Description
Machine condition monitoring is the process of monitoring the condition of a machine with the commitment to predict mechanical wear and tear. Vibration, noise, and temperature measurements are often used as key indicators of the state of the machine. Trends in the data provide health information about the machine and help to detect machine faults early, which prevents unexpected failure and costly repair. It has been observed that an increase in need for reduced maintenance cost is boosting the machine condition monitoring market. In this changing environment, a shift from preventive to predictive maintenance is observed which has led to high adoption of machine condition monitoring.
The machine condition monitoring provides numerous benefits as increased machine availability and reliability, improved operating efficiency, improved risk management (less downtime), reduced maintenance costs (better planning), reduced spare parts inventories, improved safety, improved knowledge of the machine condition (safe short-term overloading of machine possible), extended operational life of the machine, improved customer relations (less planned/unplanned downtime), elimination of chronic failures among others.
Machine maintenance monitoring strategies like predictive maintenance are beneficial to conserve costs even in tight liquidity and postpone the purchase of new equipment by effective monitoring and maintenance of the existing machinery. Devices like transmitters and vibration sensors also combat increased costs and minimize dependence on the servicing sector and IT support. They save time and uphold the safety standards for human personnel and direct them toward more decision-making tasks. At present, vibration-based monitoring is the most widely used modality among all other techniques.
The global machine condition monitoring market is expected to grow approximately at USD 2916.54 Million by 2023, approx. 5.55% of CAGR between 2016 and 2023.
Key Players
The key players of machine condition monitoring market include Emerson Electric (U.S.), General Electric (U.S.), Honeywell International Inc. (U.S.), Rockwell Automation (U.S.), Timken (U.S.), FLIR Systems (U.S.), SKF (Sweden), NSK (Japan), Parker-Hannifin (U.S.), PCB Piezotronics (U.S.), Halma (U.K.), National Instruments (U.S.), Shinkawa (Japan), Azima DLI (U.S.), Bruel & Kjaer Sound and Vibration Measurement (U.S.), Fluke Corporation (U.S.), PDS Condition Monitoring Services (Australia), Saj Engineering & Trading Company (Bangladesh), Scientific Monitoring, Inc. (U.S.), SPM Instrument (Sweden) and others.
Global Machine Condition Monitoring Market Analysis & Forecast, from 2016 to 2023
• To provide detailed analysis of the market structure along with forecast of the various segments and sub-segments of the machine condition monitoring market.
• To provide insights about factors affecting the market growth.
• To analyze the machine condition monitoring market based on porter’s five force analysis etc.
• To provide historical and forecast revenue of the market segments and sub-segments with respect to four main geographies and their countries- North America, Europe, Asia, and Rest of the World.
• To provide country level analysis of the market with respect to the current market size and future prospective.
• To provide country level analysis of the market for segment on the basis of output, technology and end user.
• To provide strategic profiling of key players in the market, comprehensively analyzing their core competencies, and drawing a competitive landscape for the market.
• To track and analyze competitive developments such as joint ventures, strategic alliances, mergers and acquisitions, new product developments, and research and developments in the machine condition monitoring market.
Target Audience
• Machine Condition Monitoring Equipment Manufactures
• Technology Providers
• Distributors
• Research firms
• Consultancy firms
• Semiconductor Manufacturers
• Stakeholders
• End-user sectors
• Technology Investors
Key Findings
• The Global Machine condition monitoring market is expected to reach USD 2,916.54 million by 2023.
• By End-user, automotive industry holds the largest market share of USD 486.4 million by the end of forecast period.
• The pharmaceutical industry is expected to grow with a highest CAGR of 6.54% during the forecast period.
• Geographically, North America has been projected to have the largest market share in global machine condition monitoring market and has been projected to emerge as the fastest growing region.
Regional and Country Analysis of Machine Condition Monitoring Market Estimation and Forecast
Machine Condition Monitoring market is growing with the positive growth in all the regions. Increasing application areas year on year and advancement in technology and integration is driving the market on global scale. On the basis of region, the market has been segmented into North America, Europe, Asia-Pacific and Rest of the World. North America is dominating the global machine condition monitoring market share followed by Europe which stands as the second biggest market due to the heavy demand from various industry verticals whereas, Asia Pacific stands as third biggest market.
The reports also cover country level analysis:
• North America
o US
o Canada
o Mexico
o Others
• Europe
o Germany
o UK
o France
o Rest of the Europe
• Asia – Pacific
o China
o India
o Japan
o Rest of Asia-Pacific
• Rest of the World
1 Executive Summary
1.1 Highlights
2 Scope of the Report
2.1 Market Overview
3 Market Research Methodology
3.1 Research Process
3.2 Primary Research
3.3 Secondary Research
3.4 Economic Indicators
4 Introduction
4.1 Key Market Highlights
4.2 Maintenance Methodologies
5 Market Landscape
5.1 Market Overview
5.2 Five Forces analysis
6 Market Drivers
6.1 Shift from Preventive Maintenance to Predictive Maintenance
6.2 Employee Health and Safety Standards Commonly Followed Across Industries Worldwide
6.3 Capital investments by leading automobile companies
7 Impact of Drivers
8 Market Challenges
8.1 Lack of customization and increased costs
8.2 Slowdown in Major Economies and its Implications on Machine Condition Monitoring Market
9 Impact of Drivers and Challenges
10 Market Trends
10.1 Integration of IoT in machine condition monitoring
11 Market Segmentation, By End-user
11.1 Introduction
11.1.1 Power
11.1.2 Oil and Gas
11.1.3 Chemical and Petrochemical
11.1.4 Pulp and Paper
11.1.5 Cement
11.1.6 Steel and Metal
11.1.7 Pharmaceutical
11.1.8 Automotive
11.1.9 Food and Beverage
12 Geographical Segmentation
12.1 Market Overview
12.1.1 North America
12.1.2 Europe
12.1.3 Asia Pacific
12.1.4 Rest of the World
13 Vendor Landscape
13.1 Competition Overview
14 Key Vendor Analysis
14.1 Emerson Electric
14.1.1 Business Overview
14.1.2 Emerson Electric – Key Products
14.1.3 Emerson Electric – Key Financials
14.1.4 Company Revenue
14.1.5 Business Strategy
14.1.6 SWOT Analysis
14.2 General Electric
14.2.1 Business overview
14.2.2 General Electric – Key Products
14.2.3 General Electric – Key Financials
14.2.4 Company Revenue
14.2.5 Business Strategy
14.2.6 SWOT Analysis
14.3 Honeywell International, Inc.
14.3.1 Business Overview
14.3.2 Honeywell International – Key Products
14.3.3 Honeywell International – Key Financials
14.3.4 Company Revenue
14.3.5 Business Strategy
14.3.6 SWOT Analysis
14.4 Rockwell Automation
14.4.1 Business Overview
14.4.2 Rockwell Automation – Key Products
14.4.3 Rockwell Automation – Key Financials
14.4.4 Company Revenue
14.4.5 Business Strategy
14.4.6 SWOT Analysis
14.5 Timken
14.5.1 Business Overview
14.5.2 Timken – Key Products
14.5.3 Timken – Key Financials
14.5.4 Company Revenue
14.5.5 Business Strategy
14.5.6 SWOT Analysis
14.6 FLIR Systems
14.6.1 Business Overview
14.6.2 FLIR Systems – Key Products
14.6.3 FLIR Systems – Key Financials
14.6.4 Company Revenue
14.6.5 Business Strategy
14.6.6 SWOT Analysis
14.7 SKF
14.7.1 Business Overview
14.7.2 SKF – Key Products
14.7.3 SKF – Key Financials
14.7.4 Company Revenue
14.7.5 Business Strategy
14.7.6 SWOT Analysis
14.8 NSK
14.8.1 Business Overview
14.8.2 NSK – Key Products
14.8.3 NSK – Key Financials
14.8.4 Company Revenue
14.8.5 Business Strategy
14.8.6 SWOT Analysis
14.9 Parker-Hannifin
14.9.1 Business overview
14.9.2 Parker-Hannifin – Key Products
14.9.3 Parker-Hannifin – Key Financials
14.9.4 Company Revenue
14.9.5 Business Strategy
14.9.6 SWOT Analysis
14.1 PCB Piezotronics
14.10.1 Business overview
14.10.2 PCB Piezotronics – Key Products
14.10.3 MTS System Corporation (PCB Piezotronics) – Key Financials
14.10.4 Company Revenue
14.11 Halma
14.11.1 Business overview
14.11.2 Halma – Key Products
14.11.3 Halma – Key Financials
14.11.4 Company Revenue
14.11.5 Business Strategy
14.12 National Instruments
14.12.1 Business overview
14.12.2 National Instruments – Key Products
14.12.3 National Instruments – Key Financials
14.12.4 Company Revenue
14.13 Shinkawa
14.13.1 Business Overview
14.13.2 Shinkawa – Key Products
14.13.3 Shinkawa – Key Financials
14.13.4 Company Revenue
14.14 Azima DLI
14.14.1 Business Overview
14.14.2 Azima DLI – Key Products
14.15 Bruel & Kjaer Sound and Vibration Measurement
14.15.1 Business Overview
14.15.2 Bruel & Kjaer Sound and Vibration Measurement – Key Products
14.16 Fluke Corporation
14.16.1 Business Overview
14.16.2 Fluke Corporation – Key Products
14.17 PDS Condition Monitoring Services
14.17.1 Business Overview
14.17.2 PDS Condition Monitoring Services – Key Products
14.18 Saj Engineering & Trading Company
14.18.1 Business Overview
14.18.2 Saj Engineering & Trading Company – Key Products
14.19 Scientific Monitoring, Inc.
14.19.1 Business Overview
14.19.2 Scientific Monitoring – Key Products
14.2 SPM Instrument
14.20.1 Business Overview
14.20.2 SPM Instrument – Key Products
15 Appendix
