Noliac Systems offers a variety of superior piezo transducer based accelerometers
Wide range of piezo accelerometers
Noliac Systems offers a variety of superior piezo transducer based accelerometers designed for specific applications. The standard range varies from high temperature accelerometers to industrial, shock, special purpose, and electronic purpose accelerometers.
A piezoelectric accelerometer utilizes the piezoelectric effect of certain materials to measure dynamic changes in mechanical variables, e.g. acceleration, vibration, and mechanical shock.
Vibration measurements and monitoring
As with all transducers, piezoelectric accelerometers convert one form of energy into another and provide an electrical signal in response to a quantity, property, or condition that is being measured.
Using the general sensing method upon which all accelerometers are based, acceleration acts upon a seismic mass that is restrained by a spring or suspended on a cantilever beam, and converts a physical force into an electrical signal. Before the acceleration can be converted into an electrical quantity it must first be converted into either a force or displacement.
Noliac’s piezoelectric vibration sensors type MH and ME are intended for general use in systems for vibration measurements and machine condition monitoring.
Find out more…
- Reliability Polls and Quizzes
- Non-Intrusive Continuous Asset Management Is Here
- Give Work a Chance!
- CMMS Cost Justification: How Do You Justify the Purchase of a New CMMS System?
- Missing Link in Work Management
- Reliability Milestones Reached by Plant-Wide Oil Mist Systems
- Business Analytics
- Engagement - A Maintenance Story
- Why Drive Change?
(3) - Delayed Retribution - The Demise of Skilled Trades Apprenticeship Programs
(1)
- Reliability Polls and Quizzes
- Electric Motor Bearing Greasing Basics
(7)
- The 5S Method of Improvement - Enhancing Safety, Productivity and Culture
- Aerial Infrared – An Asset Management Tool for District Heating System Operators
- Asset Management: concepts and practices
(8)
- Maintenance of Hydraulic Systems
(3)
- CBM 2011 Video Proceedings
(2)
- Improving on the Fishbone Effective Cause-and-Effect Analysis
(2)
- Reliabilityweb.com 100 Top Web Sites
- Root Cause Failure Analysis Web Workshops
- Alignment and Balancing
- Asset Management
- CMMS and EAM
- Green Reliability
- Human Asset Management
- Infrared Thermal Imaging
- KPIs - Reliability Performance Metrics
- Lean Maintenance
- Lubrication
- Maintenance Management
- Motor and Power System Testing
- MRO - Spares Management
- Oil and Fluid Analysis
- Planning and Scheduling
- PM Optimization
- Predictive Maintenance and Condition Monitoring Management
- Reliability-Centered Maintenance
- Reliability Engineering
- Reliability Leadership
- Root Cause Analysis
- Shutdowns and Turnarounds
- Total Productive Maintenance (Asset Care)
- Training
- Ultrasonics
- Vibration Analysis
- Alignment and Balancing
- Asset Management
- CMMS and EAM
- Green Reliability
- Human Asset Management
- Infrared Thermal Imaging
- KPIs - Reliability Performance Metrics
- Lean Maintenance
- Lubrication
- Maintenance Management
- Motor and Power System Testing
- MRO - Spares Management
- Oil and Fluid Analysis
- Planning and Scheduling
- PM Optimization
- Predictive Maintenance and Condition Monitoring Management
- Reliability-Centered Maintenance
- Reliability Engineering
- Reliability Leadership
- Root Cause Analysis
- Shutdowns and Turnarounds
- Total Productive Maintenance (Asset Care)
- Training
- Ultrasonics
- Vibration Analysis