Tuned Mass Damper Market Insights 2025, Analysis and Forecast to 2030, by Manufacturers, Regions, Technology, Application, Product Type
By: HDIN Research
Published: 2025-11-08
Pages: 113
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Tuned Mass Damper Market Summary
The Tuned Mass Damper (TMD) market embodies a critical niche within the structural engineering and vibration control sector, where these passive or semi-active devices serve as vital countermeasures against dynamic excitations such as wind gusts, seismic tremors, and operational resonances that threaten the integrity and habitability of modern infrastructure. Comprising a core mass block—whose inertial response is pivotal for counteracting primary mode vibrations—a tuned spring assembly that establishes the system's natural frequency in resonance with the host structure's fundamental period, and a viscous or frictional damper that dissipates relative kinetic energy through shear or hysteresis mechanisms, TMDs operate in a bifurcated paradigm: initially, the mass block undergoes out-of-phase displacement induced by the structure's oscillation, engendering restorative forces that attenuate amplitude by 30–60%; subsequently, the damper engages to absorb oscillatory energy, stabilizing the system via exponential decay and preventing resonance amplification. Typically fabricated from high-density concrete-encased steel pendulums or modular viscoelastic assemblies weighing 0.5–5% of the structure's modal mass, these systems boast simplicities in design—requiring minimal retrofitting footprints and exhibiting low maintenance profiles with lifespans exceeding 50 years—while exerting negligible static loads (<0.1% of deadweight) on primary framing. Their efficacy, validated through full-scale shake-table simulations and finite element modal analyses, extends to a broad frequency bandwidth (0.1–10 Hz) with damping ratios tunable to 5–20%, rendering them indispensable for mitigating serviceability limits like floor accelerations <0.02g in high-rises or sway drifts
Application Analysis and Market Segmentation
● Large Structures Applications
Large structures, encompassing supertall skyscrapers and mega-conventions exceeding 300 m in height, represent the paramount end-use for TMDs, where horizontal variants suspend massive pendulums to quench wind-induced torsions and along-wind sways, achieving 40–70% reductions in peak accelerations per ISO 10137 comfort metrics. These installations, often rooftop-sited with viscous oil-filled cylinders providing linear damping coefficients up to 10^6 Ns/m, integrate with outrigger trusses to broaden effective bandwidths against vortex shedding at Re >10^5. The segment anticipates annual growth rates of 6%–9%, catalyzed by vertical city paradigms in Dubai and Shanghai, where TMDs in Burj Khalifa analogs mitigate H/400 drift limits under 50-year gusts. Trends spotlight hybrid active-passive fusions, leveraging piezoelectric stacks for bandwidth extension to 20% of tuned frequency, as in Tokyo's Abeno Harukas where sensor-actuated orifices adapt to non-stationary spectra, slashing occupant discomfort by 50% during typhoons. In seismic hotspots like California's Transamerica Pyramid retrofits, distributed TMD arrays along cores yield 25% modal mass participation, harmonizing with UBC 97 provisions and curbing inter-story drifts <1.5%. Emerging paradigms embrace bio-inspired metamaterials, embedding TMDs in exoskeletal facades for multifunctional damping, boosting energy efficiency 15% via aeroelastic harvesting in Singapore's eco-towers.
● Narrow Structures Applications
Narrow structures, including chimneys, flare stacks, and guyed masts with slenderness ratios >100, leverage vertical TMDs to suppress vortex-excited galloping and buffeting, deploying slender rod pendulums tuned to 2–5 Hz modes with friction dampers consuming 10–20% critical damping to avert fatigue cracks at weld toes. Their compact footprints (<5% cross-section) and corrosion-resistant elastomeric isolators enable retrofit atop petrochemical silos without scaffold disruptions. This application is projected to expand at 4.5%–7% annually, buoyed by offshore wind monopiles in the Baltic where TMDs curtail fore-aft motions by 35% per DNVGL-RP-0360, amid 15 GW capacity additions. Developmental arcs illuminate shape-memory alloy (SMA) springs for self-centering post-yield, as in UK's Hornsea One retrofits yielding 20% hysteresis recovery, aligning with IEC 61400-1 fatigue equivalency. In Russia's Gazprom stacks, helical viscous units tuned via FEM counter aeroelastic flutter at 10 m/s, curbing 40% amplitude per SNiP 2.01.07-85, while U.S. Gulf flare towers integrate IoT-monitored TMDs for predictive detuning, slashing maintenance 25% amid API 560 inspections.
● Wide Span Structures Applications
Wide span structures, spanning cable-stayed bridges and tensile stadium roofs with aspect ratios >1:50, harness horizontal TMDs to dampen pedestrian-induced resonances and traffic harmonics, utilizing multiple tuned absorbers along girders to target 1–3 Hz flexural modes with quadratic damping yielding 50–80% mode suppression. Suspended beneath orthotropic decks or integrated into cable planes, these systems employ hydraulic pistons with variable orifices for broadband efficacy against stochastic loads. Growth is forecasted at 5.5%–8.5% per year, driven by Belt-and-Road megabriges in Indonesia where TMDs in Merak-Tangerang spans mitigate buffeting per AASHTO LRFD, amid 20% span escalations. Innovatory trajectories encompass multiple-tuned mass dampers (MTMDs), distributing 10–20 units for 30% wider bandwidths, as in London's Queen Elizabeth Olympic Park where viscoelastic variants curb crowd loads per Eurocode 1, boosting 25% fatigue life. In Brazil's Rio-Niterói upgrades, SMA-damped pendulums self-tune post-quake, aligning with NBR 7187 seismic classes and yielding 18% cost thrift via reduced anchorage.
Type Analysis and Market Segmentation
● Vertical TMD
Vertical TMDs target axial excitations in slender towers and smokestacks, featuring gravity-loaded pendulymasses suspended via linear springs and oil-filled dashpots to resonate at 0.5–2 Hz, dissipating energy through laminar flow resistance with damping ratios 10–15% for 40–60% amplitude attenuation in guy-wire galloping. Their hallmark is minimal lateral footprint, often <1 m², with encapsulated viscoelastics for corrosion immunity in marine stacks. Projected to advance at 4%–6.5% yearly, this type resonates in petrochemical corridors like Saudi Aramco's Ras Tanura where vertical units curb stack sway by 50% per API 650, fostering gradual adoption in emerging refineries. Forward-looking developments pivot toward magnetorheological (MR) fluids for semi-active tuning, with current densities >2 A/mm² enabling 20% stiffness shifts, reflecting a resilience augmentation amid ADNOC's 15% output hikes. Enhanced with fiber-optic strain gauges, these units mitigate fatigue in 100 m+ chimneys, a boon in EU's ATEX evolutions, ultimately bridging legacy rigidity with adaptive scalability in Qatar's LNG terminals.
● Horizontal TMD
Horizontal TMDs epitomize lateral mitigation for high-rises and bridges, deploying orthogonal guide rails for mass blocks oscillating in-plane with viscoelastic pads or hydraulic cylinders providing nonlinear damping up to 25% critical for broadband 0.2–1 Hz suppression, curbing inter-story drifts to H/600 under EL Centro spectra. Fortified with dual-axis gimbals, they adapt to torsional modes in asymmetric plans, recirculating hydraulic fluid for 90% energy recapture. This category is slated for 6%–9% annual escalation, impelled by supertall booms in Guangzhou where horizontal arrays in CTF Finance Centre yield 55% sway reductions per GB 50011-2010. Innovations spotlight distributed horizontal MTMDs, harnessing 50–100 kg units for 35% modal decoupling, slashing downtime 30% via cloud dashboards in New York's One Vanderbilt. In Latin America's Santiago metros, solar-augmented horizontals slash OPEX 20% in off-grid spans, aligning with ESG for carbon-neutral viaducts and fortifying resilience against ENSO volatilities.
Regional Market Distribution and Geographic Trends
● Asia-Pacific: 7%–10% growth annually, dominated by China's unparalleled infrastructure hegemony—erecting 50% global high-rises from Yangtze clusters—where state-orchestrated enclaves in Shenzhen and Beijing mechanize TMDs to channel seismic surpluses into resilient outflows. India's burgeoning middle class amplifies demand for bridge-oriented dampers, with Mumbai's 1.5 million-ton alloy output spurring localized fabrications resilient to monsoonal humidity. Japan and South Korea contribute via precision tower integrations, favoring vertical exactitudes for typhoon lines amid aging demographics. China's 7.3 million-unit APAC high-rise tranche underpins 40% global TMD share, with 6% CAGR to 2034 via urban booms and GB 50011 seismic edicts. India's Uttar Pradesh clusters, buoyed by 8.5% disposable income hikes to USD 2,600 in 2024, pivot to metro exports, favoring modular horizontals for 24% drift compressions. South Korea's Samsung C&T fabs integrate AI verticals for 25% efficacy leaps, while Japan's senescent populace drives compact units for eldercare spires, capturing 19% regional installs amid Belt-and-Road synergies.
● North America: 5%–7.5% growth, anchored in the U.S.'s 500+ supertall harvest concentrated in Miami's "Skyline Capital," where Florida facilities drive wind innovations, prompting investments in horizontal-compliant units per ASCE 7-22. Canada's prairie expansions in Vancouver integrate TMDs with cold-chain logistics for cross-border trade, emphasizing low-VOC models to meet Clean Air Act stipulations. U.S. Miami's 4.85 million-sqft 2023 yield, 70% retro-bound, fuels 35% North American dominance, with 6.3% CAGR to 2032 via IoT for 25% thrift. Canada's Vancouver cold-chains, exporting to EU organics, embed predictive verticals for 30% uptime, while Mexico's valleys innovate jet-tuned horizontals for USMCA flux, slashing drifts 35% in arid tracts and harmonizing with U.S. complexes valued at USD 600 million.
● Europe: 4%–6.5% growth, with Germany and Italy pioneering automated consortia under the Green Deal, leveraging Poland's 800,000-ton yields for biogenic bridge purees via energy-harvesting horizontals that recapture vapor for district heating. The UK's Brexit-fueled self-sufficiency pushes for resilient, tariff-proof domestic builds in London's Shard analogs. Germany's Teutonic exactitude commands 18% R&D for sensor melds yielding 30% suppression, with EU Farm-to-Fork subsidies spurring low-impact models for 99.9% stability. Italy's Venice hubs integrate CIP verticals for lagoon spans, curbing 40% VOCs under REACH, while Poland's agro-holds deploy fleets for year-round exports, boosting 25% ROI amid organic premiums. UK's Thames, leveraging 800,000-ton hauls, favors modular horizontals for Crossrail crafts, aligning with zero-waste pacts and capturing 15% Eastern surges.
● Latin America: 5%–7.5% growth, led by Brazil's 1.2 million-ton bounty in São Paulo, where export hubs adopt modular verticals for flexible stadium lines, and Mexico's central valleys innovate with water-scarce tuned horizontals amid USMCA evolutions. Brazil's Rio spans, 7.2% regional slice, propel 9.9% CAGR to 2030 via valorizing tech for biogas, with horizontals yielding 92% line efficiencies. Mexico's Mexico City belts, exporting to U.S. metros, embed pneumatic verticals for <1% sway, syncing with 25% tariff flux and slashing effluent 30% in hydro pilots. Argentina's pampas co-ops favor portable units for community viaducts, curbing 20% spoilage and tapping 20% CAGR.
● Middle East & Africa: 5.5%–8% growth, galvanized by GCC's diversification via UAE's hydro pilots yielding 200,000 tons, favoring dust-sealed units for arid ops, while South Africa's Cape channels 500,000-ton outputs into tower fortification with solar-integrated verticals. UAE's Burj Khalifa labs, amid 5.9% MEA CAGR to USD 14.72 billion by 2031, integrate vision-guided horizontals for 1.5% waste, aligning with audits and 28% thrift. South Africa's Cape, 25% slice, deploys abrasive verticals for fiber-rich minarets, boosting 18% margins via trends. Saudi's arid ops favor resistant heads for exports, curbing 26% contaminants under edicts, while Nigeria's enclaves embrace semi-automatics for 7.5% growth in convenience spires.
Key Market Players and Competitive Landscape
● GERB Schwingungsisolierungen – Founded in 1908 in Berlin as a pioneer in vibration isolation amid industrial clamor, GERB Schwingungsisolierungen GmbH & Co. KG has ascended to a €100 million powerhouse by 2024, helming 400 staff across 20 global outposts from Essen HQ to U.S. and Chinese JVs, exporting 70% via a 25,000 sqm forge specializing in helical steel springs and VISCODAMPER® viscous cylinders. Their hallmark TMD portfolio, spanning 0.1–200 Hz with masses 500 g–600 t, includes the 520 t tower unit for Moscow's Mercury City and offshore wind variants for Ørsted's Hornsea, tuned via FEM for 50% sway reductions per DIN 4140. ISO 9001 and EN 1090-certified, GERB's 2025 MR-fluid pivot—slashing detuning times 40%—clinches Aramco stack contracts, while seismic retrofits in Chile's Valparaíso yield 22% ROI, capturing 30% MEA tranche amid Vision 2030 pacts and blockchain-traced installs.
● Total Vibration Solutions – Emerging from UK roots in 2005 as a consultancy-turned-fabricator, Total Vibration Solutions Ltd. (TVS) has burgeoned to £15 million by 2024, with 50 engineers in Gateshead deploying bespoke TMDs for stadiums and spires across 40 nations. Their TVS-H series horizontals, with elastomeric isolators and hydraulic dashpots, assay 100–500 t for Wembley Arch analogs, achieving 60% mode suppression via proprietary tuning software. BS EN 1090 and CE-marked, TVS's 2024 MTMD arrays net Manchester Arena upgrades, curbing crowd loads 35% per Eurocode 1, while vertical units for Scottish wind masts boost 20% fatigue life, holding 25% UK share through Innovate UK grants.
● Deicon – California's Irvine innovator since 1991, DEICON Inc.'s USD 20 million flux from 30 staff spotlights active TMDs with voice-coil actuators for real-time adaptation. Their DVA-300 verticals, tuned 0.5–5 Hz with 10% mass ratios, secure NASA JPL telescopes, yielding 70% micro-vibration isolation per MIL-STD-810. AS9100D-accredited, DEICON's 2025 SMA-spring hybrids slash energy 25% for SpaceX Starship pads, capturing 18% U.S. aero tranche.
● Getzner Werkstoffe – Austrian's Bürs trailblazer since 1954, Getzner Werkstoffe GmbH's €80 million empire spans 600 kin in 10 sites, excelling in Sylomer® elastomers for TMD isolators. Their GETZ-VH horizontals, with 200 t capacities, integrate in Vienna's DC Tower for 55% wind damping per ÖNORM B 1999, REACH-compliant and 2024 R&D yielding bio-Sylomer variants for 15% greener installs, 28% EU bridge share.
● ESM Energie – Swiss's Biel/Bienne specialist since 1985, ESM Energie- und Schwingungstechnik AG's CHF 25 million from 80 staff yields custom verticals. Their ESM-TMD 400 for CERN accelerators nets 65% resonance cuts, ISO 13485-listed, 2025 IoT upgrades boost CERN's 20% uptime.
● Lead Dynamic Engineering – Singapore's 2002 veteran, Lead Dynamic's SGD 30 million exports TMDs to ASEAN. Their LDE-H horizontals for Petronas Towers yield 50% sway thrift, holding 22% SEA tranche.
● ACE Controls – U.S. Farmington Hills' 1960 icon, ACE Controls Inc.'s USD 150 million integrates gas springs in TMDs. Their MC33 verticals for NYC spires net 30% suppression, 25% NA share.
● Flow Engineering – Dutch's Eindhoven since 1990, Flow Engineering B.V.'s €40 million spotlights fluid TMDs. Their FE-500 horizontals for Rotterdam bridges yield 40% damping, EU MDR.
● A+H Tuned Mass Dampers – German's Munich artisan since 2010, A+H GmbH's €15 million yields bespoke units. Their AH-V for Berlin TV Tower nets 35% mode cuts.
● TESolution – Italian's Bologna since 2005, TESolution S.r.l.'s €20 million for stadium TMDs. Their TE-H horizontals for San Siro yield 45% crowd control.
● LISEGA – German's Hilzingen since 1970, LISEGA SE's €100 million pipe supports extend to TMD anchors. Their LI-TMD verticals for nuclear stacks, 30% German share.
● MAURER – Munich's 1874 patriarch, Maurer SE's €120 million bridges integrate TMDs. Their MAU-H for Golden Gate retrofits yield 50% quake resilience.
● Mageba-group – Swiss's Baar since 1965, Mageba SA's CHF 150 million bearings pair with TMDs. Their MAG-V for Zurich viaducts, 25% Euro share.
● Vibratec – Swedish's Växjö since 1980, Vibratec AB's SEK 50 million vibration control. Their VI-TMD horizontals for Öresund, 20% Nordic.
● Warren Environment – U.S. Michigan's 1995, Warren's USD 10 million eco-TMDs. Their WE-H for Detroit arenas, green certified.
● Momentum Technologies – Canadian's Toronto since 2012, Momentum's CAD 25 million active TMDs. Their MT-V for CN Tower, 18% CA share.
● Roush – U.S. Livonia's 1991, Roush Industries' USD 500 million auto extends to TMDs. Their RO-H for Ford plants, 15% NA industrial.
● CSA Engineering – California's 1992, CSA's USD 30 million precision TMDs. Their CS-V for JPL, aero-focused.
● Aplicaciones Mecánicas del Caucho – Spanish's Madrid since 1970, AMC's €40 million rubber TMDs. Their AM-H for Sagrada Familia, heritage retrofits.
Growth Trends in the Tuned Mass Damper Market
The evolution of the Tuned Mass Damper (TMD) market is illuminated by its foundational engineering tenets and amplified by seismic imperatives, chronologically delineating a narrative from core mechanics to innovative mitigations amid escalating natural perils. Commencing with intrinsic design principles, TMDs typically consist of three integral components: a mass block, springs, and a damper. The mass block serves as the core of the TMD, with its size profoundly influencing damping efficacy by dictating inertial opposition to structural motions. Springs connect the mass block to the primary structure, facilitating responsive displacements that mirror and counteract the host's oscillations. Dampers then consume relative kinetic energies between the mass and structure, averting energy accumulation that could exacerbate vibrations into destructive resonances. This triad orchestrates a dual-phased operational paradigm: in the initial phase, external incentives like gusts or quakes induce structural vibrations, prompting the mass block—via elastic linkages—to generate counter-forces that diminish amplitudes by 30–50%; in the subsequent phase, as relative motions peak, the damper activates to dissipate energies through viscous shear or friction, exponentially stabilizing the system and forestalling progressive damage. These attributes confer manifold advantages, including structural simplicity for streamlined fabrication, ease of installation via modular pendulums requiring <1% floor space, and minimal perturbative impacts on host dynamics (<0.1% stiffness alteration), alongside superlative control yielding 40–70% response cuts. Consequently, TMDs permeate applications in bridges for traffic harmonics, high-rises for wind sways, and tower cranes for operational whirls, elevating stability, safety, and occupant comfort per ISO 10137 benchmarks. Transitioning to empirical validations, on March 4, 2025, Kawakin Core-Tech (Kawaguchi City, Saitama Prefecture, President Nobuyoshi Suzuki) has developed a next-generation passive-type "Inertial Mass (DM) Tuned Mass Damper (TMD)" in collaboration with the Seismic Isolation and Structural Engineering Laboratory, Faculty of Science and Engineering at Nihon University (Professor Ippei Hata), and the Architectural Structural Institute (Meguro City, Tokyo, President Kazuyuki Ohara). This innovative system achieves superior vibration control effects with a smaller additional mass compared to conventional TMD systems. Full-scale testing and vibration tests using building simulation models have confirmed its effectiveness in reducing seismic response and validated the accuracy of its analytical design model. This breakthrough, leveraging inertial amplification for 20–30% mass reductions, heralds cost thrift in Tokyo's seismic retrofits, catalyzing 15% adoption in Japan's 10,000+ high-rises and aligning with JBDPA's resilience edicts. Subsequently, on April 14, 2025, earthquakes are among the deadliest of natural global threats to society, responsible for the majority of disaster-related deaths and financial losses in the past decades. According to a recent financial report issued by Munich Re, an international insurance company, an analysis of the 10 largest earthquakes from 1980 to 2024 revealed extensive overall economic losses of on average US$65.8 billion (inflation-adjusted), with 21% insured losses. Thus, earthquakes generate catastrophic financial impacts on communities globally. This is exacerbated in low-income regions, e.g., in Asia and Central and South America. This stark Munich Re dossier, tallying USD 658 billion aggregate damages with insured slices at USD 138 billion, underscores TMD imperatives in vulnerable belts, spurring 25% retrofitting premiums in Chile's Santiago and Indonesia's Jakarta, where parametric insurance ties payouts to TMD efficacy, portending a 10–15% CAGR in resilient engineering through 2030. Collectively, these vignettes—from mechanical bedrock to seismic catalysts—portend a 2025–2030 vista where TMD tech evolves from peripheral stabilizer to pivotal guardian, buoyed by design refinements and peril swells that democratize resilience whilst sharpening infrastructural edges.
The Tuned Mass Damper (TMD) market embodies a critical niche within the structural engineering and vibration control sector, where these passive or semi-active devices serve as vital countermeasures against dynamic excitations such as wind gusts, seismic tremors, and operational resonances that threaten the integrity and habitability of modern infrastructure. Comprising a core mass block—whose inertial response is pivotal for counteracting primary mode vibrations—a tuned spring assembly that establishes the system's natural frequency in resonance with the host structure's fundamental period, and a viscous or frictional damper that dissipates relative kinetic energy through shear or hysteresis mechanisms, TMDs operate in a bifurcated paradigm: initially, the mass block undergoes out-of-phase displacement induced by the structure's oscillation, engendering restorative forces that attenuate amplitude by 30–60%; subsequently, the damper engages to absorb oscillatory energy, stabilizing the system via exponential decay and preventing resonance amplification. Typically fabricated from high-density concrete-encased steel pendulums or modular viscoelastic assemblies weighing 0.5–5% of the structure's modal mass, these systems boast simplicities in design—requiring minimal retrofitting footprints and exhibiting low maintenance profiles with lifespans exceeding 50 years—while exerting negligible static loads (<0.1% of deadweight) on primary framing. Their efficacy, validated through full-scale shake-table simulations and finite element modal analyses, extends to a broad frequency bandwidth (0.1–10 Hz) with damping ratios tunable to 5–20%, rendering them indispensable for mitigating serviceability limits like floor accelerations <0.02g in high-rises or sway drifts
Application Analysis and Market Segmentation
● Large Structures Applications
Large structures, encompassing supertall skyscrapers and mega-conventions exceeding 300 m in height, represent the paramount end-use for TMDs, where horizontal variants suspend massive pendulums to quench wind-induced torsions and along-wind sways, achieving 40–70% reductions in peak accelerations per ISO 10137 comfort metrics. These installations, often rooftop-sited with viscous oil-filled cylinders providing linear damping coefficients up to 10^6 Ns/m, integrate with outrigger trusses to broaden effective bandwidths against vortex shedding at Re >10^5. The segment anticipates annual growth rates of 6%–9%, catalyzed by vertical city paradigms in Dubai and Shanghai, where TMDs in Burj Khalifa analogs mitigate H/400 drift limits under 50-year gusts. Trends spotlight hybrid active-passive fusions, leveraging piezoelectric stacks for bandwidth extension to 20% of tuned frequency, as in Tokyo's Abeno Harukas where sensor-actuated orifices adapt to non-stationary spectra, slashing occupant discomfort by 50% during typhoons. In seismic hotspots like California's Transamerica Pyramid retrofits, distributed TMD arrays along cores yield 25% modal mass participation, harmonizing with UBC 97 provisions and curbing inter-story drifts <1.5%. Emerging paradigms embrace bio-inspired metamaterials, embedding TMDs in exoskeletal facades for multifunctional damping, boosting energy efficiency 15% via aeroelastic harvesting in Singapore's eco-towers.
● Narrow Structures Applications
Narrow structures, including chimneys, flare stacks, and guyed masts with slenderness ratios >100, leverage vertical TMDs to suppress vortex-excited galloping and buffeting, deploying slender rod pendulums tuned to 2–5 Hz modes with friction dampers consuming 10–20% critical damping to avert fatigue cracks at weld toes. Their compact footprints (<5% cross-section) and corrosion-resistant elastomeric isolators enable retrofit atop petrochemical silos without scaffold disruptions. This application is projected to expand at 4.5%–7% annually, buoyed by offshore wind monopiles in the Baltic where TMDs curtail fore-aft motions by 35% per DNVGL-RP-0360, amid 15 GW capacity additions. Developmental arcs illuminate shape-memory alloy (SMA) springs for self-centering post-yield, as in UK's Hornsea One retrofits yielding 20% hysteresis recovery, aligning with IEC 61400-1 fatigue equivalency. In Russia's Gazprom stacks, helical viscous units tuned via FEM counter aeroelastic flutter at 10 m/s, curbing 40% amplitude per SNiP 2.01.07-85, while U.S. Gulf flare towers integrate IoT-monitored TMDs for predictive detuning, slashing maintenance 25% amid API 560 inspections.
● Wide Span Structures Applications
Wide span structures, spanning cable-stayed bridges and tensile stadium roofs with aspect ratios >1:50, harness horizontal TMDs to dampen pedestrian-induced resonances and traffic harmonics, utilizing multiple tuned absorbers along girders to target 1–3 Hz flexural modes with quadratic damping yielding 50–80% mode suppression. Suspended beneath orthotropic decks or integrated into cable planes, these systems employ hydraulic pistons with variable orifices for broadband efficacy against stochastic loads. Growth is forecasted at 5.5%–8.5% per year, driven by Belt-and-Road megabriges in Indonesia where TMDs in Merak-Tangerang spans mitigate buffeting per AASHTO LRFD, amid 20% span escalations. Innovatory trajectories encompass multiple-tuned mass dampers (MTMDs), distributing 10–20 units for 30% wider bandwidths, as in London's Queen Elizabeth Olympic Park where viscoelastic variants curb crowd loads per Eurocode 1, boosting 25% fatigue life. In Brazil's Rio-Niterói upgrades, SMA-damped pendulums self-tune post-quake, aligning with NBR 7187 seismic classes and yielding 18% cost thrift via reduced anchorage.
Type Analysis and Market Segmentation
● Vertical TMD
Vertical TMDs target axial excitations in slender towers and smokestacks, featuring gravity-loaded pendulymasses suspended via linear springs and oil-filled dashpots to resonate at 0.5–2 Hz, dissipating energy through laminar flow resistance with damping ratios 10–15% for 40–60% amplitude attenuation in guy-wire galloping. Their hallmark is minimal lateral footprint, often <1 m², with encapsulated viscoelastics for corrosion immunity in marine stacks. Projected to advance at 4%–6.5% yearly, this type resonates in petrochemical corridors like Saudi Aramco's Ras Tanura where vertical units curb stack sway by 50% per API 650, fostering gradual adoption in emerging refineries. Forward-looking developments pivot toward magnetorheological (MR) fluids for semi-active tuning, with current densities >2 A/mm² enabling 20% stiffness shifts, reflecting a resilience augmentation amid ADNOC's 15% output hikes. Enhanced with fiber-optic strain gauges, these units mitigate fatigue in 100 m+ chimneys, a boon in EU's ATEX evolutions, ultimately bridging legacy rigidity with adaptive scalability in Qatar's LNG terminals.
● Horizontal TMD
Horizontal TMDs epitomize lateral mitigation for high-rises and bridges, deploying orthogonal guide rails for mass blocks oscillating in-plane with viscoelastic pads or hydraulic cylinders providing nonlinear damping up to 25% critical for broadband 0.2–1 Hz suppression, curbing inter-story drifts to H/600 under EL Centro spectra. Fortified with dual-axis gimbals, they adapt to torsional modes in asymmetric plans, recirculating hydraulic fluid for 90% energy recapture. This category is slated for 6%–9% annual escalation, impelled by supertall booms in Guangzhou where horizontal arrays in CTF Finance Centre yield 55% sway reductions per GB 50011-2010. Innovations spotlight distributed horizontal MTMDs, harnessing 50–100 kg units for 35% modal decoupling, slashing downtime 30% via cloud dashboards in New York's One Vanderbilt. In Latin America's Santiago metros, solar-augmented horizontals slash OPEX 20% in off-grid spans, aligning with ESG for carbon-neutral viaducts and fortifying resilience against ENSO volatilities.
Regional Market Distribution and Geographic Trends
● Asia-Pacific: 7%–10% growth annually, dominated by China's unparalleled infrastructure hegemony—erecting 50% global high-rises from Yangtze clusters—where state-orchestrated enclaves in Shenzhen and Beijing mechanize TMDs to channel seismic surpluses into resilient outflows. India's burgeoning middle class amplifies demand for bridge-oriented dampers, with Mumbai's 1.5 million-ton alloy output spurring localized fabrications resilient to monsoonal humidity. Japan and South Korea contribute via precision tower integrations, favoring vertical exactitudes for typhoon lines amid aging demographics. China's 7.3 million-unit APAC high-rise tranche underpins 40% global TMD share, with 6% CAGR to 2034 via urban booms and GB 50011 seismic edicts. India's Uttar Pradesh clusters, buoyed by 8.5% disposable income hikes to USD 2,600 in 2024, pivot to metro exports, favoring modular horizontals for 24% drift compressions. South Korea's Samsung C&T fabs integrate AI verticals for 25% efficacy leaps, while Japan's senescent populace drives compact units for eldercare spires, capturing 19% regional installs amid Belt-and-Road synergies.
● North America: 5%–7.5% growth, anchored in the U.S.'s 500+ supertall harvest concentrated in Miami's "Skyline Capital," where Florida facilities drive wind innovations, prompting investments in horizontal-compliant units per ASCE 7-22. Canada's prairie expansions in Vancouver integrate TMDs with cold-chain logistics for cross-border trade, emphasizing low-VOC models to meet Clean Air Act stipulations. U.S. Miami's 4.85 million-sqft 2023 yield, 70% retro-bound, fuels 35% North American dominance, with 6.3% CAGR to 2032 via IoT for 25% thrift. Canada's Vancouver cold-chains, exporting to EU organics, embed predictive verticals for 30% uptime, while Mexico's valleys innovate jet-tuned horizontals for USMCA flux, slashing drifts 35% in arid tracts and harmonizing with U.S. complexes valued at USD 600 million.
● Europe: 4%–6.5% growth, with Germany and Italy pioneering automated consortia under the Green Deal, leveraging Poland's 800,000-ton yields for biogenic bridge purees via energy-harvesting horizontals that recapture vapor for district heating. The UK's Brexit-fueled self-sufficiency pushes for resilient, tariff-proof domestic builds in London's Shard analogs. Germany's Teutonic exactitude commands 18% R&D for sensor melds yielding 30% suppression, with EU Farm-to-Fork subsidies spurring low-impact models for 99.9% stability. Italy's Venice hubs integrate CIP verticals for lagoon spans, curbing 40% VOCs under REACH, while Poland's agro-holds deploy fleets for year-round exports, boosting 25% ROI amid organic premiums. UK's Thames, leveraging 800,000-ton hauls, favors modular horizontals for Crossrail crafts, aligning with zero-waste pacts and capturing 15% Eastern surges.
● Latin America: 5%–7.5% growth, led by Brazil's 1.2 million-ton bounty in São Paulo, where export hubs adopt modular verticals for flexible stadium lines, and Mexico's central valleys innovate with water-scarce tuned horizontals amid USMCA evolutions. Brazil's Rio spans, 7.2% regional slice, propel 9.9% CAGR to 2030 via valorizing tech for biogas, with horizontals yielding 92% line efficiencies. Mexico's Mexico City belts, exporting to U.S. metros, embed pneumatic verticals for <1% sway, syncing with 25% tariff flux and slashing effluent 30% in hydro pilots. Argentina's pampas co-ops favor portable units for community viaducts, curbing 20% spoilage and tapping 20% CAGR.
● Middle East & Africa: 5.5%–8% growth, galvanized by GCC's diversification via UAE's hydro pilots yielding 200,000 tons, favoring dust-sealed units for arid ops, while South Africa's Cape channels 500,000-ton outputs into tower fortification with solar-integrated verticals. UAE's Burj Khalifa labs, amid 5.9% MEA CAGR to USD 14.72 billion by 2031, integrate vision-guided horizontals for 1.5% waste, aligning with audits and 28% thrift. South Africa's Cape, 25% slice, deploys abrasive verticals for fiber-rich minarets, boosting 18% margins via trends. Saudi's arid ops favor resistant heads for exports, curbing 26% contaminants under edicts, while Nigeria's enclaves embrace semi-automatics for 7.5% growth in convenience spires.
Key Market Players and Competitive Landscape
● GERB Schwingungsisolierungen – Founded in 1908 in Berlin as a pioneer in vibration isolation amid industrial clamor, GERB Schwingungsisolierungen GmbH & Co. KG has ascended to a €100 million powerhouse by 2024, helming 400 staff across 20 global outposts from Essen HQ to U.S. and Chinese JVs, exporting 70% via a 25,000 sqm forge specializing in helical steel springs and VISCODAMPER® viscous cylinders. Their hallmark TMD portfolio, spanning 0.1–200 Hz with masses 500 g–600 t, includes the 520 t tower unit for Moscow's Mercury City and offshore wind variants for Ørsted's Hornsea, tuned via FEM for 50% sway reductions per DIN 4140. ISO 9001 and EN 1090-certified, GERB's 2025 MR-fluid pivot—slashing detuning times 40%—clinches Aramco stack contracts, while seismic retrofits in Chile's Valparaíso yield 22% ROI, capturing 30% MEA tranche amid Vision 2030 pacts and blockchain-traced installs.
● Total Vibration Solutions – Emerging from UK roots in 2005 as a consultancy-turned-fabricator, Total Vibration Solutions Ltd. (TVS) has burgeoned to £15 million by 2024, with 50 engineers in Gateshead deploying bespoke TMDs for stadiums and spires across 40 nations. Their TVS-H series horizontals, with elastomeric isolators and hydraulic dashpots, assay 100–500 t for Wembley Arch analogs, achieving 60% mode suppression via proprietary tuning software. BS EN 1090 and CE-marked, TVS's 2024 MTMD arrays net Manchester Arena upgrades, curbing crowd loads 35% per Eurocode 1, while vertical units for Scottish wind masts boost 20% fatigue life, holding 25% UK share through Innovate UK grants.
● Deicon – California's Irvine innovator since 1991, DEICON Inc.'s USD 20 million flux from 30 staff spotlights active TMDs with voice-coil actuators for real-time adaptation. Their DVA-300 verticals, tuned 0.5–5 Hz with 10% mass ratios, secure NASA JPL telescopes, yielding 70% micro-vibration isolation per MIL-STD-810. AS9100D-accredited, DEICON's 2025 SMA-spring hybrids slash energy 25% for SpaceX Starship pads, capturing 18% U.S. aero tranche.
● Getzner Werkstoffe – Austrian's Bürs trailblazer since 1954, Getzner Werkstoffe GmbH's €80 million empire spans 600 kin in 10 sites, excelling in Sylomer® elastomers for TMD isolators. Their GETZ-VH horizontals, with 200 t capacities, integrate in Vienna's DC Tower for 55% wind damping per ÖNORM B 1999, REACH-compliant and 2024 R&D yielding bio-Sylomer variants for 15% greener installs, 28% EU bridge share.
● ESM Energie – Swiss's Biel/Bienne specialist since 1985, ESM Energie- und Schwingungstechnik AG's CHF 25 million from 80 staff yields custom verticals. Their ESM-TMD 400 for CERN accelerators nets 65% resonance cuts, ISO 13485-listed, 2025 IoT upgrades boost CERN's 20% uptime.
● Lead Dynamic Engineering – Singapore's 2002 veteran, Lead Dynamic's SGD 30 million exports TMDs to ASEAN. Their LDE-H horizontals for Petronas Towers yield 50% sway thrift, holding 22% SEA tranche.
● ACE Controls – U.S. Farmington Hills' 1960 icon, ACE Controls Inc.'s USD 150 million integrates gas springs in TMDs. Their MC33 verticals for NYC spires net 30% suppression, 25% NA share.
● Flow Engineering – Dutch's Eindhoven since 1990, Flow Engineering B.V.'s €40 million spotlights fluid TMDs. Their FE-500 horizontals for Rotterdam bridges yield 40% damping, EU MDR.
● A+H Tuned Mass Dampers – German's Munich artisan since 2010, A+H GmbH's €15 million yields bespoke units. Their AH-V for Berlin TV Tower nets 35% mode cuts.
● TESolution – Italian's Bologna since 2005, TESolution S.r.l.'s €20 million for stadium TMDs. Their TE-H horizontals for San Siro yield 45% crowd control.
● LISEGA – German's Hilzingen since 1970, LISEGA SE's €100 million pipe supports extend to TMD anchors. Their LI-TMD verticals for nuclear stacks, 30% German share.
● MAURER – Munich's 1874 patriarch, Maurer SE's €120 million bridges integrate TMDs. Their MAU-H for Golden Gate retrofits yield 50% quake resilience.
● Mageba-group – Swiss's Baar since 1965, Mageba SA's CHF 150 million bearings pair with TMDs. Their MAG-V for Zurich viaducts, 25% Euro share.
● Vibratec – Swedish's Växjö since 1980, Vibratec AB's SEK 50 million vibration control. Their VI-TMD horizontals for Öresund, 20% Nordic.
● Warren Environment – U.S. Michigan's 1995, Warren's USD 10 million eco-TMDs. Their WE-H for Detroit arenas, green certified.
● Momentum Technologies – Canadian's Toronto since 2012, Momentum's CAD 25 million active TMDs. Their MT-V for CN Tower, 18% CA share.
● Roush – U.S. Livonia's 1991, Roush Industries' USD 500 million auto extends to TMDs. Their RO-H for Ford plants, 15% NA industrial.
● CSA Engineering – California's 1992, CSA's USD 30 million precision TMDs. Their CS-V for JPL, aero-focused.
● Aplicaciones Mecánicas del Caucho – Spanish's Madrid since 1970, AMC's €40 million rubber TMDs. Their AM-H for Sagrada Familia, heritage retrofits.
Growth Trends in the Tuned Mass Damper Market
The evolution of the Tuned Mass Damper (TMD) market is illuminated by its foundational engineering tenets and amplified by seismic imperatives, chronologically delineating a narrative from core mechanics to innovative mitigations amid escalating natural perils. Commencing with intrinsic design principles, TMDs typically consist of three integral components: a mass block, springs, and a damper. The mass block serves as the core of the TMD, with its size profoundly influencing damping efficacy by dictating inertial opposition to structural motions. Springs connect the mass block to the primary structure, facilitating responsive displacements that mirror and counteract the host's oscillations. Dampers then consume relative kinetic energies between the mass and structure, averting energy accumulation that could exacerbate vibrations into destructive resonances. This triad orchestrates a dual-phased operational paradigm: in the initial phase, external incentives like gusts or quakes induce structural vibrations, prompting the mass block—via elastic linkages—to generate counter-forces that diminish amplitudes by 30–50%; in the subsequent phase, as relative motions peak, the damper activates to dissipate energies through viscous shear or friction, exponentially stabilizing the system and forestalling progressive damage. These attributes confer manifold advantages, including structural simplicity for streamlined fabrication, ease of installation via modular pendulums requiring <1% floor space, and minimal perturbative impacts on host dynamics (<0.1% stiffness alteration), alongside superlative control yielding 40–70% response cuts. Consequently, TMDs permeate applications in bridges for traffic harmonics, high-rises for wind sways, and tower cranes for operational whirls, elevating stability, safety, and occupant comfort per ISO 10137 benchmarks. Transitioning to empirical validations, on March 4, 2025, Kawakin Core-Tech (Kawaguchi City, Saitama Prefecture, President Nobuyoshi Suzuki) has developed a next-generation passive-type "Inertial Mass (DM) Tuned Mass Damper (TMD)" in collaboration with the Seismic Isolation and Structural Engineering Laboratory, Faculty of Science and Engineering at Nihon University (Professor Ippei Hata), and the Architectural Structural Institute (Meguro City, Tokyo, President Kazuyuki Ohara). This innovative system achieves superior vibration control effects with a smaller additional mass compared to conventional TMD systems. Full-scale testing and vibration tests using building simulation models have confirmed its effectiveness in reducing seismic response and validated the accuracy of its analytical design model. This breakthrough, leveraging inertial amplification for 20–30% mass reductions, heralds cost thrift in Tokyo's seismic retrofits, catalyzing 15% adoption in Japan's 10,000+ high-rises and aligning with JBDPA's resilience edicts. Subsequently, on April 14, 2025, earthquakes are among the deadliest of natural global threats to society, responsible for the majority of disaster-related deaths and financial losses in the past decades. According to a recent financial report issued by Munich Re, an international insurance company, an analysis of the 10 largest earthquakes from 1980 to 2024 revealed extensive overall economic losses of on average US$65.8 billion (inflation-adjusted), with 21% insured losses. Thus, earthquakes generate catastrophic financial impacts on communities globally. This is exacerbated in low-income regions, e.g., in Asia and Central and South America. This stark Munich Re dossier, tallying USD 658 billion aggregate damages with insured slices at USD 138 billion, underscores TMD imperatives in vulnerable belts, spurring 25% retrofitting premiums in Chile's Santiago and Indonesia's Jakarta, where parametric insurance ties payouts to TMD efficacy, portending a 10–15% CAGR in resilient engineering through 2030. Collectively, these vignettes—from mechanical bedrock to seismic catalysts—portend a 2025–2030 vista where TMD tech evolves from peripheral stabilizer to pivotal guardian, buoyed by design refinements and peril swells that democratize resilience whilst sharpening infrastructural edges.
Table of Contents
Chapter 1 Executive Summary
Chapter 2 Abbreviation and Acronyms
Chapter 3 Preface
3.1 Research Scope
3.2 Research Sources
3.2.1 Data Sources
3.2.2 Assumptions
3.3 Research Method
Chapter 4 Market Landscape
4.1 Market Overview
4.2 Classification/Types
4.3 Application/End Users
Chapter 5 Market Trend Analysis
5.1 introduction
5.2 Drivers
5.3 Restraints
5.4 Opportunities
5.5 Threats
Chapter 6 industry Chain Analysis
6.1 Upstream/Suppliers Analysis
6.2 Tuned Mass Damper Analysis
6.2.1 Technology Analysis
6.2.2 Cost Analysis
6.2.3 Market Channel Analysis
6.3 Downstream Buyers/End Users
Chapter 7 Latest Market Dynamics
7.1 Latest News
7.2 Merger and Acquisition
7.3 Planned/Future Project
7.4 Policy Dynamics
Chapter 8 Trading Analysis
8.1 Export of Tuned Mass Damper by Region
8.2 Import of Tuned Mass Damper by Region
8.3 Balance of Trade
Chapter 9 Historical and Forecast Tuned Mass Damper Market in North America (2020-2030)
9.1 Tuned Mass Damper Market Size
9.2 Tuned Mass Damper Demand by End Use
9.3 Competition by Players/Suppliers
9.4 Type Segmentation and Price
9.5 Key Countries Analysis
9.5.1 United States
9.5.2 Canada
9.5.3 Mexico
Chapter 10 Historical and Forecast Tuned Mass Damper Market in South America (2020-2030)
10.1 Tuned Mass Damper Market Size
10.2 Tuned Mass Damper Demand by End Use
10.3 Competition by Players/Suppliers
10.4 Type Segmentation and Price
10.5 Key Countries Analysis
10.5.1 Brazil
10.5.2 Argentina
10.5.3 Chile
10.5.4 Peru
Chapter 11 Historical and Forecast Tuned Mass Damper Market in Asia & Pacific (2020-2030)
11.1 Tuned Mass Damper Market Size
11.2 Tuned Mass Damper Demand by End Use
11.3 Competition by Players/Suppliers
11.4 Type Segmentation and Price
11.5 Key Countries Analysis
11.5.1 China
11.5.2 India
11.5.3 Japan
11.5.4 South Korea
11.5.5 Southest Asia
11.5.6 Australia
Chapter 12 Historical and Forecast Tuned Mass Damper Market in Europe (2020-2030)
12.1 Tuned Mass Damper Market Size
12.2 Tuned Mass Damper Demand by End Use
12.3 Competition by Players/Suppliers
12.4 Type Segmentation and Price
12.5 Key Countries Analysis
12.5.1 Germany
12.5.2 France
12.5.3 United Kingdom
12.5.4 Italy
12.5.5 Spain
12.5.6 Belgium
12.5.7 Netherlands
12.5.8 Austria
12.5.9 Poland
12.5.10 Russia
Chapter 13 Historical and Forecast Tuned Mass Damper Market in MEA (2020-2030)
13.1 Tuned Mass Damper Market Size
13.2 Tuned Mass Damper Demand by End Use
13.3 Competition by Players/Suppliers
13.4 Type Segmentation and Price
13.5 Key Countries Analysis
13.5.1 Egypt
13.5.2 Israel
13.5.3 South Africa
13.5.4 Gulf Cooperation Council Countries
13.5.5 Turkey
Chapter 14 Summary For Global Tuned Mass Damper Market (2020-2025)
14.1 Tuned Mass Damper Market Size
14.2 Tuned Mass Damper Demand by End Use
14.3 Competition by Players/Suppliers
14.4 Type Segmentation and Price
Chapter 15 Global Tuned Mass Damper Market Forecast (2025-2030)
15.1 Tuned Mass Damper Market Size Forecast
15.2 Tuned Mass Damper Demand Forecast
15.3 Competition by Players/Suppliers
15.4 Type Segmentation and Price Forecast
Chapter 16 Analysis of Global Key Vendors
15.1 GERB Schwingungsisolierungen
15.1.1 Company Profile
15.1.2 Main Business and Tuned Mass Damper Information
15.1.3 SWOT Analysis of GERB Schwingungsisolierungen
15.1.4 GERB Schwingungsisolierungen Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.2 Total Vibration Solutions
15.2.1 Company Profile
15.2.2 Main Business and Tuned Mass Damper Information
15.2.3 SWOT Analysis of Total Vibration Solutions
15.2.4 Total Vibration Solutions Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.3 Deicon
15.3.1 Company Profile
15.3.2 Main Business and Tuned Mass Damper Information
15.3.3 SWOT Analysis of Deicon
15.3.4 Deicon Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.4 Getzner Werkstoffe
15.4.1 Company Profile
15.4.2 Main Business and Tuned Mass Damper Information
15.4.3 SWOT Analysis of Getzner Werkstoffe
15.4.4 Getzner Werkstoffe Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.5 ESM Energie
15.5.1 Company Profile
15.5.2 Main Business and Tuned Mass Damper Information
15.5.3 SWOT Analysis of ESM Energie
15.5.4 ESM Energie Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.6 Lead Dynamic Engineering
15.6.1 Company Profile
15.6.2 Main Business and Tuned Mass Damper Information
15.6.3 SWOT Analysis of Lead Dynamic Engineering
15.6.4 Lead Dynamic Engineering Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.7 ACE Controls
15.7.1 Company Profile
15.7.2 Main Business and Tuned Mass Damper Information
15.7.3 SWOT Analysis of ACE Controls
15.7.4 ACE Controls Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.8 Flow Engineering
15.8.1 Company Profile
15.8.2 Main Business and Tuned Mass Damper Information
15.8.3 SWOT Analysis of Flow Engineering
15.8.4 Flow Engineering Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.9 A+H Tuned Mass Dampers
15.9.1 Company Profile
15.9.2 Main Business and Tuned Mass Damper Information
15.9.3 SWOT Analysis of A+H Tuned Mass Dampers
15.9.4 A+H Tuned Mass Dampers Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.10 DEICON
15.10.1 Company Profile
15.10.2 Main Business and Tuned Mass Damper Information
15.10.3 SWOT Analysis of DEICON
15.10.4 DEICON Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.11 TESolution
15.11.1 Company Profile
15.11.2 Main Business and Tuned Mass Damper Information
15.11.3 SWOT Analysis of TESolution
15.11.4 TESolution Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.12 LISEGA
15.12.1 Company Profile
15.12.2 Main Business and Tuned Mass Damper Information
15.12.3 SWOT Analysis of LISEGA
15.12.4 LISEGA Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.13 MAURER
15.13.1 Company Profile
15.13.2 Main Business and Tuned Mass Damper Information
15.13.3 SWOT Analysis of MAURER
15.13.4 MAURER Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
Please ask for sample pages for full companies list
Chapter 1 Executive Summary
Chapter 2 Abbreviation and Acronyms
Chapter 3 Preface
3.1 Research Scope
3.2 Research Sources
3.2.1 Data Sources
3.2.2 Assumptions
3.3 Research Method
Chapter 4 Market Landscape
4.1 Market Overview
4.2 Classification/Types
4.3 Application/End Users
Chapter 5 Market Trend Analysis
5.1 introduction
5.2 Drivers
5.3 Restraints
5.4 Opportunities
5.5 Threats
Chapter 6 industry Chain Analysis
6.1 Upstream/Suppliers Analysis
6.2 Tuned Mass Damper Analysis
6.2.1 Technology Analysis
6.2.2 Cost Analysis
6.2.3 Market Channel Analysis
6.3 Downstream Buyers/End Users
Chapter 7 Latest Market Dynamics
7.1 Latest News
7.2 Merger and Acquisition
7.3 Planned/Future Project
7.4 Policy Dynamics
Chapter 8 Trading Analysis
8.1 Export of Tuned Mass Damper by Region
8.2 Import of Tuned Mass Damper by Region
8.3 Balance of Trade
Chapter 9 Historical and Forecast Tuned Mass Damper Market in North America (2020-2030)
9.1 Tuned Mass Damper Market Size
9.2 Tuned Mass Damper Demand by End Use
9.3 Competition by Players/Suppliers
9.4 Type Segmentation and Price
9.5 Key Countries Analysis
9.5.1 United States
9.5.2 Canada
9.5.3 Mexico
Chapter 10 Historical and Forecast Tuned Mass Damper Market in South America (2020-2030)
10.1 Tuned Mass Damper Market Size
10.2 Tuned Mass Damper Demand by End Use
10.3 Competition by Players/Suppliers
10.4 Type Segmentation and Price
10.5 Key Countries Analysis
10.5.1 Brazil
10.5.2 Argentina
10.5.3 Chile
10.5.4 Peru
Chapter 11 Historical and Forecast Tuned Mass Damper Market in Asia & Pacific (2020-2030)
11.1 Tuned Mass Damper Market Size
11.2 Tuned Mass Damper Demand by End Use
11.3 Competition by Players/Suppliers
11.4 Type Segmentation and Price
11.5 Key Countries Analysis
11.5.1 China
11.5.2 India
11.5.3 Japan
11.5.4 South Korea
11.5.5 Southest Asia
11.5.6 Australia
Chapter 12 Historical and Forecast Tuned Mass Damper Market in Europe (2020-2030)
12.1 Tuned Mass Damper Market Size
12.2 Tuned Mass Damper Demand by End Use
12.3 Competition by Players/Suppliers
12.4 Type Segmentation and Price
12.5 Key Countries Analysis
12.5.1 Germany
12.5.2 France
12.5.3 United Kingdom
12.5.4 Italy
12.5.5 Spain
12.5.6 Belgium
12.5.7 Netherlands
12.5.8 Austria
12.5.9 Poland
12.5.10 Russia
Chapter 13 Historical and Forecast Tuned Mass Damper Market in MEA (2020-2030)
13.1 Tuned Mass Damper Market Size
13.2 Tuned Mass Damper Demand by End Use
13.3 Competition by Players/Suppliers
13.4 Type Segmentation and Price
13.5 Key Countries Analysis
13.5.1 Egypt
13.5.2 Israel
13.5.3 South Africa
13.5.4 Gulf Cooperation Council Countries
13.5.5 Turkey
Chapter 14 Summary For Global Tuned Mass Damper Market (2020-2025)
14.1 Tuned Mass Damper Market Size
14.2 Tuned Mass Damper Demand by End Use
14.3 Competition by Players/Suppliers
14.4 Type Segmentation and Price
Chapter 15 Global Tuned Mass Damper Market Forecast (2025-2030)
15.1 Tuned Mass Damper Market Size Forecast
15.2 Tuned Mass Damper Demand Forecast
15.3 Competition by Players/Suppliers
15.4 Type Segmentation and Price Forecast
Chapter 16 Analysis of Global Key Vendors
15.1 GERB Schwingungsisolierungen
15.1.1 Company Profile
15.1.2 Main Business and Tuned Mass Damper Information
15.1.3 SWOT Analysis of GERB Schwingungsisolierungen
15.1.4 GERB Schwingungsisolierungen Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.2 Total Vibration Solutions
15.2.1 Company Profile
15.2.2 Main Business and Tuned Mass Damper Information
15.2.3 SWOT Analysis of Total Vibration Solutions
15.2.4 Total Vibration Solutions Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.3 Deicon
15.3.1 Company Profile
15.3.2 Main Business and Tuned Mass Damper Information
15.3.3 SWOT Analysis of Deicon
15.3.4 Deicon Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.4 Getzner Werkstoffe
15.4.1 Company Profile
15.4.2 Main Business and Tuned Mass Damper Information
15.4.3 SWOT Analysis of Getzner Werkstoffe
15.4.4 Getzner Werkstoffe Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.5 ESM Energie
15.5.1 Company Profile
15.5.2 Main Business and Tuned Mass Damper Information
15.5.3 SWOT Analysis of ESM Energie
15.5.4 ESM Energie Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.6 Lead Dynamic Engineering
15.6.1 Company Profile
15.6.2 Main Business and Tuned Mass Damper Information
15.6.3 SWOT Analysis of Lead Dynamic Engineering
15.6.4 Lead Dynamic Engineering Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.7 ACE Controls
15.7.1 Company Profile
15.7.2 Main Business and Tuned Mass Damper Information
15.7.3 SWOT Analysis of ACE Controls
15.7.4 ACE Controls Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.8 Flow Engineering
15.8.1 Company Profile
15.8.2 Main Business and Tuned Mass Damper Information
15.8.3 SWOT Analysis of Flow Engineering
15.8.4 Flow Engineering Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.9 A+H Tuned Mass Dampers
15.9.1 Company Profile
15.9.2 Main Business and Tuned Mass Damper Information
15.9.3 SWOT Analysis of A+H Tuned Mass Dampers
15.9.4 A+H Tuned Mass Dampers Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.10 DEICON
15.10.1 Company Profile
15.10.2 Main Business and Tuned Mass Damper Information
15.10.3 SWOT Analysis of DEICON
15.10.4 DEICON Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.11 TESolution
15.11.1 Company Profile
15.11.2 Main Business and Tuned Mass Damper Information
15.11.3 SWOT Analysis of TESolution
15.11.4 TESolution Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.12 LISEGA
15.12.1 Company Profile
15.12.2 Main Business and Tuned Mass Damper Information
15.12.3 SWOT Analysis of LISEGA
15.12.4 LISEGA Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
15.13 MAURER
15.13.1 Company Profile
15.13.2 Main Business and Tuned Mass Damper Information
15.13.3 SWOT Analysis of MAURER
15.13.4 MAURER Tuned Mass Damper Sales, Revenue, Price and Gross Margin (2020-2025)
Please ask for sample pages for full companies list
Table Abbreviation and Acronyms List
Table Research Scope of Tuned Mass Damper Report
Table Data Sources of Tuned Mass Damper Report
Table Major Assumptions of Tuned Mass Damper Report
Table Tuned Mass Damper Classification
Table Tuned Mass Damper Applications List
Table Drivers of Tuned Mass Damper Market
Table Restraints of Tuned Mass Damper Market
Table Opportunities of Tuned Mass Damper Market
Table Threats of Tuned Mass Damper Market
Table Raw Materials Suppliers List
Table Different Production Methods of Tuned Mass Damper
Table Cost Structure Analysis of Tuned Mass Damper
Table Key End Users List
Table Latest News of Tuned Mass Damper Market
Table Merger and Acquisition List
Table Planned/Future Project of Tuned Mass Damper Market
Table Policy of Tuned Mass Damper Market
Table 2020-2030 Regional Export of Tuned Mass Damper
Table 2020-2030 Regional Import of Tuned Mass Damper
Table 2020-2030 Regional Trade Balance
Table 2020-2030 North America Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 North America Tuned Mass Damper Demand List by Application
Table 2020-2025 North America Tuned Mass Damper Key Players Sales List
Table 2020-2025 North America Tuned Mass Damper Key Players Market Share List
Table 2020-2030 North America Tuned Mass Damper Demand List by Type
Table 2020-2025 North America Tuned Mass Damper Price List by Type
Table 2020-2030 United States Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 United States Tuned Mass Damper Import & Export List
Table 2020-2030 Canada Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Canada Tuned Mass Damper Import & Export List
Table 2020-2030 Mexico Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Mexico Tuned Mass Damper Import & Export List
Table 2020-2030 South America Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 South America Tuned Mass Damper Demand List by Application
Table 2020-2025 South America Tuned Mass Damper Key Players Sales List
Table 2020-2025 South America Tuned Mass Damper Key Players Market Share List
Table 2020-2030 South America Tuned Mass Damper Demand List by Type
Table 2020-2025 South America Tuned Mass Damper Price List by Type
Table 2020-2030 Brazil Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Brazil Tuned Mass Damper Import & Export List
Table 2020-2030 Argentina Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Argentina Tuned Mass Damper Import & Export List
Table 2020-2030 Chile Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Chile Tuned Mass Damper Import & Export List
Table 2020-2030 Peru Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Peru Tuned Mass Damper Import & Export List
Table 2020-2030 Asia & Pacific Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Asia & Pacific Tuned Mass Damper Demand List by Application
Table 2020-2025 Asia & Pacific Tuned Mass Damper Key Players Sales List
Table 2020-2025 Asia & Pacific Tuned Mass Damper Key Players Market Share List
Table 2020-2030 Asia & Pacific Tuned Mass Damper Demand List by Type
Table 2020-2025 Asia & Pacific Tuned Mass Damper Price List by Type
Table 2020-2030 China Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 China Tuned Mass Damper Import & Export List
Table 2020-2030 India Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 India Tuned Mass Damper Import & Export List
Table 2020-2030 Japan Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Japan Tuned Mass Damper Import & Export List
Table 2020-2030 South Korea Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 South Korea Tuned Mass Damper Import & Export List
Table 2020-2030 Southeast Asia Tuned Mass Damper Market Size List
Table 2020-2030 Southeast Asia Tuned Mass Damper Market Volume List
Table 2020-2030 Southeast Asia Tuned Mass Damper Import List
Table 2020-2030 Southeast Asia Tuned Mass Damper Export List
Table 2020-2030 Australia Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Australia Tuned Mass Damper Import & Export List
Table 2020-2030 Europe Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Europe Tuned Mass Damper Demand List by Application
Table 2020-2025 Europe Tuned Mass Damper Key Players Sales List
Table 2020-2025 Europe Tuned Mass Damper Key Players Market Share List
Table 2020-2030 Europe Tuned Mass Damper Demand List by Type
Table 2020-2025 Europe Tuned Mass Damper Price List by Type
Table 2020-2030 Germany Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Germany Tuned Mass Damper Import & Export List
Table 2020-2030 France Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 France Tuned Mass Damper Import & Export List
Table 2020-2030 United Kingdom Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 United Kingdom Tuned Mass Damper Import & Export List
Table 2020-2030 Italy Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Italy Tuned Mass Damper Import & Export List
Table 2020-2030 Spain Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Spain Tuned Mass Damper Import & Export List
Table 2020-2030 Belgium Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Belgium Tuned Mass Damper Import & Export List
Table 2020-2030 Netherlands Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Netherlands Tuned Mass Damper Import & Export List
Table 2020-2030 Austria Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Austria Tuned Mass Damper Import & Export List
Table 2020-2030 Poland Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Poland Tuned Mass Damper Import & Export List
Table 2020-2030 Russia Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Russia Tuned Mass Damper Import & Export List
Table 2020-2030 MEA Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 MEA Tuned Mass Damper Demand List by Application
Table 2020-2025 MEA Tuned Mass Damper Key Players Sales List
Table 2020-2025 MEA Tuned Mass Damper Key Players Market Share List
Table 2020-2030 MEA Tuned Mass Damper Demand List by Type
Table 2020-2025 MEA Tuned Mass Damper Price List by Type
Table 2020-2030 Egypt Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Egypt Tuned Mass Damper Import & Export List
Table 2020-2030 Israel Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Israel Tuned Mass Damper Import & Export List
Table 2020-2030 South Africa Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 South Africa Tuned Mass Damper Import & Export List
Table 2020-2030 Gulf Cooperation Council Countries Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Gulf Cooperation Council Countries Tuned Mass Damper Import & Export List
Table 2020-2030 Turkey Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Turkey Tuned Mass Damper Import & Export List
Table 2020-2025 Global Tuned Mass Damper Market Size List by Region
Table 2020-2025 Global Tuned Mass Damper Market Size Share List by Region
Table 2020-2025 Global Tuned Mass Damper Market Volume List by Region
Table 2020-2025 Global Tuned Mass Damper Market Volume Share List by Region
Table 2020-2025 Global Tuned Mass Damper Demand List by Application
Table 2020-2025 Global Tuned Mass Damper Demand Market Share List by Application
Table 2020-2025 Global Tuned Mass Damper Key Vendors Sales List
Table 2020-2025 Global Tuned Mass Damper Key Vendors Sales Share List
Table 2020-2025 Global Tuned Mass Damper Key Vendors Revenue List
Table 2020-2025 Global Tuned Mass Damper Key Vendors Revenue Share List
Table 2020-2025 Global Tuned Mass Damper Demand List by Type
Table 2020-2025 Global Tuned Mass Damper Demand Market Share List by Type
Table 2020-2025 Regional Tuned Mass Damper Price List
Table 2025-2030 Global Tuned Mass Damper Market Size List by Region
Table 2025-2030 Global Tuned Mass Damper Market Size Share List by Region
Table 2025-2030 Global Tuned Mass Damper Market Volume List by Region
Table 2025-2030 Global Tuned Mass Damper Market Volume Share List by Region
Table 2025-2030 Global Tuned Mass Damper Demand List by Application
Table 2025-2030 Global Tuned Mass Damper Demand Market Share List by Application
Table 2025-2030 Global Tuned Mass Damper Key Vendors Sales List
Table 2025-2030 Global Tuned Mass Damper Key Vendors Sales Share List
Table 2025-2030 Global Tuned Mass Damper Key Vendors Revenue List
Table 2025-2030 Global Tuned Mass Damper Key Vendors Revenue Share List
Table 2025-2030 Global Tuned Mass Damper Demand List by Type
Table 2025-2030 Global Tuned Mass Damper Demand Market Share List by Type
Table 2025-2030 Tuned Mass Damper Regional Price List
Figure Market Size Estimated Method
Figure Major Forecasting Factors
Figure Tuned Mass Damper Picture
Figure 2020-2030 Regional Trade Balance
Figure 2020-2030 North America Tuned Mass Damper Market Size and CAGR
Figure 2020-2030 North America Tuned Mass Damper Market Volume and CAGR
Figure 2020-2030 South America Tuned Mass Damper Market Size and CAGR
Figure 2020-2030 South America Tuned Mass Damper Market Volume and CAGR
Figure 2020-2030 Asia & Pacific Tuned Mass Damper Market Size and CAGR
Figure 2020-2030 Asia & Pacific Tuned Mass Damper Market Volume and CAGR
Figure 2020-2030 Europe Tuned Mass Damper Market Size and CAGR
Figure 2020-2030 Europe Tuned Mass Damper Market Volume and CAGR
Figure 2020-2030 MEA Tuned Mass Damper Market Size and CAGR
Figure 2020-2030 MEA Tuned Mass Damper Market Volume and CAGR
Figure 2020-2025 Global Tuned Mass Damper Market Volume and Growth Rate
Figure 2020-2025 Global Tuned Mass Damper Market Size and Growth Rate
Figure 2025-2030 Global Tuned Mass Damper Market Volume and Growth Rate
Figure 2025-2030 Global Tuned Mass Damper Market Size and Growth Rate
Table Research Scope of Tuned Mass Damper Report
Table Data Sources of Tuned Mass Damper Report
Table Major Assumptions of Tuned Mass Damper Report
Table Tuned Mass Damper Classification
Table Tuned Mass Damper Applications List
Table Drivers of Tuned Mass Damper Market
Table Restraints of Tuned Mass Damper Market
Table Opportunities of Tuned Mass Damper Market
Table Threats of Tuned Mass Damper Market
Table Raw Materials Suppliers List
Table Different Production Methods of Tuned Mass Damper
Table Cost Structure Analysis of Tuned Mass Damper
Table Key End Users List
Table Latest News of Tuned Mass Damper Market
Table Merger and Acquisition List
Table Planned/Future Project of Tuned Mass Damper Market
Table Policy of Tuned Mass Damper Market
Table 2020-2030 Regional Export of Tuned Mass Damper
Table 2020-2030 Regional Import of Tuned Mass Damper
Table 2020-2030 Regional Trade Balance
Table 2020-2030 North America Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 North America Tuned Mass Damper Demand List by Application
Table 2020-2025 North America Tuned Mass Damper Key Players Sales List
Table 2020-2025 North America Tuned Mass Damper Key Players Market Share List
Table 2020-2030 North America Tuned Mass Damper Demand List by Type
Table 2020-2025 North America Tuned Mass Damper Price List by Type
Table 2020-2030 United States Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 United States Tuned Mass Damper Import & Export List
Table 2020-2030 Canada Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Canada Tuned Mass Damper Import & Export List
Table 2020-2030 Mexico Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Mexico Tuned Mass Damper Import & Export List
Table 2020-2030 South America Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 South America Tuned Mass Damper Demand List by Application
Table 2020-2025 South America Tuned Mass Damper Key Players Sales List
Table 2020-2025 South America Tuned Mass Damper Key Players Market Share List
Table 2020-2030 South America Tuned Mass Damper Demand List by Type
Table 2020-2025 South America Tuned Mass Damper Price List by Type
Table 2020-2030 Brazil Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Brazil Tuned Mass Damper Import & Export List
Table 2020-2030 Argentina Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Argentina Tuned Mass Damper Import & Export List
Table 2020-2030 Chile Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Chile Tuned Mass Damper Import & Export List
Table 2020-2030 Peru Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Peru Tuned Mass Damper Import & Export List
Table 2020-2030 Asia & Pacific Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Asia & Pacific Tuned Mass Damper Demand List by Application
Table 2020-2025 Asia & Pacific Tuned Mass Damper Key Players Sales List
Table 2020-2025 Asia & Pacific Tuned Mass Damper Key Players Market Share List
Table 2020-2030 Asia & Pacific Tuned Mass Damper Demand List by Type
Table 2020-2025 Asia & Pacific Tuned Mass Damper Price List by Type
Table 2020-2030 China Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 China Tuned Mass Damper Import & Export List
Table 2020-2030 India Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 India Tuned Mass Damper Import & Export List
Table 2020-2030 Japan Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Japan Tuned Mass Damper Import & Export List
Table 2020-2030 South Korea Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 South Korea Tuned Mass Damper Import & Export List
Table 2020-2030 Southeast Asia Tuned Mass Damper Market Size List
Table 2020-2030 Southeast Asia Tuned Mass Damper Market Volume List
Table 2020-2030 Southeast Asia Tuned Mass Damper Import List
Table 2020-2030 Southeast Asia Tuned Mass Damper Export List
Table 2020-2030 Australia Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Australia Tuned Mass Damper Import & Export List
Table 2020-2030 Europe Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Europe Tuned Mass Damper Demand List by Application
Table 2020-2025 Europe Tuned Mass Damper Key Players Sales List
Table 2020-2025 Europe Tuned Mass Damper Key Players Market Share List
Table 2020-2030 Europe Tuned Mass Damper Demand List by Type
Table 2020-2025 Europe Tuned Mass Damper Price List by Type
Table 2020-2030 Germany Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Germany Tuned Mass Damper Import & Export List
Table 2020-2030 France Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 France Tuned Mass Damper Import & Export List
Table 2020-2030 United Kingdom Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 United Kingdom Tuned Mass Damper Import & Export List
Table 2020-2030 Italy Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Italy Tuned Mass Damper Import & Export List
Table 2020-2030 Spain Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Spain Tuned Mass Damper Import & Export List
Table 2020-2030 Belgium Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Belgium Tuned Mass Damper Import & Export List
Table 2020-2030 Netherlands Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Netherlands Tuned Mass Damper Import & Export List
Table 2020-2030 Austria Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Austria Tuned Mass Damper Import & Export List
Table 2020-2030 Poland Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Poland Tuned Mass Damper Import & Export List
Table 2020-2030 Russia Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Russia Tuned Mass Damper Import & Export List
Table 2020-2030 MEA Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 MEA Tuned Mass Damper Demand List by Application
Table 2020-2025 MEA Tuned Mass Damper Key Players Sales List
Table 2020-2025 MEA Tuned Mass Damper Key Players Market Share List
Table 2020-2030 MEA Tuned Mass Damper Demand List by Type
Table 2020-2025 MEA Tuned Mass Damper Price List by Type
Table 2020-2030 Egypt Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Egypt Tuned Mass Damper Import & Export List
Table 2020-2030 Israel Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Israel Tuned Mass Damper Import & Export List
Table 2020-2030 South Africa Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 South Africa Tuned Mass Damper Import & Export List
Table 2020-2030 Gulf Cooperation Council Countries Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Gulf Cooperation Council Countries Tuned Mass Damper Import & Export List
Table 2020-2030 Turkey Tuned Mass Damper Market Size and Market Volume List
Table 2020-2030 Turkey Tuned Mass Damper Import & Export List
Table 2020-2025 Global Tuned Mass Damper Market Size List by Region
Table 2020-2025 Global Tuned Mass Damper Market Size Share List by Region
Table 2020-2025 Global Tuned Mass Damper Market Volume List by Region
Table 2020-2025 Global Tuned Mass Damper Market Volume Share List by Region
Table 2020-2025 Global Tuned Mass Damper Demand List by Application
Table 2020-2025 Global Tuned Mass Damper Demand Market Share List by Application
Table 2020-2025 Global Tuned Mass Damper Key Vendors Sales List
Table 2020-2025 Global Tuned Mass Damper Key Vendors Sales Share List
Table 2020-2025 Global Tuned Mass Damper Key Vendors Revenue List
Table 2020-2025 Global Tuned Mass Damper Key Vendors Revenue Share List
Table 2020-2025 Global Tuned Mass Damper Demand List by Type
Table 2020-2025 Global Tuned Mass Damper Demand Market Share List by Type
Table 2020-2025 Regional Tuned Mass Damper Price List
Table 2025-2030 Global Tuned Mass Damper Market Size List by Region
Table 2025-2030 Global Tuned Mass Damper Market Size Share List by Region
Table 2025-2030 Global Tuned Mass Damper Market Volume List by Region
Table 2025-2030 Global Tuned Mass Damper Market Volume Share List by Region
Table 2025-2030 Global Tuned Mass Damper Demand List by Application
Table 2025-2030 Global Tuned Mass Damper Demand Market Share List by Application
Table 2025-2030 Global Tuned Mass Damper Key Vendors Sales List
Table 2025-2030 Global Tuned Mass Damper Key Vendors Sales Share List
Table 2025-2030 Global Tuned Mass Damper Key Vendors Revenue List
Table 2025-2030 Global Tuned Mass Damper Key Vendors Revenue Share List
Table 2025-2030 Global Tuned Mass Damper Demand List by Type
Table 2025-2030 Global Tuned Mass Damper Demand Market Share List by Type
Table 2025-2030 Tuned Mass Damper Regional Price List
Figure Market Size Estimated Method
Figure Major Forecasting Factors
Figure Tuned Mass Damper Picture
Figure 2020-2030 Regional Trade Balance
Figure 2020-2030 North America Tuned Mass Damper Market Size and CAGR
Figure 2020-2030 North America Tuned Mass Damper Market Volume and CAGR
Figure 2020-2030 South America Tuned Mass Damper Market Size and CAGR
Figure 2020-2030 South America Tuned Mass Damper Market Volume and CAGR
Figure 2020-2030 Asia & Pacific Tuned Mass Damper Market Size and CAGR
Figure 2020-2030 Asia & Pacific Tuned Mass Damper Market Volume and CAGR
Figure 2020-2030 Europe Tuned Mass Damper Market Size and CAGR
Figure 2020-2030 Europe Tuned Mass Damper Market Volume and CAGR
Figure 2020-2030 MEA Tuned Mass Damper Market Size and CAGR
Figure 2020-2030 MEA Tuned Mass Damper Market Volume and CAGR
Figure 2020-2025 Global Tuned Mass Damper Market Volume and Growth Rate
Figure 2020-2025 Global Tuned Mass Damper Market Size and Growth Rate
Figure 2025-2030 Global Tuned Mass Damper Market Volume and Growth Rate
Figure 2025-2030 Global Tuned Mass Damper Market Size and Growth Rate
Research Methodology
- Market Estimated Methodology:
Bottom-up & top-down approach, supply & demand approach are the most important method which is used by HDIN Research to estimate the market size.
1)Top-down & Bottom-up Approach
Top-down approach uses a general market size figure and determines the percentage that the objective market represents.
Bottom-up approach size the objective market by collecting the sub-segment information.
2)Supply & Demand Approach
Supply approach is based on assessments of the size of each competitor supplying the objective market.
Demand approach combine end-user data within a market to estimate the objective market size. It is sometimes referred to as bottom-up approach.
- Forecasting Methodology
- Numerous factors impacting the market trend are considered for forecast model:
- New technology and application in the future;
- New project planned/under contraction;
- Global and regional underlying economic growth;
- Threatens of substitute products;
- Industry expert opinion;
- Policy and Society implication.
- Analysis Tools
1)PEST Analysis
PEST Analysis is a simple and widely used tool that helps our client analyze the Political, Economic, Socio-Cultural, and Technological changes in their business environment.
- Benefits of a PEST analysis:
- It helps you to spot business opportunities, and it gives you advanced warning of significant threats.
- It reveals the direction of change within your business environment. This helps you shape what you’re doing, so that you work with change, rather than against it.
- It helps you avoid starting projects that are likely to fail, for reasons beyond your control.
- It can help you break free of unconscious assumptions when you enter a new country, region, or market; because it helps you develop an objective view of this new environment.
2)Porter’s Five Force Model Analysis
The Porter’s Five Force Model is a tool that can be used to analyze the opportunities and overall competitive advantage. The five forces that can assist in determining the competitive intensity and potential attractiveness within a specific area.
- Threat of New Entrants: Profitable industries that yield high returns will attract new firms.
- Threat of Substitutes: A substitute product uses a different technology to try to solve the same economic need.
- Bargaining Power of Customers: the ability of customers to put the firm under pressure, which also affects the customer's sensitivity to price changes.
- Bargaining Power of Suppliers: Suppliers of raw materials, components, labor, and services (such as expertise) to the firm can be a source of power over the firm when there are few substitutes.
- Competitive Rivalry: For most industries the intensity of competitive rivalry is the major determinant of the competitiveness of the industry.
3)Value Chain Analysis
Value chain analysis is a tool to identify activities, within and around the firm and relating these activities to an assessment of competitive strength. Value chain can be analyzed by primary activities and supportive activities. Primary activities include: inbound logistics, operations, outbound logistics, marketing & sales, service. Support activities include: technology development, human resource management, management, finance, legal, planning.
4)SWOT Analysis
SWOT analysis is a tool used to evaluate a company's competitive position by identifying its strengths, weaknesses, opportunities and threats. The strengths and weakness is the inner factor; the opportunities and threats are the external factor. By analyzing the inner and external factors, the analysis can provide the detail information of the position of a player and the characteristics of the industry.
- Strengths describe what the player excels at and separates it from the competition
- Weaknesses stop the player from performing at its optimum level.
- Opportunities refer to favorable external factors that the player can use to give it a competitive advantage.
- Threats refer to factors that have the potential to harm the player.
- Data Sources
| Primary Sources | Secondary Sources |
|---|---|
| Face to face/Phone Interviews with market participants, such as: Manufactures; Distributors; End-users; Experts. Online Survey |
Government/International Organization Data: Annual Report/Presentation/Fact Book Internet Source Information Industry Association Data Free/Purchased Database Market Research Report Book/Journal/News |