May 24, 2016
May 2016 · Plant Services Magazine
Like a lot of reliability engineers, Joe Anderson, former reliability manager at the J.M. Smucker Co., appreciated – in theory – that precise pulley alignment is critical to preventing vibration problems and ensuring successful operations.
My understanding was, ‘Yeah, we need to do it,’ ” Anderson says. “But you always have these excuses.”
When the Smucker’s plant at which Anderson worked launched a dedicated vibration monitoring and control program a year-and-a-half ago, though, Anderson quickly became a convert to making precision alignment a priority.
The plant purchased a vibration analyzer (VIBXPERT) and laser alignment tool (the SheaveMaster Greenline) from Ludeca to help aid in identifying machine defects that appeared to be linked to vibration caused by misalignment. Laser alignment allowed for correcting vertical angularity, horizontal angularity, and axial offset – the three types of misalignment – simultaneously. Whoever was using the laser alignment tool, then, could be sure that adjustments made to correct one alignment problem didn’t create an issue on another plane.
Read entire article to learn how J.M. Smucker Co. made precision alignment a priority: Get your alignment in line: Don’t jiggle while you work
May 17, 2016
Guest post by Karl Hoffower – Condition Monitoring and Reliability Expert for Failure Prevention Associates
Location and placement of your sensors are crucially important when doing predictive vibration analysis.
1) Below is an example of proper sensor installation on a cooling tower gearbox. These two sensors are placed in different directions to follow both the gearbox vibration as well as indicate if the fan blades become unbalanced.
Read Vibration Sensors for Cooling Towers case study from CTC for details on proper sensor installation on cooling towers.
2) This example of poor sensor placement is on a vertical motor using a belt drive for a fin fan.
- The vibration sensors pictured on the left are attached to one of the motor fins. Watching these sensors, one could visually see the fin and sensors oscillating as if on a trampoline.
- The choices are to face, drill & tap (see figure #4 below).
- The other option would be to epoxy a mounting pad to the bearing housings. Then screw the sensor into the mounting pad.
3) Another example of poor sensor placement on a 4-20mA shutdown switch on a gas recipient compressor at a facility in Texas.
- The vibration sensor (yellow arrow) is a 4-20mA accelerometer used for asset protection in an automatic shutdown setting. It is monitoring the overall vibration levels emanating from the bearings and shaft (red arrow).
- The better choice would be to use a mounting pad attached to the pillow block bearing.
May 10, 2016
Reposted from RELIABILITYWEB®
- Assemble a team and identify applications for a program
- Justify needs by recognizing key areas where improvement can be benchmarked
- Set written goals for the program
- Establish how ROI will be measured
- Purchase quality ultrasonic inspection equipment
- Invest in certification training at both management and user levels
- Choose a leader to technically carry the program forward
- Establish a system to reward the successes
- Frequently review the progress as part of regular meetings
- Ensure everyone involved is 100% mentally invested in the program’s success
Tip from Hear More: A Guide to Using Ultrasound for Leak Detection and Condition Monitoring by Thomas J. Murphy and Allan R. Rienstra.
To learn more about airborne ultrasound, download a chapter preview of Hear More.
April 26, 2016
Does your maintenance staff have to wait on parts, wait for the equipment to be available, search for tools to do their job, work lots of overtime, travel long distances to the job, etc? Most maintenance staff work in pairs. This means that when you see one of your maintenance staff struggling to do his job, then his counterpart is struggling as well. What is the result? You may have a hidden cost (twice the labor) that you did not realize!
What can you do to avoid this? Make sure that your work is correctly planned. Job plans should be created, and be accurate and available. The required parts should be staged once the work is planned. Machine drawings, special tools, permits, etc., required to complete the maintenance activity should be identified in the job plan and be available as part of the job kit. Once all of this is done the work should be scheduled. These steps will help your maintenance staff focus on work and not on searching for the resources they need to complete their assigned maintenance tasks. You will save money and have more reliable equipment.
April 19, 2016
LUDECA is excited to announce two new partnerships: In order to improve and diversify our product offerings, we developed an exclusive partnership with the prestigious Swedish manufacturer, EASY-LASER, to promote and sell the next generation of precise, easy-to-use laser systems for solutions that evolve with our industry. Secondly, we have partnered with the global ultrasound technology leader, SDT Ultrasound Solutions, to bring our customers yet another best-in-class product line for leak and fault detection, and optimized bearing lubrication.
These partnerships will equip the most forward-thinking Solutions Provider with the most forward-thinking products available. For our customers, this means that they can rely on a best-in-class approach to alignment, vibration, ultrasound and condition monitoring systems built upon decades of industry leading knowledge, experience and technology.
As our company evolves, so will our Service Center. Located in Doral, Florida, we now calibrate and service EASY-LASER and SDT Products and continue to perform NIST traceable calibrations and service for Pruftechnik alignment and vibration products. Our principal goal is to support you, our customer.
In addition to our new EASY-LASER and SDT products, we still sell alignment and condition monitoring systems by Pruftechnik. We also provide technical support and training for any system which you purchase from us as well as loaners, equipment rentals and field services. As an SMRP and MSAT approved provider, all of our 3- and 4-day training courses are mapped to the SMRP’s Equipment Reliability Body of Knowledge and UPTIME® ELEMENTS™ for continuing education credits.
We look forward to serving your maintenance and reliability needs. Keep it running.
April 12, 2016
Friction is all around us. Without it we would have difficulty to walk, run, or even stand. We need friction to drive our cars and fly our airplanes; and we need friction for our motors to drive pumps and our pumps to push product. So when it comes to our plant assets, friction is both friend and foe.
Lubrication of rolling element bearings is one of the most misunderstood tasks in industry. Can it be true that 40% of bearings never live to their engineered life cycle and bad lubrication practices are a leading cause?
To achieve optimal lubrication we must know:
- When a bearing needs new grease
- What quantity of new grease is required
- And how much is TOO MUCH!
Acoustic Lubrication with ultrasound testing is the technology of choice for Lube-Techs who want to avoid these three common mistakes:
Three Mistakes to Avoid When Lubricating Bearings:
- Lubricating based on TIME instead of CONDITION
- Over or under lubricating the bearing
- Using low quality “Listen-only” ultrasound instruments
To Hear More about implementing a world-class ultrasound greasing program, download Ultrasound Lube Technician Handbook.