State-of-the-art remote monitoring equipment.
Engineers and technicians with a high level of training and experience.
Reliable monitoring through our equipment and software.
We are a consulting and engineering services company with the objective of monitoring structural health in the most diverse branches of industry, monitoring of damage to conveyor belts, extensometry, monitoring of structural health and development of IoT applications.
We are located in a modern non-destructive testing technology center (CT-END) in the municipality of Serra/ES. We have state-of-the-art testing equipment and a team of technicians and equipment engineers, with a high level of training and experience. Working on the development of embedded technology with sensors with wireless network connections capable of gathering and transmitting data for monitoring.
Our main objective is the development of new technologies, application of new technologies in inspection, such as the use of IoT (The Internet of Things).
Use of Laser Sensors (Laser scanners are intended for non-contact measurement and verification of surface profile, dimensions, classification and detection of technological objects, construction of 3D models.) for real-time monitoring on conveyor belts.
Real-time remote monitoring of Conveyor Belt, thickness, tear, misalignment through laser scanning.
Extensometers (or strain gauges) measure the surface deformation of materials and can determine the stresses and loads acting on machines and components.
We have Wi-Fi (wireless) strain gauge measurement technology.
Equipment and instruments for monitoring sensors based on accelerometers, inclinometers, temperature, humidity, torque on axes with wireless IoT data acquisition (DAQ) device.
ODS analysis consists of visualizing the movement of a structure/machine, through vibration measurement, where it is possible to draw detailed conclusions, providing accurate diagnosis for problem solving.
The sensor used for torque measurement is the strain gauge which measures the surface deformation of the material when subjected to external loads.
We have technology for measuring torque on Wi-Fi (wireless) axes.