysis, by Application, 2018 to 2023
Table 29: Canada Industry Value (US$ Mn) Analysis, by Application, 2024 to 2034
Table 30: Canada Industry Value (US$ Mn) Opportunity Analysis, by Application, 2024 to 2034
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List Of Figures
Figure 1: North America Industry Value (US$ Mn) Historical Analysis, 2018 to 2023
Figure 2: North America Industry Value (US$ Mn) Forecast and Analysis, 2024 to 2034
Figure 3: North America Industry Value Y-o-Y Growth and Forecast, 2018 to 2034
Figure 4: North America Industry Incremental $ Opportunity, 2024 to 2034
Figure 5: North America Industry Share and BPS Analysis by Max. Working Diameter, 2024 & 2034
Figure 6: North America Industry Y-o-Y Growth Projections by Max. Working Diameter, 2024 to 2034
Figure 7: North America Industry Attractiveness Analysis by Max. Working Diameter, 2024 to 2034
Figure 8: North America Industry Share and BPS Analysis by Permissible Test Gear Weight, 2024 & 2034
Figure 9: North America Industry Y-o-Y Growth Projections by Permissible Test Gear Weight, 2024 to 2034
Figure 10: North America Industry Attractiveness Analysis by Permissible Test Gear Weight, 2024 to 2034
Figure 11: North America Industry Share and BPS Analysis by Application, 2024 & 2034
Figure 12: North America Industry Y-o-Y Growth Projections by Application, 2024 to 2034
Figure 13: North America Industry Attractiveness Analysis by Application, 2024 to 2034
Figure 14: North America Industry Share and BPS Analysis by Country, 2024 & 2034
Figure 15: North America Industry Y-o-Y Growth Projections by Country, 2024 to 2034
Figure 16: North America Industry Attractiveness Analysis by Country, 2024 to 2034
Figure 17: United States Industry Value (US$ Mn) Historical Analysis, 2018 to 2023
Figure 18: United States Industry Value (US$ Mn) Forecast and Analysis, 2024 to 2034
Figure 19: United States Industry Value Y-o-Y Growth and Forecast, 2034
Figure 20: United States Industry Incremental $ Opportunity, 2024 to 2034
Figure 21: United States Industry Share and BPS Analysis by Max. Working Diameter, 2024 & 2034
Figure 22: United States Industry Y-o-Y Growth Projections by Max. Working Diameter, 2024 to 2034
Figure 23: United States Industry Attractiveness Analysis by Max. Working Diameter, 2024 to 2034
Figure 24: United States Industry Share and BPS Analysis by Permissible Test Gear Weight, 2024 & 2034
Figure 25: United States Industry Y-o-Y Growth Projections by Permissible Test Gear Weight, 2024 to 2034
Figure 26: United States Industry Attractiveness Analysis by Permissible Test Gear Weight, 2024 to 2034
Figure 27: United States Industry Share and BPS Analysis by Application, 2024 & 2034
Figure 28: United States Industry Y-o-Y Growth Projections by Application, 2024 to 2034
Figure 29: United States Industry Attractiveness Analysis by Application, 2024 to 2034
Figure 30: Canada Industry Value (US$ Mn) Historical Analysis, 2018 to 2023
Figure 31: Canada Industry Value (US$ Mn) Forecast and Analysis, 2024 to 2034
Figure 32: Canada Industry Value Y-o-Y Growth and Forecast, 2018 to 2034
Figure 33: Canada Industry Incremental $ Opportunity, 2024 to 2034
Figure 34: Canada Industry Share and BPS Analysis by Max. Working Diameter, 2024 & 2034
Figure 35: Canada Industry Y-o-Y Growth Projections by Max. Working Diameter, 2024 to 2034
Figure 36: Canada Industry Attractiveness Analysis by Max. Working Diameter, 2024 to 2034
Figure 37: Canada Industry Share and BPS Analysis by Permissible Test Gear Weight, 2024 & 2034
Figure 38: Canada Industry Y-o-Y Growth Projections by Permissible Test Gear Weight, 2024 to 2034
Figure 39: Canada Industry Attractiveness Analysis by Permissible Test Gear Weight, 2024 to 2034
Figure 40: Canada Industry Share and BPS Analysis by Application, 2024 & 2034
Figure 41: Canada Industry Y-o-Y Growth Projections by Application, 2024 to 2034
Figure 42: Canada Industry Attractiveness Analysis by Application, 2024 to 2034
Know thy Competitors
Competitive landscape highlights only certain players
Complete list available upon request
- FAQs -
What is the market value of gear measuring machines in North America?
Sales of gear measuring machines in North America are calculated at US$ 51.7 million for 2024.
What is the projected sales value of gear measuring machines for 2034?
By 2034, demand for gear measuring machines in North America is forecasted to reach a market value of US$ 61.48 million.
What is the estimated growth rate of the North American market?
The market in North America is predicted to expand at a CAGR of 2.7% from 2024 to 2034.
How fast are sales of gear measuring machines rising in the United States?
The United States market is foreseen to increase at a CAGR of 2.8% and reach US$ 57.34 million by 2034.
What is the forecasted growth rate for aviation gear measuring machines in North America?
Sales of aviation gear measuring machines in North America are projected to increase at a CAGR of 4% through 2034.
Who are the top 3 producers of gear measuring machines in North America?
Leading companies are Gleason Corporation, Klingelnberg America Inc., and United Gear & Machine Company, Inc.