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Vibration Control Systems Market:Global Industry analysis (2012-2016) and Opportunity Assessment (2017-2027)

Vibration Control Systems Market:Global Industry analysis (2012-2016) and Opportunity Assessment (2017-2027)

Aviation industry spurring demand in the vibration control systems market

The home of Boeing Corp. and Lockheed Martin – North America – has played a critical role in the aviation industry and its aircraft are highly sought after in both the defence and commercial aviation industry. Although these aircraft are cutting-edge and state-of-the-art, jet-engine noise and turbulence can cause strong vibrations. Engineers have tried various ways to reduce aircraft vibrations to minimise wear and tear and ensure that the flight is safe. For e.g., for its fifth-gen fighter aircraft F-35, Lockheed Martin has sought assistance from Denmark-based Brüel & Kjær Sound & Vibration Measurement A/S for vibration and noise analysis. Even the NASA Langley Research Center has devised a point sensor and piezoelectric actuator system to reduce vibrations in flexible structures.

High-rise buildings need vibration control systems for elemental protection

Cities in North America such as New York, Chicago, and Ottawa have numerous high-rise buildings for both residential and commercial purposes. Skyscrapers are prone to vibrations that can be caused by earthquake tremors, underground metro movement, and high velocity winds. Over an extended period of time, these vibrations can led to column clamps, loose bolts, and structural cracks. To minimise these vibrations, experts seek to implement a number of technologies from the vibration control systems market. In 2013, NASA created a stabilising technology called the LOX Damper while working on a violently shaking rocket. Engineers and researchers are now of the opinion that a similar technology from the vibration control systems market can be effectively deployed in high-rise structures.

Vibration control systems market helps improve automobile longevity

The automobile industry in North America is amongst the most prominent in the world. For more than a century, the region has been churning out passenger cars, high-end luxury and sports cars, and even commercial vehicles. These automobiles are designed with the objective of providing the best to buyers and several anti-vibration systems are deployed in them to reduce vibrations, thereby maximising comfort and efficiency. Anti-vibration systems such as bushing and mounting go a long way in increasing vehicle as well as component longevity. American icons such as Ford and GM have been consistently upgrading different mounts and suspensions in their vehicles to ensure smooth, long-term functioning.

Cheap alternatives and resistance to change major market restraints

The North America vibration control systems market has been flooded by cheaper alternatives from Asian manufacturing hubs China and Taiwan and systems from these countries are readily available. There is a strong possibility that customers might opt for the cheaper option, making it quite challenging for North American vibration control system manufacturers. In addition, manufacturers and small industries could resist adopting vibration control systems without regulatory bodies to monitor any sort of discrepancy. The added expense of installing such systems and carrying out annual maintenance checks could restrain the growth of the North America vibration control systems market.

Space engineering and automotive innovations key trends in North America

The U.S. dominates the fields of avionics engineering and space exploration on account of massive R&D and huge funding from both private and public enterprise. NASA and other space organisations have been continuously pushing themselves in developing next-gen vibration control systems for rockets and spacecraft that reduce vibrations by a considerable amount. The automotive sector is not far behind as the industry strives to produce and design innovative products that are safer, efficient, and more comfortable. Companies such as Daimler and Ford are working on the design and raw materials to reduce weight and maximise the potential of products available in the vibration control systems market. Among the regional markets, the Northern America vibration control systems market is expected to grow at a significant CAGR of 4.1% over the forecast period. APEJ will lead the global market in terms of CAGR growth, registering 4.5% for the said period. North America will hold the maximum revenue share in the global vibration control systems market, estimated to hold close to 30% value share by the end of 2027. Within North America, the U.S is anticipated to be a slightly larger opportunity than Canada and should cross US$ 300 Mn in revenue in 2017, compared to about US$ 253 Mn in Canada. However, the CAGR of Canada is higher at 4.2% for the period 2017 to 2027 as compared to 4.0% recorded by the U.S during the same period.


1. Executive Summary
1.1. Market Overview
1.2. Market Analysis
2. Market Introduction
2.1. Market Taxonomy
2.2. Market Definition
3. Global Vibration Control System : Historical (2012-2016)and Future Market Analysis(2017-2027)
3.1. Market Value(US$ Mn) & Volume (MT) Projections
3.2. Y-o-Y Growth & Absolute Dollar Opportunity
3.3. Global Vibration Control Scenario Forcast
3.4. Forecast Factors
3.5. Value Chain
3.6. Cost Structure Analysis
3.7. Pricing Analysis
4. Global Vibration Control System Market Analysis 2012–2016 and Forecast 2017–2027 By Region
4.1. Introduction / Key Findings
4.2. Historical Market Size (US$ Mn) and Volume (Units) Analysis By Region, 2012 – 2016
4.2.1. North America
4.2.2. Western Europe
4.2.3. Eastern Europe
4.2.4. Latin America
4.2.5. Asia Pacific
4.2.6. Middle East & Africa
4.3. Market Size (US$ Mn) and Volume (Units) Forecast By Region, 2017–2027
4.3.1. North America
4.3.2. Western Europe
4.3.3. Eastern Europe
4.3.4. Latin America
4.3.5. Asia Pacific
4.3.6. Middle East & Africa
4.4. Market Attractiveness Analysis By Region
5. Global Vibration Control System Market Analysis 2012–2016 and Forecast 2017–2027 By End-user
5.1. Introduction
5.2. Historical Market Size (US$ Mn) and Volume (Units) Analysis By End-user , 2012 – 2016
5.2.1. Mining & Quarrying
5.2.2. Oil & gas Extraction
5.2.3. Utilities
5.2.4. Transportation
5.2.5. Food Manufacturing
5.2.6. Beverage & Tobacco Manufacturing
5.2.7. Textile Mills
5.2.8. Petroleum & Coal Product Manufacturing
5.2.9. Chemical Manufacturing
5.2.10. Electrical Equipment
5.2.11. Machinery Manufacturing
5.3. Market Size (US$ Mn) and Volume (Units) Forecast By End-user , 2017–2027
5.3.1. Mining & Quarrying
5.3.2. Oil & gas Extraction
5.3.3. Utilities
5.3.4. Transportation
5.3.5. Food Manufacturing
5.3.6. Beverage & Tobacco Manufacturing
5.3.7. Textile Mills
5.3.8. Petroleum & Coal Product Manufacturing
5.3.9. Chemical Manufacturing
5.3.10. Electrical Equipment
5.3.11. Machinery Manufacturing
5.4. Market Attractiveness Analysis By End-user
6. Global Vibration Control System Market Analysis 2012–2016 and Forecast 2017–2027 By Sales Type
6.1. Introduction
6.2. Historical Market Size (US$ Mn) and Volume (Units) Analysis By Sales Type, 2012 – 2016
6.2.1. O.E.M
6.2.2. Aftermarket
6.3. Market Size (US$ Mn) and Volume (Units) Forecast By Sales Type, 2017–2027
6.3.1. O.E.M
6.3.2. Aftermarket
6.4. Market Attractiveness Analysis By Sales Channel
7. Global Vibration Control System Market Analysis 2012–2016 and Forecast 2017–2027 By System
7.1. Introduction
7.2. Historical Market Size (US$ Mn) and Volume (Units) Analysis By System, 2012 – 2016
7.2.1. Vibration Control
7.2.1.1.Isolating Pads
7.2.1.2.Isolators
7.2.1.2.1. Metal
7.2.1.2.2. Rubber
7.2.1.3.Couplings
7.2.1.3.1. Spool
7.2.1.3.2. Shear
7.2.1.3.3. Bolt
7.2.1.3.4. Bush
7.2.1.4. Anti Vibration Cylinders
7.2.1.4.1. Male
7.2.1.4.2. Female
7.2.2. Motion Control
7.2.2.1.Spring
7.2.2.1.1. Air
7.2.2.1.2.Coil
7.2.2.2.Hangers
7.2.2.3.Washers & Bushes
7.2.2.4. Mounts
7.2.2.4.1. Hydraulic
7.2.2.4.2.Pneumatic
7.2.3. Automation Control
7.2.3.1.Absorbers
7.2.3.1.1. Miniature
7.2.3.1.2. Industrial
7.2.3.1.3. Heavy Industrial
7.2.3.2.Dampers
7.2.3.2.1. Hydraulic
7.2.3.2.2. Pneumatic
7.2.3.2.3. Damping Pads
7.3. Market Size (US$ Mn) and Volume (Units) Forecast By System , 2017–2027
7.3.1. Vibration Control
7.3.1.1.Isolating Pads
7.3.1.2.Isolators
7.3.1.2.1. Metal
7.3.1.2.2. Rubber
7.3.1.3.Couplings
7.3.1.3.1. Spool
7.3.1.3.2. Shear
7.3.1.3.3. Bolt
7.3.1.3.4. Bush
7.3.1.4. Anti Vibration Cylinders
7.3.1.4.1. Male
7.3.1.4.2. Female
7.3.2. Motion Control
7.3.2.1.Spring
7.3.2.1.1. Air
7.3.2.1.2.Coil
7.3.2.2.Hangers
7.3.2.3.Washers & Bushes
7.3.2.4. Mounts
7.3.2.4.1. Hydraulic
7.3.2.4.2.Pneumatic
7.3.3. Automation Control
7.3.3.1.Absorbers
7.3.3.1.1. Miniature
7.3.3.1.2. Industrial
7.3.3.1.3. Heavy Industrial
7.3.3.2.Dampers
7.3.3.2.1. Hydraulic
7.3.3.2.2. Pneumatic
7.3.3.2.3. Damping Pads
7.4. Market Attractiveness Analysis By End Use
8. North America Vibration Control System Market Analysis 2012–2016 and Forecast 2017–2027
8.1. Introduction
8.2. Regional Market Dynamics
8.2.1. Drivers
8.2.2. Restraints
8.2.3. Trends
8.2.4. PESTLE Analysis
8.2.5. Porter Analysis
8.3 Key Regulations
8.4. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By Country, 2012–2016
8.4.1. U.S.
8.4.2. Canada
8.5. Market Size (US$ Mn) and Volume (Units) Forecast By Country, 2017–2027
8.5.1. U.S.
8.5.2. Canada
8.6. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By End-user, 2012–2016
8.6.1. Mining & Quarrying
8.6.2. Oil & gas Extraction
8.6.3. Utilities
8.6.4. Transportation
8.6.5. Food Manufacturing
8.6.6. Beverage & Tobacco Manufacturing
8.6.7. Textile Mills
8.6.8. Petroleum & Coal Product Manufacturing
8.6.9. Chemical Manufacturing
8.6.10. Electrical Equipment
8.6.11. Machinery Manufacturing
8.7. Market Size (US$ Mn) and Volume (Units) Forecast By End-user , 2017–2027
8.7.1. Mining & Quarrying
8.7.2. Oil & gas Extraction
8.7.3. Utilities
8.7.4. Transportation
8.7.5. Food Manufacturing
8.7.6. Beverage & Tobacco Manufacturing
8.7.7. Textile Mills
8.7.8. Petroleum & Coal Product Manufacturing
8.7.9. Chemical Manufacturing
8.7.10. Electrical Equipment
8.7.11. Machinery Manufacturing
8.8. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By Sales Type, 2012–2016
8.8.1. O.E.M
8.8.2. Aftermarket
8.9. Market Size (US$ Mn) and Volume (Units) Forecast By Sales Type, 2017–2027
8.9.1. O.E.M
8.9.2. Aftermarket
8.10. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By System, 2012–2016
8.10.1. Vibration Control
8.10.1.1.Isolating Pads
8.10.1.2.Isolators
8.10.1.2.1. Metal
8.10.1.2.2. Rubber
8.10.1.3.Couplings
8.10.1.3.1. Spool
8.10.1.3.2. Shear
8.10.1.3.3. Bolt
8.10.1.3.4. Bush
8.10.1.4. Anti Vibration Cylinders
8.10.1.4.1. Male
8.10.1.4.2. Female
8.10.2. Motion Control
8.10.2.1.Spring
8.10.2.1.1. Air
8.10.2.1.2.Coil
8.10.2.2.Hangers
8.10.2.3.Washers & Bushes
8.10.2.4. Mounts
8.10.2.4.1. Hydraulic
8.10.2.4.2.Pneumatic
8.10.3. Automation Control
8.10.3.1.Absorbers
8.10.3.1.1. Miniature
8.10.3.1.2. Industrial
8.10.3.1.3. Heavy Industrial
8.10.3.2.Dampers
8.10.3.2.1. Hydraulic
8.10.3.2.2. Pneumatic
8.10.3.2.3. Damping Pads
8.11. Market Size (US$ Mn) and Volume (Units) Forecast By System, 2017–2027
8.11.1. Vibration Control
8.11.1.1.Isolating Pads
8.11.1.2.Isolators
8.11.1.2.1. Metal
8.11.1.2.2. Rubber
8.11.1.3.Couplings
8.11.1.3.1. Spool
8.11.1.3.2. Shear
8.11.1.3.3. Bolt
8.11.1.3.4. Bush
8.11.1.4. Anti Vibration Cylinders
8.11.1.4.1. Male
8.11.1.4.2. Female
8.11.2. Motion Control
8.11.2.1.Spring
8.11.2.1.1. Air
8.11.2.1.2.Coil
8.11.2.2.Hangers
8.11.2.3.Washers & Bushes
8.11.2.4. Mounts
8.11.2.4.1. Hydraulic
8.11.2.4.2.Pneumatic
8.11.3. Automation Control
8.11.3.1.Absorbers
8.11.3.1.1. Miniature
8.11.3.1.2. Industrial
8.11.3.1.3. Heavy Industrial
8.11.3.2.Dampers
8.11.3.2.1. Hydraulic
8.11.3.2.2. Pneumatic
8.11.3.2.3. Damping Pads
8.12. Market Attractiveness Analysis
8.12.1. By Country
8.12.2. By End-user
8.12.3. By Sales Type
8.12.4. By System
8.13. Market Presence (Intensity Map)
9. Western Europe Vibration Control System Market Analysis 2012–2016 and Forecast 2017–2027
9.1. Introduction
9.2. Regional Market Dynamics
9.2.1. Drivers
9.2.2. Restraints
9.2.3. Trends
9.2.4. PESTLE Analysis
9.2.5. Porter Analysis
9.3 Key Regulations
9.4. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By Country, 2012–2016
9.4.1. EU5
9.4.2. BENELUX
9.4.3. Nordic
9.4.4. RWEW
9.5. Market Size (US$ Mn) and Volume (Units) Forecast By Country, 2017–2027
9.5.1. EU5
9.5.2. BENELUX
9.5.3. Nordic
9.5.4. RWEW
9.6. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By End-user, 2012–2016
9.6.1. Mining & Quarrying
9.6.2. Oil & gas Extraction
9.6.3. Utilities
9.6.4. Transportation
9.6.5. Food Manufacturing
9.6.6. Beverage & Tobacco Manufacturing
9.6.7. Textile Mills
9.6.8. Petroleum & Coal Product Manufacturing
9.6.9. Chemical Manufacturing
9.6.10. Electrical Equipment
9.6.11. Machinery Manufacturing
9.7. Market Size (US$ Mn) and Volume (Units) Forecast By End-user, 2017–2027
9.7.1. Mining & Quarrying
9.7.2. Oil & gas Extraction
9.7.3. Utilities
9.7.4. Transportation
9.7.5. Food Manufacturing
9.7.6. Beverage & Tobacco Manufacturing
9.7.7. Textile Mills
9.7.8. Petroleum & Coal Product Manufacturing
9.7.9. Chemical Manufacturing
9.7.10. Electrical Equipment
9.7.11. Machinery Manufacturing
9.8. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By Sales Type, 2012–2016
9.8.1. O.E.M
9.8.2. Aftermarket
9.9. Market Size (US$ Mn) and Volume (Units) Forecast By Sales Type, 2017–2027
9.9.1. O.E.M
9.9.2. Aftermarket
9.10. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By System, 2012–2016
9.10.1. Vibration Control
9.10.1.1.Isolating Pads
9.10.1.2.Isolators
9.10.1.2.1. Metal
9.10.1.2.2. Rubber
9.10.1.3.Couplings
9.10.1.3.1. Spool
9.10.1.3.2. Shear
9.10.1.3.3. Bolt
9.10.1.3.4. Bush
9.10.1.4. Anti Vibration Cylinders
9.10.1.4.1. Male
9.10.1.4.2. Female
9.10.2. Motion Control
9.10.2.1.Spring
9.10.2.1.1. Air
9.10.2.1.2.Coil
9.10.2.2.Hangers
9.10.2.3.Washers & Bushes
9.10.2.4. Mounts
9.10.2.4.1. Hydraulic
9.10.2.4.2.Pneumatic
9.10.3. Automation Control
9.10.3.1.Absorbers
9.10.3.1.1. Miniature
9.10.3.1.2. Industrial
9.10.3.1.3. Heavy Industrial
9.10.3.2.Dampers
9.10.3.2.1. Hydraulic
9.10.3.2.2. Pneumatic
9.10.3.2.3. Damping Pads
9.11. Market Size (US$ Mn) and Volume (Units) Forecast By System, 2017–2027
9.11.1. Vibration Control
9.11.1.1.Isolating Pads
9.11.1.2.Isolators
9.11.1.2.1. Metal
9.11.1.2.2. Rubber
9.11.1.3.Couplings
9.11.1.3.1. Spool
9.11.1.3.2. Shear
9.11.1.3.3. Bolt
9.11.1.3.4. Bush
9.11.1.4. Anti Vibration Cylinders
9.11.1.4.1. Male
9.11.1.4.2. Female
9.11.2. Motion Control
9.11.2.1.Spring
9.11.2.1.1. Air
9.11.2.1.2.Coil
9.11.2.2.Hangers
9.11.2.3.Washers & Bushes
9.11.2.4. Mounts
9.11.2.4.1. Hydraulic
9.11.2.4.2.Pneumatic
9.11.3. Automation Control
9.11.3.1.Absorbers
9.11.3.1.1. Miniature
9.11.3.1.2. Industrial
9.11.3.1.3. Heavy Industrial
9.11.3.2.Dampers
9.11.3.2.1. Hydraulic
9.11.3.2.2. Pneumatic
9.11.3.2.3. Damping Pads
9.12. Market Attractiveness Analysis
9.12.1. By Country
9.12.2. By End-user
9.12.3. By Sales Type
9.12.4. By System
9.13. Market Presence (Intensity Map)
10. Eastern Europe Vibration Control System Market Analysis 2012–2016 and Forecast 2017–2027
10.1. Introduction
10.2. Regional Market Dynamics
10.2.1. Drivers
10.2.2. Restraints
10.2.3. Trends
10.2.4. PESTLE Analysis
10.2.5. Porter Analysis
10.3. Key Regulations
10.4. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By Country, 2012–2016
10.4.1. Russia
10.4.2. Poland
10.4.3. Rest of Eastern Europe
10.5. Market Size (US$ Mn) and Volume (Units) Forecast By Country, 2017–2027
10.5.1. Russia
10.5.2. Poland
10.5.3. Rest of Eastern Europe
10.6. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By End-user, 2012–2016
10.6.1. Mining & Quarrying
10.6.2. Oil & gas Extraction
10.6.3. Utilities
10.6.4. Transportation
10.6.5. Food Manufacturing
10.6.6. Beverage & Tobacco Manufacturing
10.6.7. Textile Mills
10.6.8. Petroleum & Coal Product Manufacturing
10.6.9. Chemical Manufacturing
10.6.10. Electrical Equipment
10.6.11. Machinery Manufacturing
10.7. Market Size (US$ Mn) and Volume (Units) Forecast By End-user, 2017–2027
10.7.1. Mining & Quarrying
10.7.2. Oil & gas Extraction
10.7.3. Utilities
10.7.4. Transportation
10.7.5. Food Manufacturing
10.7.6. Beverage & Tobacco Manufacturing
10.7.7. Textile Mills
10.7.8. Petroleum & Coal Product Manufacturing
10.7.9. Chemical Manufacturing
10.7.10. Electrical Equipment
10.7.11. Machinery Manufacturing
10.8. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By Sales Type, 2012–2016
10.8.1. O.E.M
10.8.2. Aftermarket
10.9. Market Size (US$ Mn) and Volume (Units) Forecast By Sales Type, 2017–2027
10.9.1. O.E.M
10.9.2. Aftermarket
10.10. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By System, 2012–2016
10.10.1. Vibration Control
10.10.1.1.Isolating Pads
10.10.1.2.Isolators
10.10.1.2.1. Metal
10.10.1.2.2. Rubber
10.10.1.3.Couplings
10.10.1.3.1. Spool
10.10.1.3.2. Shear
10.10.1.3.3. Bolt
10.10.1.3.4. Bush
10.10.1.4. Anti Vibration Cylinders
10.10.1.4.1. Male
10.10.1.4.2. Female
10.10.2. Motion Control
10.10.2.1.Spring
10.10.2.1.1. Air
10.10.2.1.2.Coil
10.10.2.2.Hangers
10.10.2.3.Washers & Bushes
10.10.2.4. Mounts
10.10.2.4.1. Hydraulic
10.10.2.4.2.Pneumatic
10.10.3. Automation Control
10.10.3.1.Absorbers
10.10.3.1.1. Miniature
10.10.3.1.2. Industrial
10.10.3.1.3. Heavy Industrial
10.10.3.2.Dampers
10.10.3.2.1. Hydraulic
10.10.3.2.2. Pneumatic
10.10.3.2.3. Damping Pads
10.11. Market Size (US$ Mn) and Volume (Units) Forecast By System, 2017–2027
10.11.1. Vibration Control
10.11.1.1.Isolating Pads
10.11.1.2.Isolators
10.11.1.2.1. Metal
10.11.1.2.2. Rubber
10.11.1.3.Couplings
10.11.1.3.1. Spool
10.11.1.3.2. Shear
10.11.1.3.3. Bolt
10.11.1.3.4. Bush
10.11.1.4. Anti Vibration Cylinders
10.11.1.4.1. Male
10.11.1.4.2. Female
10.11.2. Motion Control
10.11.2.1.Spring
10.11.2.1.1. Air
10.11.2.1.2.Coil
10.11.2.2.Hangers
10.11.2.3.Washers & Bushes
10.11.2.4. Mounts
10.11.2.4.1. Hydraulic
10.11.2.4.2.Pneumatic
10.11.3. Automation Control
10.11.3.1.Absorbers
10.11.3.1.1. Miniature
10.11.3.1.2. Industrial
10.11.3.1.3. Heavy Industrial
10.11.3.2.Dampers
10.11.3.2.1. Hydraulic
10.11.3.2.2. Pneumatic
10.11.3.2.3. Damping Pads
10.12. Market Attractiveness Analysis
10.12.1. By Country
10.12.2. By End-user
10.12.3. By Sales Type
10.12.4. By System
10.13. Market Presence (Intensity Map)
11. Latin America Vibration Control System Market Analysis 2012–2016 and Forecast 2017–2027
11.1. Introduction
11.2. Regional Market Dynamics
11.2.1. Drivers
11.2.2. Restraints
11.2.3. Trends
11.2.4. PESTLE Analysis
11.2.5. Porter Analysis
11.3 Key Regulations
11.4. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By Country, 2012–2016
11.4.1. Brazil
11.4.2. Argentina
11.4.3. Rest of Latin America
11.5. Market Size (US$ Mn) and Volume (Units) Forecast By Country, 2017–2027
11.5.1. Brazil
11.5.2. Argentina
11.5.3. Rest of Latin America
11.6. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By End-user, 2012–2016
11.6.1. Mining & Quarrying
11.6.2. Oil & gas Extraction
11.6.3. Utilities
11.6.4. Transportation
11.6.5. Food Manufacturing
11.6.6. Beverage & Tobacco Manufacturing
11.6.7. Textile Mills
11.6.8. Petroleum & Coal Product Manufacturing
11.6.9. Chemical Manufacturing
11.6.10. Electrical Equipment
11.6.11. Machinery Manufacturing
11.7. Market Size (US$ Mn) and Volume (Units) Forecast By End-user, 2017–2027
11.7.1. Mining & Quarrying
11.7.2. Oil & gas Extraction
11.7.3. Utilities
11.7.4. Transportation
11.7.5. Food Manufacturing
11.7.6. Beverage & Tobacco Manufacturing
11.7.7. Textile Mills
11.7.8. Petroleum & Coal Product Manufacturing
11.7.9. Chemical Manufacturing
11.7.10. Electrical Equipment
11.7.11. Machinery Manufacturing
11.8. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By Sales Type, 2012–2016
11.8.1. O.E.M
11.8.2. Aftermarket
11.9. Market Size (US$ Mn) and Volume (Units) Forecast By Sales Type, 2017–2027
11.9.1. O.E.M
11.9.2. Aftermarket
11.10. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By System, 2012–2016
11.10.1. Vibration Control
11.10.1.1.Isolating Pads
11.10.1.2.Isolators
11.10.1.2.1. Metal
11.10.1.2.2. Rubber
11.10.1.3.Couplings
11.10.1.3.1. Spool
11.10.1.3.2. Shear
11.10.1.3.3. Bolt
11.10.1.3.4. Bush
11.10.1.4. Anti Vibration Cylinders
11.10.1.4.1. Male
11.10.1.4.2. Female
11.10.2. Motion Control
11.10.2.1.Spring
11.10.2.1.1. Air
11.10.2.1.2.Coil
11.10.2.2.Hangers
11.10.2.3.Washers & Bushes
11.10.2.4. Mounts
11.10.2.4.1. Hydraulic
11.10.2.4.2.Pneumatic
11.10.3. Automation Control
11.10.3.1.Absorbers
11.10.3.1.1. Miniature
11.10.3.1.2. Industrial
11.10.3.1.3. Heavy Industrial
11.10.3.2.Dampers
11.10.3.2.1. Hydraulic
11.10.3.2.2. Pneumatic
11.10.3.2.3. Damping Pads
11.11. Market Size (US$ Mn) and Volume (Units) Forecast By System, 2017–2027
11.11.1. Vibration Control
11.11.1.1.Isolating Pads
11.11.1.2.Isolators
11.11.1.2.1. Metal
11.11.1.2.2. Rubber
11.11.1.3.Couplings
11.11.1.3.1. Spool
11.11.1.3.2. Shear
11.11.1.3.3. Bolt
11.11.1.3.4. Bush
11.11.1.4. Anti Vibration Cylinders
11.11.1.4.1. Male
11.11.1.4.2. Female
11.11.2. Motion Control
11.11.2.1.Spring
11.11.2.1.1. Air
11.11.2.1.2.Coil
11.11.2.2.Hangers
11.11.2.3.Washers & Bushes
11.11.2.4. Mounts
11.11.2.4.1. Hydraulic
11.11.2.4.2.Pneumatic
11.11.3. Automation Control
11.11.3.1.Absorbers
11.11.3.1.1. Miniature
11.11.3.1.2. Industrial
11.11.3.1.3. Heavy Industrial
11.11.3.2.Dampers
11.11.3.2.1. Hydraulic
11.11.3.2.2. Pneumatic
11.11.3.2.3. Damping Pads
11.12. Market Attractiveness Analysis
11.12.1. By Country
11.12.2. By End-user
11.12.3. By Sales Type
11.12.4. By System
11.13. Market Presence (Intensity Map)
12. APEJ Vibration Control System Market Analysis 2012–2016 and Forecast 2017–2027
12.1. Introduction
12.2. Regional Market Dynamics
12.2.1. Drivers
12.2.2. Restraints
12.2.3. Trends
12.2.4. PESTLE Analysis
12.2.5. Porter Analysis
12.3 Key Regulations
12.4. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By Country, 2012–2016
12.4.1. China
12.4.2. India
12.4.3. Oceania
12.4.4. ASEAN
12.4.5. Rest of APEJ
12.5. Market Size (US$ Mn) and Volume (Units) Forecast By Country, 2017–2027
12.5.1. China
12.5.2. India
12.5.3. Oceania
12.5.4. ASEAN
12.5.5. Rest of APEJ
12.6. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By End-user, 2012–2016
12.6.1. Mining & Quarrying
12.6.2. Oil & gas Extraction
12.6.3. Utilities
12.6.4. Transportation
12.6.5. Food Manufacturing
12.6.6. Beverage & Tobacco Manufacturing
12.6.7. Textile Mills
12.6.8. Petroleum & Coal Product Manufacturing
12.6.9. Chemical Manufacturing
12.6.10. Electrical Equipment
12.6.11. Machinery Manufacturing
12.7. Market Size (US$ Mn) and Volume (Units) Forecast By End-user, 2017–2027
12.7.1. Mining & Quarrying
12.7.2. Oil & gas Extraction
12.7.3. Utilities
12.7.4. Transportation
12.7.5. Food Manufacturing
12.7.6. Beverage & Tobacco Manufacturing
12.7.7. Textile Mills
12.7.8. Petroleum & Coal Product Manufacturing
12.7.9. Chemical Manufacturing
12.7.10. Electrical Equipment
12.7.11. Machinery Manufacturing
12.8 Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By Sales Type, 2012–2016
12.8.1. O.E.M
12.8.2. Aftermarket
12.9. Market Size (US$ Mn) and Volume (Units) Forecast By Sales Type, 2017–2027
12.9.1. O.E.M
12.9.2. Aftermarket
12.10. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By System, 2012–2016
12.10.1. Vibration Control
12.10.1.1.Isolating Pads
12.10.1.2.Isolators
12.10.1.2.1. Metal
12.10.1.2.2. Rubber
12.10.1.3.Couplings
12.10.1.3.1. Spool
12.10.1.3.2. Shear
12.10.1.3.3. Bolt
12.10.1.3.4. Bush
12.10.1.4. Anti Vibration Cylinders
12.10.1.4.1. Male
12.10.1.4.2. Female
12.10.2. Motion Control
12.10.2.1.Spring
12.10.2.1.1. Air
12.10.2.1.2.Coil
12.10.2.2.Hangers
12.10.2.3.Washers & Bushes
12.10.2.4. Mounts
12.10.2.4.1. Hydraulic
12.10.2.4.2.Pneumatic
12.10.3. Automation Control
12.10.3.1.Absorbers
12.10.3.1.1. Miniature
12.10.3.1.2. Industrial
12.10.3.1.3. Heavy Industrial
12.10.3.2.Dampers
12.10.3.2.1. Hydraulic
12.10.3.2.2. Pneumatic
12.10.3.2.3. Damping Pads
12.11. Market Size (US$ Mn) and Volume (Units) Forecast By System, 2017–2027
12.11.1. Vibration Control
12.11.1.1.Isolating Pads
12.11.1.2.Isolators
12.11.1.2.1. Metal
12.11.1.2.2. Rubber
12.11.1.3.Couplings
12.11.1.3.1. Spool
12.11.1.3.2. Shear
12.11.1.3.3. Bolt
12.11.1.3.4. Bush
12.11.1.4. Anti Vibration Cylinders
12.11.1.4.1. Male
12.11.1.4.2. Female
12.11.2. Motion Control
12.11.2.1.Spring
12.11.2.1.1. Air
12.11.2.1.2.Coil
12.11.2.2.Hangers
12.11.2.3.Washers & Bushes
12.11.2.4. Mounts
12.11.2.4.1. Hydraulic
12.11.2.4.2.Pneumatic
12.11.3. Automation Control
12.11.3.1.Absorbers
12.11.3.1.1. Miniature
12.11.3.1.2. Industrial
12.11.3.1.3. Heavy Industrial
12.11.3.2.Dampers
12.11.3.2.1. Hydraulic
12.11.3.2.2. Pneumatic
12.11.3.2.3. Damping Pads
12.12. Market Attractiveness Analysis
12.12.1. By Country
12.12.2. By End-user
12.12.3. By Sales Type
12.12.4. By System
12.13. Market Presence (Intensity Map)
13. Japan Vibration Control System Market Analysis 2013–2016 and Forecast 2017–2027
13.1. Introduction
13.2. Regional Market Dynamics
13.2.1. Drivers
13.2.2. Restraints
13.2.3. Trends
13.2.4. PESTLE Analysis
13.2.5. Porter Analysis
13.3 Key Regulations
13.4. Historical Market Size (US$ Mn) and Volume (Units) Trend Analysis By End-user, 2013–2016
13.4.1. Mining & Quarrying
13.4.2. Oil & gas Extraction
13.4.3. Utilities
13.4.4. Transportation
13.4.5. Food Manufacturing
13.4.6. Beverage & Tobacco Manufacturing
13.4.7. Textile Mills
13.4.8. Petroleum & Coal Product Manufacturing
13.4.9. Chemical Manufacturing
13.4.10. Electrical Equipment
13.4.11. Machinery Manufacturing
13.5. Market Size (US$ Mn) and Volume (Units) Forecast By End-user, 2017–2027

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