Fluid Viscous Dampers For Construction Market
Fluid Viscous Dampers for Construction Market Forecasts to 2030 - Global Analysis By Building Type (Bridges, High-Rise Buildings, Government Buildings, Cultural and Historical Buildings and Other Building Types), Application and By Geography
|
Years Covered |
2021-2030 |
|
CAGR (2023 - 2030) |
6.3% |
|
Regions Covered |
North America, Europe, Asia Pacific, South America, and Middle East & Africa |
|
Countries Covered |
US, Canada, Mexico, Germany, UK, Italy, France, Spain, Japan, China, India, Australia, New Zealand, South Korea, Rest of Asia Pacific, South America, Argentina, Brazil, Chile, Middle East & Africa, Saudi Arabia, UAE, Qatar, and South Africa |
|
Largest Market |
Asia Pacific |
|
Highest Growing Market |
Asia Pacific |
According to Stratistics MRC, the Global Fluid Viscous Dampers for Construction Market is growing at a CAGR of 6.3% during the forecast period. In the construction industry, the term ""fluid viscous dampers"" refers to components that aim to reduce the effect of dynamic forces on buildings and structures, such as wind- or seismic-induced vibration. These dampers reduce structural motions and increase stability by absorbing and dissipating kinetic energy through the use of fluid viscosity. Fluid viscous dampers, which are usually included in a building's structural framework, offer a regulated resistance against oscillations, reducing the possible damage brought on by external forces.
Market Dynamics:
Driver:
Urbanization and infrastructure development
There is a growing emphasis on building larger and more intricate structures as cities grow and modernize. It becomes essential to find creative technical ways to improve the structural integrity of important infrastructure and structures. Fluid viscous dampers are essential in this situation because they may efficiently reduce the effects of dynamic forces on high-rise structures, such as wind- or seismic-induced vibrations. Fluid viscous dampers are crucial components to assure the durability, safety, and performance of buildings in a dynamic urban environment. As urbanisation increases, the requirement for resilient and sustainable construction practices becomes increasingly important.
Restraint:
Integration complexity
Meticulous planning and coordination are necessary for the effective integration of these dampers into a building's structural design, especially in the initial phases of design and construction. Fluid viscous dampers must be properly integrated with other structural components by architects and engineers, which must also take load paths, available space, and the overall aesthetics of the structure into consideration. The intricacy originates from the requirement to smoothly incorporate dampening technologies while maintaining structural integrity and architectural purpose.
Opportunity:
Technological advancements
Notable advancements in damper design and functionality have been made possible by ongoing research and development activities. The goal of these developments is to increase the fluid viscous dampers' efficacy, dependability, and affordability so that developers, engineers, and architects might find them attractive. Advanced materials science, advanced production processes, and creative design led to the creation of highly efficient reducing devices. The use of sophisticated sensors and control systems enhances the fluid viscous dampers' ability to respond to dynamic forces, ensuring outstanding efficiency in a range of building scenarios.
Threat:
Initial cost
Although fluid viscous dampers are a useful tool for reducing dynamic forces, their purchase, installation, and structural design integration can come with a substantial upfront cost. The initial financial commitment can be difficult for developers and construction companies, who can be constrained by restricted budgets, particularly in projects with strict cost concerns. When short-term financial restrictions exceed the long-term benefits of improved structural resilience, decision-makers may be swayed by this cost factor to choose more conventional or economical structural solutions.
Covid-19 Impact
Advanced dampening technologies have been impacted by disruptions in the construction sector caused by labour shortages, lockdowns, and supply chain disruptions. There may be a brief halt to the integration of fluid viscous dampers as a result of the reconsideration of construction objectives caused by project delays and financial limitations. Additionally, the pandemic's economic uncertainty may have made developers and construction companies more cautious, which may have impacted their desire to invest in more expensive structural upgrades.
The government buildings is expected to be the largest during the forecast period
Because of the crucial focus on infrastructure resilience, public safety, and adherence to strict building rules, the government buildings category had the largest share. Government buildings frequently hold essential operations and services. Some instances of these structures include administrative offices, legislative centres, and emergency response facilities. Governmental organisations prioritise structural upgrades in order to resist dynamic pressures like earthquakes and strong winds as administrators of public safety. Moreover, government rules impose strict safety criteria that are fulfilled by fluid viscous dampers, which are well-known for their effectiveness in reducing vibrations and enhancing a structure's seismic resistance.
The educational institutions segment is expected to have the highest CAGR during the forecast period
Because of the increased focus on the security and durability of educational facilities, the educational institutions sector is expected to experience profitable expansion. Schools, colleges, and universities that have sizable numbers of staff and students are essential parts of the infrastructure of the community. Strengthening these structures against potential hazards is becoming more and more important as authorities realise how vulnerable they are to seismic occurrences and other dynamic forces.
Region with largest share:
Due to a combination of factors supporting vigorous construction activities and rising awareness of structural resilience, Asia Pacific is anticipated to have the largest market share over the projection period. There has been a sharp increase in construction projects due to rapid urbanisation, population expansion, and rising infrastructure spending in nations like China, India, and Japan. Moreover, fluid viscous dampers are essential for improving the resilience of structures because of the increased construction activity and the region's vulnerability to seismic emergencies.
Region with highest CAGR:
Over the course of the projection period, Asia-Pacific is expected to have the highest CAGR. Governments around the Asia-Pacific region are realising more and more how important it is to take action to guarantee the durability and safety of infrastructure. Robust regulatory structures and increasing awareness about the potential effects of earthquakes on infrastructure highlight the significance of fluid viscous dampers in enhancing building resilience. Additionally, the Asia Pacific area has played a significant role in promoting the use of fluid viscous dampers, which is indicative of a strategic alignment with the demands of contemporary building.
Key players in the market
Some of the key players profiled in the Fluid Viscous Dampers for Construction Market include ACE Controls Inc, Dynamic Isolation Systems, Earthquake Protection Systems, Inc., Enidine Inc. (ITT Corporation), Kawakin Holdings Company Limited, KYB Corporation, KYOWA Engineering Consultants Co., Ltd., Maurer AG, Sorbothane, Inc., Structural Control Systems, Inc., Taylor Devices, Inc., Visotech AG, VSL International Ltd., Yokohama Seito Co., Ltd. and Zytech Engineering.
Key Developments:
In May 2023, REE Automotive partners with Japanese KYB to develop next-gen EV platform. The new alliance is meant to assist both businesses in creating a new, scalable electric vehicle platform to accommodate a range of automobile applications, including heavy-duty EV logistics as well as sedans, SUVs, MUVs, and last-mile delivery vehicles.
Building Types Covered:
• Bridges
• High-Rise Buildings
• Government Buildings
• Cultural and Historical Buildings
• Other Building Types
Applications Covered:
• Hospitals and Healthcare Facilities
• Educational Institutions
• Energy Infrastructure
• Other Applications
Regions Covered:
• North America
o US
o Canada
o Mexico
• Europe
o Germany
o UK
o Italy
o France
o Spain
o Rest of Europe
• Asia Pacific
o Japan
o China
o India
o Australia
o New Zealand
o South Korea
o Rest of Asia Pacific
• South America
o Argentina
o Brazil
o Chile
o Rest of South America
• Middle East & Africa
o Saudi Arabia
o UAE
o Qatar
o South Africa
o Rest of Middle East & Africa
What our report offers:
- Market share assessments for the regional and country-level segments
- Strategic recommendations for the new entrants
- Covers Market data for the years 2021, 2022, 2023, 2026, and 2030
- Market Trends (Drivers, Constraints, Opportunities, Threats, Challenges, Investment Opportunities, and recommendations)
- Strategic recommendations in key business segments based on the market estimations
- Competitive landscaping mapping the key common trends
- Company profiling with detailed strategies, financials, and recent developments
- Supply chain trends mapping the latest technological advancements
Free Customization Offerings:
All the customers of this report will be entitled to receive one of the following free customization options:
• Company Profiling
o Comprehensive profiling of additional market players (up to 3)
o SWOT Analysis of key players (up to 3)
• Regional Segmentation
o Market estimations, Forecasts and CAGR of any prominent country as per the client's interest (Note: Depends on feasibility check)
• Competitive Benchmarking
o Benchmarking of key players based on product portfolio, geographical presence, and strategic alliances
Table of Contents
1 Executive Summary
2 Preface
2.1 Abstract
2.2 Stake Holders
2.3 Research Scope
2.4 Research Methodology
2.4.1 Data Mining
2.4.2 Data Analysis
2.4.3 Data Validation
2.4.4 Research Approach
2.5 Research Sources
2.5.1 Primary Research Sources
2.5.2 Secondary Research Sources
2.5.3 Assumptions
3 Market Trend Analysis
3.1 Introduction
3.2 Drivers
3.3 Restraints
3.4 Opportunities
3.5 Threats
3.6 Application Analysis
3.7 Emerging Markets
3.8 Impact of Covid-19
4 Porters Five Force Analysis
4.1 Bargaining power of suppliers
4.2 Bargaining power of buyers
4.3 Threat of substitutes
4.4 Threat of new entrants
4.5 Competitive rivalry
5 Global Fluid Viscous Dampers for Construction Market, By Building Type
5.1 Introduction
5.2 Bridges
5.3 High-Rise Buildings
5.4 Government Buildings
5.5 Cultural and Historical Buildings
5.6 Other Building Types
6 Global Fluid Viscous Dampers for Construction Market, By Application
6.1 Introduction
6.2 Hospitals and Healthcare Facilities
6.3 Educational Institutions
6.4 Energy Infrastructure
6.5 Other Applications
7 Global Fluid Viscous Dampers for Construction Market, By Geography
7.1 Introduction
7.2 North America
7.2.1 US
7.2.2 Canada
7.2.3 Mexico
7.3 Europe
7.3.1 Germany
7.3.2 UK
7.3.3 Italy
7.3.4 France
7.3.5 Spain
7.3.6 Rest of Europe
7.4 Asia Pacific
7.4.1 Japan
7.4.2 China
7.4.3 India
7.4.4 Australia
7.4.5 New Zealand
7.4.6 South Korea
7.4.7 Rest of Asia Pacific
7.5 South America
7.5.1 Argentina
7.5.2 Brazil
7.5.3 Chile
7.5.4 Rest of South America
7.6 Middle East & Africa
7.6.1 Saudi Arabia
7.6.2 UAE
7.6.3 Qatar
7.6.4 South Africa
7.6.5 Rest of Middle East & Africa
8 Key Developments
8.1 Agreements, Partnerships, Collaborations and Joint Ventures
8.2 Acquisitions & Mergers
8.3 New Product Launch
8.4 Expansions
8.5 Other Key Strategies
9 Company Profiling
9.1 ACE Controls Inc
9.2 Dynamic Isolation Systems
9.3 Earthquake Protection Systems, Inc.
9.4 Enidine Inc. (ITT Corporation)
9.5 Kawakin Holdings Company Limited
9.6 KYB Corporation
9.7 KYOWA Engineering Consultants Co., Ltd.
9.8 Maurer AG
9.9 Sorbothane, Inc.
9.10 Structural Control Systems, Inc.
9.11 Taylor Devices, Inc.
9.12 Visotech AG
9.13 VSL International Ltd.
9.14 Yokohama Seito Co., Ltd.
9.15 Zytech Engineering
List of Tables
1 Global Fluid Viscous Dampers for Construction Market Outlook, By Region (2021-2030) ($MN)
2 Global Fluid Viscous Dampers for Construction Market Outlook, By Building Type (2021-2030) ($MN)
3 Global Fluid Viscous Dampers for Construction Market Outlook, By Bridges (2021-2030) ($MN)
4 Global Fluid Viscous Dampers for Construction Market Outlook, By High-Rise Buildings (2021-2030) ($MN)
5 Global Fluid Viscous Dampers for Construction Market Outlook, By Government Buildings (2021-2030) ($MN)
6 Global Fluid Viscous Dampers for Construction Market Outlook, By Cultural and Historical Buildings (2021-2030) ($MN)
7 Global Fluid Viscous Dampers for Construction Market Outlook, By Other Building Types (2021-2030) ($MN)
8 Global Fluid Viscous Dampers for Construction Market Outlook, By Application (2021-2030) ($MN)
9 Global Fluid Viscous Dampers for Construction Market Outlook, By Hospitals and Healthcare Facilities (2021-2030) ($MN)
10 Global Fluid Viscous Dampers for Construction Market Outlook, By Educational Institutions (2021-2030) ($MN)
11 Global Fluid Viscous Dampers for Construction Market Outlook, By Energy Infrastructure (2021-2030) ($MN)
12 Global Fluid Viscous Dampers for Construction Market Outlook, By Other Applications (2021-2030) ($MN)
13 North America Fluid Viscous Dampers for Construction Market Outlook, By Country (2021-2030) ($MN)
14 North America Fluid Viscous Dampers for Construction Market Outlook, By Building Type (2021-2030) ($MN)
15 North America Fluid Viscous Dampers for Construction Market Outlook, By Bridges (2021-2030) ($MN)
16 North America Fluid Viscous Dampers for Construction Market Outlook, By High-Rise Buildings (2021-2030) ($MN)
17 North America Fluid Viscous Dampers for Construction Market Outlook, By Government Buildings (2021-2030) ($MN)
18 North America Fluid Viscous Dampers for Construction Market Outlook, By Cultural and Historical Buildings (2021-2030) ($MN)
19 North America Fluid Viscous Dampers for Construction Market Outlook, By Other Building Types (2021-2030) ($MN)
20 North America Fluid Viscous Dampers for Construction Market Outlook, By Application (2021-2030) ($MN)
21 North America Fluid Viscous Dampers for Construction Market Outlook, By Hospitals and Healthcare Facilities (2021-2030) ($MN)
22 North America Fluid Viscous Dampers for Construction Market Outlook, By Educational Institutions (2021-2030) ($MN)
23 North America Fluid Viscous Dampers for Construction Market Outlook, By Energy Infrastructure (2021-2030) ($MN)
24 North America Fluid Viscous Dampers for Construction Market Outlook, By Other Applications (2021-2030) ($MN)
25 Europe Fluid Viscous Dampers for Construction Market Outlook, By Country (2021-2030) ($MN)
26 Europe Fluid Viscous Dampers for Construction Market Outlook, By Building Type (2021-2030) ($MN)
27 Europe Fluid Viscous Dampers for Construction Market Outlook, By Bridges (2021-2030) ($MN)
28 Europe Fluid Viscous Dampers for Construction Market Outlook, By High-Rise Buildings (2021-2030) ($MN)
29 Europe Fluid Viscous Dampers for Construction Market Outlook, By Government Buildings (2021-2030) ($MN)
30 Europe Fluid Viscous Dampers for Construction Market Outlook, By Cultural and Historical Buildings (2021-2030) ($MN)
31 Europe Fluid Viscous Dampers for Construction Market Outlook, By Other Building Types (2021-2030) ($MN)
32 Europe Fluid Viscous Dampers for Construction Market Outlook, By Application (2021-2030) ($MN)
33 Europe Fluid Viscous Dampers for Construction Market Outlook, By Hospitals and Healthcare Facilities (2021-2030) ($MN)
34 Europe Fluid Viscous Dampers for Construction Market Outlook, By Educational Institutions (2021-2030) ($MN)
35 Europe Fluid Viscous Dampers for Construction Market Outlook, By Energy Infrastructure (2021-2030) ($MN)
36 Europe Fluid Viscous Dampers for Construction Market Outlook, By Other Applications (2021-2030) ($MN)
37 Asia Pacific Fluid Viscous Dampers for Construction Market Outlook, By Country (2021-2030) ($MN)
38 Asia Pacific Fluid Viscous Dampers for Construction Market Outlook, By Building Type (2021-2030) ($MN)
39 Asia Pacific Fluid Viscous Dampers for Construction Market Outlook, By Bridges (2021-2030) ($MN)
40 Asia Pacific Fluid Viscous Dampers for Construction Market Outlook, By High-Rise Buildings (2021-2030) ($MN)
41 Asia Pacific Fluid Viscous Dampers for Construction Market Outlook, By Government Buildings (2021-2030) ($MN)
42 Asia Pacific Fluid Viscous Dampers for Construction Market Outlook, By Cultural and Historical Buildings (2021-2030) ($MN)
43 Asia Pacific Fluid Viscous Dampers for Construction Market Outlook, By Other Building Types (2021-2030) ($MN)
44 Asia Pacific Fluid Viscous Dampers for Construction Market Outlook, By Application (2021-2030) ($MN)
45 Asia Pacific Fluid Viscous Dampers for Construction Market Outlook, By Hospitals and Healthcare Facilities (2021-2030) ($MN)
46 Asia Pacific Fluid Viscous Dampers for Construction Market Outlook, By Educational Institutions (2021-2030) ($MN)
47 Asia Pacific Fluid Viscous Dampers for Construction Market Outlook, By Energy Infrastructure (2021-2030) ($MN)
48 Asia Pacific Fluid Viscous Dampers for Construction Market Outlook, By Other Applications (2021-2030) ($MN)
49 South America Fluid Viscous Dampers for Construction Market Outlook, By Country (2021-2030) ($MN)
50 South America Fluid Viscous Dampers for Construction Market Outlook, By Building Type (2021-2030) ($MN)
51 South America Fluid Viscous Dampers for Construction Market Outlook, By Bridges (2021-2030) ($MN)
52 South America Fluid Viscous Dampers for Construction Market Outlook, By High-Rise Buildings (2021-2030) ($MN)
53 South America Fluid Viscous Dampers for Construction Market Outlook, By Government Buildings (2021-2030) ($MN)
54 South America Fluid Viscous Dampers for Construction Market Outlook, By Cultural and Historical Buildings (2021-2030) ($MN)
55 South America Fluid Viscous Dampers for Construction Market Outlook, By Other Building Types (2021-2030) ($MN)
56 South America Fluid Viscous Dampers for Construction Market Outlook, By Application (2021-2030) ($MN)
57 South America Fluid Viscous Dampers for Construction Market Outlook, By Hospitals and Healthcare Facilities (2021-2030) ($MN)
58 South America Fluid Viscous Dampers for Construction Market Outlook, By Educational Institutions (2021-2030) ($MN)
59 South America Fluid Viscous Dampers for Construction Market Outlook, By Energy Infrastructure (2021-2030) ($MN)
60 South America Fluid Viscous Dampers for Construction Market Outlook, By Other Applications (2021-2030) ($MN)
61 Middle East & Africa Fluid Viscous Dampers for Construction Market Outlook, By Country (2021-2030) ($MN)
62 Middle East & Africa Fluid Viscous Dampers for Construction Market Outlook, By Building Type (2021-2030) ($MN)
63 Middle East & Africa Fluid Viscous Dampers for Construction Market Outlook, By Bridges (2021-2030) ($MN)
64 Middle East & Africa Fluid Viscous Dampers for Construction Market Outlook, By High-Rise Buildings (2021-2030) ($MN)
65 Middle East & Africa Fluid Viscous Dampers for Construction Market Outlook, By Government Buildings (2021-2030) ($MN)
66 Middle East & Africa Fluid Viscous Dampers for Construction Market Outlook, By Cultural and Historical Buildings (2021-2030) ($MN) 67 Middle East & Africa Fluid Viscous Dampers for Construction Market Outlook, By Other Building Types (2021-2030) ($MN)
68 Middle East & Africa Fluid Viscous Dampers for Construction Market Outlook, By Application (2021-2030) ($MN)
69 Middle East & Africa Fluid Viscous Dampers for Construction Market Outlook, By Hospitals and Healthcare Facilities (2021-2030) ($MN)
70 Middle East & Africa Fluid Viscous Dampers for Construction Market Outlook, By Educational Institutions (2021-2030) ($MN)
71 Middle East & Africa Fluid Viscous Dampers for Construction Market Outlook, By Energy Infrastructure (2021-2030) ($MN)
72 Middle East & Africa Fluid Viscous Dampers for Construction Market Outlook, By Other Applications (2021-2030) ($MN)
List of Figures
RESEARCH METHODOLOGY
We at ‘Stratistics’ opt for an extensive research approach which involves data mining, data validation, and data analysis. The various research sources include in-house repository, secondary research, competitor’s sources, social media research, client internal data, and primary research.
Our team of analysts prefers the most reliable and authenticated data sources in order to perform the comprehensive literature search. With access to most of the authenticated data bases our team highly considers the best mix of information through various sources to obtain extensive and accurate analysis.
Each report takes an average time of a month and a team of 4 industry analysts. The time may vary depending on the scope and data availability of the desired market report. The various parameters used in the market assessment are standardized in order to enhance the data accuracy.
Data Mining
The data is collected from several authenticated, reliable, paid and unpaid sources and is filtered depending on the scope & objective of the research. Our reports repository acts as an added advantage in this procedure. Data gathering from the raw material suppliers, distributors and the manufacturers is performed on a regular basis, this helps in the comprehensive understanding of the products value chain. Apart from the above mentioned sources the data is also collected from the industry consultants to ensure the objective of the study is in the right direction.
Market trends such as technological advancements, regulatory affairs, market dynamics (Drivers, Restraints, Opportunities and Challenges) are obtained from scientific journals, market related national & international associations and organizations.
Data Analysis
From the data that is collected depending on the scope & objective of the research the data is subjected for the analysis. The critical steps that we follow for the data analysis include:
- Product Lifecycle Analysis
- Competitor analysis
- Risk analysis
- Porters Analysis
- PESTEL Analysis
- SWOT Analysis
The data engineering is performed by the core industry experts considering both the Marketing Mix Modeling and the Demand Forecasting. The marketing mix modeling makes use of multiple-regression techniques to predict the optimal mix of marketing variables. Regression factor is based on a number of variables and how they relate to an outcome such as sales or profits.
Data Validation
The data validation is performed by the exhaustive primary research from the expert interviews. This includes telephonic interviews, focus groups, face to face interviews, and questionnaires to validate our research from all aspects. The industry experts we approach come from the leading firms, involved in the supply chain ranging from the suppliers, distributors to the manufacturers and consumers so as to ensure an unbiased analysis.
We are in touch with more than 15,000 industry experts with the right mix of consultants, CEO's, presidents, vice presidents, managers, experts from both supply side and demand side, executives and so on.
The data validation involves the primary research from the industry experts belonging to:
- Leading Companies
- Suppliers & Distributors
- Manufacturers
- Consumers
- Industry/Strategic Consultants
Apart from the data validation the primary research also helps in performing the fill gap research, i.e. providing solutions for the unmet needs of the research which helps in enhancing the reports quality.
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