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Are you adding grease to a bearing and not hearing any changes from your ultrasound equipment? If so, start wondering where the grease is going. It is a fact that if grease gets into a bearing the ultrasound decibel will either go down on a bearing that needs grease or go up on a bearing that is already over-lubricated.

Look for a blocked grease tube. Grease may be going into the windings on an electric motor. Do you see grease on the tube of the grease gun? Maybe a greaseable bearing was replaced with a sealed bearing at the motor shop after a repair. These are just some of the things you need to consider if you get no ultrasonic decibel change after injecting grease to a bearing.

Download 5-Step Acoustic Lubrication Procedure

by Yolanda Lopez

The diesel engine is the heart of heavy construction equipment and replacement costs are in the millions. Ingress of dust due to leaky air intake systems shreds components in short order.  The SDT TIGHTChecker quickly and easily pinpoints leaks in the air intake system.

Dust is no friend to a diesel engine. But when the integrity of the air breather and turbo charger is compromised by leaks, microscopic grains of silica and other contaminants are sucked inside. There, they wreak havoc on the engine’s internal components costing organizations millions of dollars in premature wear and downtime.

Worse yet, you may not even realize you have dust ingress unless you are conducting regular oil analysis. These leaks are nearly impossible to find using conventional methods. Visual inspection takes hours and is often unsuccessful. Production does not have the patience to wait. They need that asset back in the field, leaks or not.

But what if there was a way to identify those leaks in minutes, instead of hours? SDT Ultrasound Solutions teamed up with mining giant Rio Tinto in Labrador, Newfoundland to devise a simple procedure for identifying turbo leaks in the engines of their huge loaders.

Using SDT ultrasound technology, a transmitter is placed inside the air filter basket. The high frequency sound waves are contained inside the piping unless there is a leak. Any microscopic air gap in the pipe is instantly recognized by the handheld flex ultrasound detector.

An 8 hour inspection that often ended in frustration is now a worldwide success story that continues to save Iron Ore Company of Canada $8 million per year.

by Yolanda Lopez


Plant Engineering, celebrating its 30th anniversary of the Product of the Year award program, announced the results for the 2017 entrants. SDT’s innovative LUBExpert, an ultrasound solution designed to help grease bearings right, was awarded the GOLD medal! The award is remarkable considering the excellent company of peers in the running for Silver and Bronze.
Alex Nino of LUDECA, was on hand at the award ceremony, and looked marvelous! LUDECA is the exclusive distribution partner for SDT Ultrasound Solutions in the USA and were instrumental in architecting this recognition. Chosen from numerous submissions from around the world, Plant Engineering subscribers reviewed and voted on the finalists. LUBExpert received the most votes for this 30th anniversary Grand Award. Congratulations to LUDECA, SDT, and LUBExpert for the GOLD.
Poor greasing practices is a leading cause of bearing failure. LUBExpert is an ultrasound solution designed to precisely guide lube-techs during the lubrication replenishment process. It helps avoid over and under lubrication, while instructing the technician on which grease types, grease guns, grease quantities, and replenishment intervals to use. LUBExpert’s intelligence lends confidence to the task of grease replenishment and is a true innovation for ultrasound technology.

Winning GOLD validates our decision to work with industry leaders such as SDT,” states Ana Maria Delgado, Marketing Manager at LUDECA. “The LUBExpert compliments our full line of predictive and proactive solutions. Its clever innovation supports the leadership position of all our solutions.”

About LUDECA
LUDECA is the premier provider of reliability solutions to USA industry. Their years of experience and wealth of knowledge make it possible to offer the very best service and support to their customers. Their commitment here strengthens their reputation as the very best in our fields. SDT is delighted to be aligned with LUDECA. Our companies share the same principles, philosophies, and values.
About SDT
SDT provides ultrasound solutions that help our customers gain a better understanding about the health of their factory. We help them anticipate failures, control energy costs, and improve product quality while contributing to the overall reliability of their assets.

by Allan Rienstra - SDT Ultrasound Solutions

I often hear the question, “what can I detect with ultrasound?”. The fact is, ultrasound is such a versatile condition monitoring technology we tend to ask it to do things beyond its capabilities. And that’s fine because I firmly believe every technology should be pushed beyond its limits. It’s how we get better.
But to help answer the question, “what can I detect?”, I ask a simple question in return. Is your application FIT?
Now you’re asking “what does he mean by is it FIT”?
Let me explain. FIT is an acronym for Friction, Impacting, and Turbulence. Basically, if the defect you are searching for generates any of these three phenomena, then ultrasound is a solution FIT to solve your problem.
Let’s try a super easy example. You are tasked with finding compressed air leaks in your factory. Air lines run every which way throughout your deafeningly noisy plant so you can’t hear the leaks. You could run your hand along all the pipes and anywhere you feel cool air rushing out you’d know you found a leak. Or you could spray soapy water on the pipe joints and look for bubbles. A third solution could be to wait for a plant shutdown and listen for the turbulent flow of air leaks when everything is quiet.

The BEST solution is to ask, “do compressed air leaks produce Friction, Impacting, or Turbulence?”. That’s it! Due to the difference in pressure on either side of the compressed air line, anywhere there is a leak there is turbulent flow. Ultrasound detectors are really good at detecting turbulent flow in high noise environments. There’s no need to run your hand along the pipe, reach for the bubble solution, or wait for a shutdown. Go grab your SDT Detector and start tagging leaks today.

by Allan Rienstra - SDT Ultrasound Solutions

  1. Most electrical cabinets are not hermetically sealed. Scan your ultrasound detector around the panel sides and ventholes to detect discharges like arcing, tracking, and corona.
  2. Not all electrical discharge faults produce heat. Use ultrasound solutions to hear what your infrared camera cannot see.
  3. Electrical discharge activity is amplified by high humidity. When performing ultrasonic scans at substations make note of the date and weather conditions.
  4. Ultrasound travels directionally through air compared with audible sound. When scanning from a distance therefore, it is important to inspect electrical systems from all sides.
  5. Corona discharge produces no heat on electrical systems below 240 kV so don’t rely entirely on infrared to find problems.

by Allan Rienstra - SDT Ultrasound Solutions

As Published by Maintenance Technology Magazine March 2017 issue

Ultrasound ‘heard’ and confirmed electrical arcing in the termination-junction box of this vertical-turbine-pump-system’s motor.

 
When it comes to electrical systems, most failures can be attributed, in large part, to installation problems, water damage, insulation issues, or poor workmanship. Such failures pose a serious safety threat and have the ability to shut down operations entirely. Ultrasound technology is a proven way to deal with them. In short, this easily deployed predictive tool offers sites a means of identifying and, thus minimizing the impact of these problems.
Read the full case study and learn how Brian Franks from JetTech Mechanical located an electrical fault with the SDT270 ultrasound system at a major water municipality.

by Yolanda Lopez

Bearings produce less friction when they are properly lubricated. But how do we know?

  • How can you be confident that friction forces are where they should be?
  • How can you confidently apply just the right amount of grease to return friction levels to normal?
  • How can you distinguish between a bearing that need grease and a bearing that is failing?

How does Ultrasound help?
Using an ultrasound measurement tool with digital decibel metering is a proven method for:

  • Establishing a historical baseline for friction levels
  • Monitoring changes in friction levels at regular intervals
  • Triggering alarms when friction levels elevate
  • Evaluating data to differentiate failure from friction

Our Ultrasound solutions are designed for budget minded inspectors. However attention to detail, robustness, and quality have not been sacrificed at the expense of low price. Equipped with needle and threaded contact sensors, acoustic lube adapter, and multi-surface magnet, our SDT systems answer the basic needs of lubricators. The non-contact temperature sensor can be used for additional control of bearing condition prior to and after lubrication.
Download Ultrasound Lubrication Technician Handbook

by Allan Rienstra - SDT Ultrasound Solutions

LUDECA SDT Service Center
LUDECA is proud to announce that effective October 14,  2016, LUDECA is certified as an authorized SDT Service and Repair Center for the United States.
Our factory trained technicians are highly experienced, and committed to providing our customers with excellent service.
We look forward to servicing your SDT ultrasound products at our Doral, Florida location.
For more information, visit our website.

by Ana Maria Delgado, CRL