• Russian

  • Institute
  • Main directions of scientific research work
  • Structure
  • Contacts
  • Cooperation

  • Continuous casting
  • Freezing-up casting
  • Bimetals
  • Silumins
  • Simulation of casting processes
  • Water analog simulation of die casting
  • Electroslag casting

  • Development of diagnosis system of the metal surface damage
  • Development of prognosis system of the steel surface damage by the Light Section Profiling System (LSP system) in high-speed production process
  • Development of prognosis system of the steel bulk property claim by the magnetic detection method in continuous production process
  • Diagnosis system of quality control and process control by digital image analysis
  • Universal magnetic thickness gage
  • Development of anti-corrosive active polymer film for steel packing

  • Magnetic Impulse Hardening
  • Cladding
  • IMM (Induction Metallurgical Method) Surface Hardening
  • Thermal Spray Coating Process
  • Flame Spray
  • Detonation Flame Spraying
  • Nontransferred Plasma Arc Spraying
  • Electric Arc Spraying
  • Activated arc spray- Hypersonic metallization
  • High-Frequency Pulse Hardening of Surfaces
  • Wire Arc Coatings
  • Metallization Of Ferrites And Creation Of Fixed Compositions Ferrite-metal

  • Equipment For Surface Metallization And Blazing Of Oxide Materials
  • for continuous casting of cast iron and nonferrous metals
  • for battery grid casting
  • for continuous casting of CuCl belt
  • Plant for continuous casting of copper, aluminum, gold, silver, solder wires
  • DEVELOPMENTS OF THE INSTITUTE :: Diagnosis system of quality control and process control by digital image analysis

    Basic concept

    All kind of surface damage and outside defect by capturing image of CCD camera, usual scanner, optical laser or microscope will be interpreted by special digital image analysis method. This method consists of 3 morphological categories as color, texture, and shape image analysis of surface damage. The first step is how to detect the surface damage quickly and correctly. The second step is the way of interpretation for the objects with high performance. The third step is how to calculate and define of this damage. Final stage is how to prognosis about this data for user usefully. The image size can be analyzed from nano-size with atomic force microscope to mammoth construction with CCD camera by On-line real system. Further more this data by network can be apply by database management method with ultra high-speed diagnosis system.

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