List of publications in 2025, in which our clients describe examples of the use of our company's products:
Yu. G. Matvienko, I. E. Vasil'ev, V. Yu. Fursov (Mechanical Engineering Research Institute of the Russian Academy of Science, Moscow). Application of Acoustic Emission and Vibration Diagnostics Methods in Compression Testing of Composite Specimens. Russian Journal of Nondestructive Testing. 2025. Vol. 61, No. 5. P. 517-527. https://link.springer.com/article/10.1134/S1061830925700093 DOI: 10.1134/S1061830925700093. eLibrary ID: 82849809
Abstract
The methodology of joint application of acoustic emission diagnostics (AED), vibration-based diagnostics (VBD), and videotaping for monitoring the load-bearing capacity of polymer composite material (PCM) specimens during compression tests is considered. Test specimens cut from a composite panel were divided into five groups of two specimens each. Before the compression test, the specimens of the second group were subjected to an impact with an energy of 50 J, the third group, with 70 J, the fourth group, with 90 J, and the fifth group, with 110 J. Assessment of the state of damage of the specimens during compression was carried out using AED, VBD, and video recording. The obtained results confirmed the high efficiency of the complex application of these methods. Their joint application allowed us not only to monitor the level of bearing capacity of the specimens in the loading mode, but also to trace the sequence of mechanisms of evolution of multilayer carbon fiber-reinforced plastic fracture in compression at the stage of ultimate deformation of the material
Siasko V.A., Rybin O.A., Ladygina S.M., Ladygin A.V., Ivkin A.E., Solomenchuk P.V., Stupin S.S., Nevedomskii S.V. IoT objects technical condition monitoring system and system control method. Russian patent №2845815 (2025). eLibrary ID: 82914430
Abstract
Field: monitoring. Substance: group of inventions relates to systems and methods for monitoring the technical condition of above-ground and underground extended structures. System for monitoring the technical condition of IoT objects comprises: IoT object with a control and measuring instrument (CMI) for measuring environmental parameters, network adapter, cloud server with databases, switching units, CMI computing devices, internal memory units, interface devices, universal time system (UTS) devices, power supply devices, input/output devices, digital bus, network adapters, CMI nomenclature storage device, IoT objects technical states data storage device, IoT objects technical conditions indicators storage device, IoT objects passport data storage device, storage device of mathematical models of IoT objects, application server, monitoring panel, IoT objects technical parameters editing device, devices of editing of CMI nomenclature, states of IoT objects, IoT objects passport data, mathematical models of IoT objects. Effect: high accuracy and reliability of monitoring the technical state of IoT objects
Fiklistov A.G. Method for determining location of through defects of protective bottom on vertical tanks with double bottom. Russian patent №2845927 (2025). eLibrary ID: 82914542