1. Condition Based Monitoring with Vibration Measurement and Analysis
Condition-based maintenance monitoring focuses on preventing asset failures and downtime by monitoring asset health to determine what maintenance needs to be completed and when. It can be considered essential to any predictive maintenance strategy.
Maintenance activities based on asset condition, rather than on a pre-set interval, can potentially progress maintenance activities to a new efficiency level. Maintenance teams are more informed about their assets and can make more confident maintenance decisions.
With advance warning of machine failures, unexpected breakdowns can be avoided with planned repairs, allowing more time to be spent on other priority areas such as asset performance, energy efficiency, production output, and more
To provide a one-stop solution we are equipped with offline quality equipment and partnered with world class IOT service providers for all type of vibration measurement and analysis requirements
Vibration Measurement and Analysis with offline Equipment's
Robust and on-point analysis
On spot solution
Visual inspection
Vibration Measurement and Analysis with Online/IOT Sensor
Inaccessible areas can be monitor
There is no need for regular visits to the equipment
Saves a lot of time and labour
Cloud-based data with a graphical history
2. On-site Dynamic Balancing
Field balancing is a technique used to balance a rotating part in the plant without removing the part from the machine
It reduces dismantling time & labor. It also eliminates the chance of errors involved while re-assembling
No transportation is required for the on-site process. The probability of damages in transportation is zero
Time-saving
Reduced cost
3. Workshop (Inhouse) Dynamic Balancing
Our Workshop is equipped with precise Balancing machines for all types of rotors/impellers at Vatva-GIDC, Ahmedabad
Capacity – Upto 1.5tonne
Max Job Diameter – 3meter
Max Job Length – 4meter
4. Laser Shaft Alignment
Laser Shaft Alignment service makes two rotating shafts co-linear
This process allows the laser to measure just the rotational center and is not affected by shaft or coupling eccentricity or runout
Reduces Premature bearing, seal, and coupling failures
Reduces Power Consumption
Laser shaft alignment process saves a vast amount of time, energy & cost compared to conventional methods of shaft alignment
5. Infrared Thermography
This method includes simple temperature measurements, as well as more advanced techniques involve passive or active thermography
Thermography camera captures heat emitted from assets
An analysis of these images can reveal areas of potential failure, such as worn parts
Excess heat or any kind of thermal anomaly is often an indication of some type of problem, such as improper lubrication, worn parts, or misalignment
It can be used to inspect electrical apparatus, high voltage switchyards, utility line distribution, roof moisture, refractory systems, mechanical systems and building structure, MCC/PCC panels, insulation inspection, pipe and steam traps and more
6. Oil Analysis
Oil analysis involves various parameters testing to understand the lube health condition, contamination monitoring, and machine wear monitoring.
Information can be gleaned about the fluid itself as well as the equipment
Tests can be run for wear particles, water contamination, viscosity, and more Contaminants in lubricants and other fluids may indicate an upcoming failure
7. Non-Destructive Testing (NDT)
It is used to collect information about a material in ways that do not alter it or without destroying it
Whereas methods are used for NDT inspection as per customer requirement or suitable according to application
We provide below NDT services
Ultrasonic Thickness Measurement and Crack (Flow) Detection
