Global Tuned Mass Damper Market By Product Type (Vertical Tmd, Horizontal Tmd), By Application (Large Structures, Narrow Structures, Wide Structures, Others), By Region and Key Companies - Industry Segment Outlook, Market Assessment, Competition Scenario, Trends and Forecast 2021-2030 (Includes Business Impact of COVID-19)

  • TBI397784
  • September 16, 2021
  • Global
  • 145 pages
  • Market.US
                                          

Report updated on 11th September, 2021: Global Tuned Mass Damper Market By Product Type (Vertical Tmd, Horizontal Tmd), By Application (Large Structures, Narrow Structures, Wide Structures, Others), By Region and Key Companies - Industry Segment Outlook, Market Assessment, Competition Scenario, Trends and Forecast 2021-2030 (Includes Business Impact of COVID-19)

Trusted Business Insights has published a comprehensive market research report on, Global Tuned Mass Damper (TMD) Market by Product Type (Vertical TMD, Horizontal TMD), By Application(Large Structures, Narrow Structures, Wide Structures, Others), and by Region -Global Forecast to 2030, which offers a holistic view of the global tuned mass damper (TMD) market through systematic segmentation that covers every aspect of the target market. The global tuned mass damper (TMD) market is projected to be US$ 96.2 Mn in 2020 to reach US$ 162.5 Mn by 2030 at a CAGR of 5.4%. A tuned mass damper (TMD) is a device which has a mass, a spring, and a damper which is affixed to a structure for reducing the dynamic response created due to explosion, earthquakes, extreme wind etc. Horizontal Tuned Mass Damper dampens horizontal vibrations and therefore used in vertical structures such as spires, towers etc. whereas Vertical Tuned Mass Damper reduces vertical vibrations and are used in horizontal constructions such as bridges. Demand for high rise building is proliferating due to high real estate prices. All such towers require tuned mass dampers to make the building secure and protect it against damages that may occur due to sway, vibrations etc. This is expected to drive the market forward. Government initiatives -Government initiatives such as sea and river bridges for better connectivity is anticipated to drive the market growth as long decks, pedestrian walkways etc. require tuned mass damper for dampening the oscillations. Reliable and robust technology -Tuned mass damper is a simple yet very reliable and robust technology. It requires a lesser amount of capital investment, and it is very low maintenance, which is forecasted to drive the market forward.

Global Tuned Mass Damper (TMD) Market Revenue (US$ Mn), 2021 to 2030

Protection against structural failure -People prefer to buy apartments in towers where tuned mass dampers are installed because it safeguards the building as well as its occupants against natural calamities like earthquakes or high wind resistance at higher floors etc. TMD protects the building against structural failure and also avoids discomfort for people in the building. This is expected to aid market growth. However, a significant amount of area is needed to install the tuned mass damper, which could slightly hinder the market growth as real estate prices of such towers are very high. Also, the effectiveness of TMD is dependent on the accuracy of tuning. Therefore, is it very necessary to tune the damper precisely, which is difficult to achieve and hence could affect the market growth. Global tuned mass damper market (TMD) is segmented on the basis of product type, application and region. On the basis of product type, the market is segmented into vertical TMD and horizontal TMD. Horizontal TMD accounts for the majority share in the global tuned mass damper (TMD) market. On the basis of application, the market is segmented into Large Structures, Narrow Structures, Wide Structures and Others. Large structures account for the majority share in the global tuned mass damper (TMD) market, followed by wide structures.

Global Tuned Mass Damper (TMD) Market by Product Type, 2018

On the basis of region, the market is segmented into North America, Europe, China, Japan and Rest of the World. China accounts for the majority share in the global tuned mass damper market, owing to increasing government initiatives towards improving infrastructure such as building sea and river bridges for better connectivity. Also, China is expected to register the highest growth rate over the forecast period. Countries and regions such as North America, Europe and Japan are expected to register stable growth over the forecast period. The research report on the global tuned mass damper market includes profiles of some of the major companies such as Taylor Devices, Inc., GERB Schwingungsisolierungen GmbH & Co KG, Design, Imaging, & Control, Inc., Vibratec Akustikprodukter AB, TVS Acoustics, Jiangsu ROAD Damping Technology CO., Ltd.

Below are the active patents related to Tuned Mass Damper Market.

Patent Number: US8998185B2 Vibration damping device for vertically cantilevered pump assemblies Abstract A Tuned Mass Damper (TMD) for damping oscillations of a hanging vertical pump structure includes a removable mass symmetrically configured within the pump structure diameter and supported by a mechanism which provides damped mobility relative to the pump structure so as to absorb and dampen pump vibrations and oscillations. The TMD mass is easily removable before tipping of the pump between horizontal and vertical orientations during maintenance. In some embodiments, the TMD mass comprises fluid pumped by the pump to fully or partially fill a housing, the fluid being gravitationally drained therefrom when the pump is not operating. In other embodiments the TMD mass is supplied by removable solid weights. Damped mobility is provided by springs damped by mechanical or fluid friction, or by obstructed movement of fluid within a partially filled housing. In embodiments, the TMD mass is at least 5% of the total mass of the pump structure. Application filed by Date: 2011-05-02 Application granted Date: 2015-04-07 Current Assignee: Flowserve Management Co Patent Number: CN202954450U Bidirectional horizontal adjustable damping control device Abstract The utility model discloses a bidirectional horizontal adjustable damping control device which comprises a main structure, wherein a plurality of one-way hinges are fixed on the top in the main structure, the upper end of a rigid suspender is connected to each one-way hinge, the lower end of each rigid suspender is connected to a container, a transverse guide rail is arranged in the container, a trolley is arranged on the transverse guide rail, a mass block is arranged on the trolley, and the front end and the rear end of the trolley are respectively connected to the side wall of the container along the direction of the transverse guide rail through springs and viscous oil dampers. The bidirectional horizontal adjustable damping control device can be used for reducing the response of a structure under different directions of earthquake or wind loads, has the characteristics of low cost, convenience for mounting and the like and is applied to a long-span power transmission tower, a television tower and a related structure. Application filed by Date: 2012-12-05 Application Granted Date: 2013-05-29 Current Assignee: Shandong Electric Power Engineering Consulting Institute Corp Ltd Patent Number: CN104264854A Magnetic suspension type horizontal tuned mass damper Abstract The invention belongs to the field of horizontal vibration control devices for civil engineering structures and particularly relates to a magnetic suspension type horizontal tuned mass damper. The magnetic suspension type horizontal tuned mass damper comprises a frame and a mass block in the middle of the frame, the frame comprises vertical plates on two sides, an upper cross beam and a lower cross beam are connected between the vertical plates, and support bottom plates are arranged at the lower ends of the vertical plates. A linear guide rail and a slider sliding along the linear guide rail are fixed above the middle of the lower cross beam, the mass block is fixedly connected with the slider through screw nuts, a damper is connected between the mass block and each vertical plate, a pressure spring sleeving the lower cross beam is mounted between the mass block and each vertical plate, a first rectangular permanent magnet is fixedly mounted at the top of the mass block, and a second rectangular permanent magnet is arranged on the upper cross beam corresponding to the first rectangular permanent magnet. According to the magnetic suspension principle, friction between the slider and the linear guide rail is reduced to enable normality in operation of the horizontal TMD (tuned mass damper) even in weak vibration environment, flexibility and reliability of the TMD are improved, and service lives of the slider and the linear guide rail are prolonged owing to low friction. Application filed by Date: 2014-08-28 Application Granted Date: 2015-10-28 Current Assignee: Current Assignee North China University of Water Resources and Electric Power Patent Number: CN102031751A Big-tonnage cantilever type horizontal tuned mass damper for regulating eddy-current damping Abstract The invention relates to a horizontal vibration energy-absorbing and vibration-damping device used for large engineering structures such as a longspan foot bridge, belonging to the field of vibration control of civil engineering structures. The horizontal vibration energy-absorbing and vibration-damping device comprises a constant strength cantilever beam consisting of struts at two sides and a cross beam, two ends of the cross beam are respectively and correspondingly connected with the struts at two sides, and the bottom ends of the struts at two sides are fixed on a foundation. The horizontal vibration energy-absorbing and vibration-damping device is characterized in that the upper end of a mass block is connected with the cross beam, the lower end of the mass block is provided with a rectangular permanent magnet; and one side of the lower part of the mass block is provided with a copper plate fixedly arranged on the foundation through a supporting member, and a gap is reserved between the copper plate and the rectangular permanent magnet. The invention ensures that the rigidity and the dampness of the tuned mass damper system realize complete separation, easily realizes that the damping ratio of TMD is continuously adjustable within a larger range though regulating the gap between the permanent magnet and the copper plate, and effectively solves the problems of oil leakage failure in the conventional TMD, difficult regulation of the damping parameters and interference on the frequency. Application filed by Date: 2010-12-23 Application Granted Date: 2012-06-27 Current Assignee: Current Assignee Hunan province Xiao Vibration Engineering Technology Co Ltd.

Key Market Segments:

By Type
  • Vertical TMD
  • Horizontal TMD
By Application
  • Large Structures
  • Narrow Structures
  • Wide Structures
  • Others

Key Market Players included in the report:

  • ACE Controls
  • Deicon
  • Design
  • ESM Energie
  • GERB Schwingungsisolierungen GmbH & Co KG
  • Getzner Werkstoffe GmbH
  • Imaging & Control Inc.
  • Jiangsu ROAD Damping Technology CO.Ltd
  • Lead Dynamic Engineering
  • Taylor Devices Inc.
  • Total Vibration Solutions
  • TVS Acoustics
  • Vibratec Akustikprodukter AB

Below are the key development related to Tuned Mass Damper Market in 2020 and 2021.

May 2021: Renishaw Launches Functional Safety Enclosed Encoder. Renishaw has launched functionally safe variants of its FORTiS enclosed encoder series. FORTiS FS is an enclosed linear absolute encoder system certified to functional safety standards – certain machinery safety functions, such as Safety Limited Speed (SLS), require the encoder position feedback to be functionally safe. Utilising an encoder system that is already rated for use in safety-related applications can make machine certification significantly easier. Adopting these advanced machinery safety functions enables machine tool builders to make safer machines that are capable of higher functionality, reducing set-up times and machine downtime. FORTiS FS encoders are compatible with the Siemens DRIVE-CLiQ and BiSS Safety serial communications protocols. The innovative FORTiS enclosed linear absolute encoder series is designed for use in harsh environments such as machine tools.The FORTiS encoder design is built upon industry-proven RESOLUTE encoder technology and provides high resistance to the ingress of liquids and solid debris contaminants. It features an extruded enclosure with longitudinally attached interlocking lip seals and sealed end caps. The readhead body is joined to a sealed optical unit by a blade, which travels through the DuraSeal lip seals along the length of the encoder. Linear axis movement causes the readhead and optics to traverse the encoder’s absolute scale (which is fixed to the inside of the enclosure), without mechanical contact.Customers can choose from two different extrusion profiles to suit their space requirements. The FORTiS-S linear encoder is the standard-sized encoder, available with measuring lengths from 140 mm to 3040 mm and is installed directly to a machined surface via flexure holes in the extrusion’s body.The FORTiS-N encoder, available with measuring lengths from 70 mm to 2040 mm, features a narrower cross-section extrusion and a more compact readhead to enable installations in confined spaces. This model can be mounted directly to a machined surface via two end cap mounting holes or a mounting spar for greater rigidity. He continues, “FORTiS absolute encoders also feature integrated, specially-designed tuned mass dampers that deliver class-leading 30 g vibration resistance and push the limits of what enclosed encoders can endure. Installation of FORTiS encoders is quick and easy, which will help our customers save manufacturing and servicing time. Furthermore, with the growing industrial trend towards risk reduction for systems and processes, we were committed to providing Functional Safety variants for all FORTiS enclosed encoders. We are now delighted to offer FS certified products to the market just four months after launching the FORTiS range. Source October 2020: M3 will become Mississauga’s tallest tower at 81 storeys. Construction work is well underway at the M City condominiums in Mississauga, Ont. EllisDon is the construction manager of the three-phase project that will include a 60-storey, 783-suite tower with retail and five-levels of underground parking; another 60-storey, 793-suite tower with townhomes and retail; and an 81-storey tower. Core Architects is the architect for M1 and M2 and IBI Group is the architect for M3. Consultants are: Read Jones Christoffersen (structural); Smith + Andersen (mechanical/electrical); Cecconi Simone (interior); and The Planning Partnership (landscape). Rogers Real Estate Development and Urban Capital Property Group have launched construction on what will become the tallest building in Mississauga, Ont., the 81-storey M3 residences set to rise as part of the $2.5-billion M City development. M3 will be the third of eight towers in the 15-acre, 4.3-million-square-foot master-planned community designed by urban designers Cooper Robertson of New York for the Burnhamthorpe and Confederation Parkway community. Other members of the M3 project team include contractor EllisDon; IBI Group, winners of an international design competition for M3; and interior designers Cecconi Simone. Members of the project team for the 81-storey M3 building in Mississauga are developers Rogers Real Estate Development and Urban Capital Property Group; urban designers Cooper Robertson; contractor EllisDon; IBI Group, winners of an international design competition for M3; and interior designers Cecconi Simone. M CITY — Members of the project team for the 81-storey M3 building in Mississauga are developers Rogers Real Estate Development and Urban Capital Property Group; urban designers Cooper Robertson; contractor EllisDon; IBI Group, winners of an international design competition for M3; and interior designers Cecconi Simone. Work is already underway at M1 and M2, which at 60 storeys each are slated to become the two tallest towers in the city when they are competed in early 2023 — until M3 is finished, a milestone projected for late 2026. M3 will have 900 units and M1 and M2 combined will have 1,570 units.EllisDon director of operations Steven Ferrante noted that operational logistics are challenging given there are currently 220 workers working on three towers at different stages of completion. Ultimately it is going to be the showpiece of Mississauga and we want to make sure it is executed perfectly and looks amazing and everyone is happy at the end of the day,” he commented. In the COVID-19 era, Ferrante said, managing the flow of workers in and out of the site and vertically up and down the structures requires extra ingenuity, both at ingress points and employing complex hoist systems that bring workers and the materials they need to the right spaces, with distancing as required. With the new social distancing protocols we have had to stagger certain sequences of work rather than working concurrently as we did before COVID,” he said, noting for the three towers EllisDon is using Common Tower Man and Material Hoists. It is fortunate the M City project is being built in a greenfield, Ferrante said, as opposed to congested sites in downtown Toronto, so there is more space for laydown of materials. Over the course of the spring and summer, EllisDon and its partners have worked hard to improve productivity on the jobsite as they attempted to master health and safety protocols created to deal with COVID. He estimated productivity, which is carefully measured by the firm, is now at about 85 per cent of what it was pre-pandemic — and that may now be viewed as the new benchmark going forward. At different stages of projects the impacts could be less or they could be more. We don’t know how they will average out as the projects are still in the first half of their construction life cycle,” Ferrante said. A unique system for 81 storeys. Constructing to 81 storeys will require a unique system to accommodate the resonance of the top of the building to wind stresses — its tendency to sway. Engineers recommended employing a tuned mass damper (TMD) system that consists of a mass, a spring and a damper to reduce the dynamic response of the structure in wind. The TMD, also called a harmonic absorber, works by dissipating energy by the damper inertia force acting on the building. Meanwhile “sloshing tanks” will be used near the tops of M1 and M2, Ferrante said, to counter the swaying caused by winds or possible seismic events in those buildings.Source  

Chapter 1 Global Tuned Mass Damper Market Overview

1.1 Introduction
1.2 Drivers for Tuned Mass Damper Market
1.3 Restraints for Tuned Mass Damper Market
1.4 Global Tuned Mass Damper Market by Product Type

1.4.1 Global Tuned Mass Damper Revenue Comparison by Product Type (2012- 2028)
1.4.2 Global Tuned Mass Damper Revenue Market Share by Product Type in 2018
1.4.3 Global Tuned Mass Damper Market Attractiveness Analysis by Product Type, 2012–2018


1.5 Global Tuned Mass Damper Market by Applications

1.5.1 Global Tuned Mass Damper Revenue Comparison by Applications (2012-2028)
1.5.2 Global Tun
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