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183 products
Spherical vacuum furnace with bottom loading ESQVE-13.0.3.0/9.5SHM12
Spherical vacuum furnace with bottom loading ESQVE-13.0.3.0/9.5SHM12
Spherical type vacuum furnace with bottom loading ESQVE-13.0.3.0/9.5SHM12 is designed for heat treatment of titanium rings at temperatures up to 950 degrees and vacuum up to 1x10-3mm Hg.
Produced in: Tula
Centaur I microscope by NanoScanTechnologies
Centaur I microscope by NanoScanTechnologies
Designed for comprehensive studies of the physical properties of the surface using classical optical microscopy, confocal laser microscopy, confocal spectroscopy and scanning probe microscopy (atomic force microscopy). It allows you to get full spectra of Raman (Raman or Raman) scattering and/or fluorescence, confocal laser and confocal spectral images (surface mapping), SPM (AFM) images. The design of the Centaur I complex allows the use of both separate methods (for example, confocal microscopy / spectroscopy) and the combination of methods (including the combination of scanning fields, AFM / Raman studies, etc.).
Produced in: Dolgoprudny, Moscow region
SNVS Vacuum Furnace-3.3/15- I6
SNVS Vacuum Furnace-3.3/15- I6
High-temperature furnaces are capable of heating materials up to 1700 degrees. The scope of their application covers the heat treatment of various materials in an inert medium or vacuum. TULA-TERM furnaces are used for heat treatment of plastics, ceramics, metals, alloys, lacquers and other materials. The equipment allows sintering, annealing, soldering, quenching, drying, burning and molding. In industry, our installations are most often used for quenching parts and sintering hard alloys.
Produced in: Tula
Chamber electric resistance furnace CHO-8.10.8
Chamber electric resistance furnace CHO-8.10.8
from 550 000 ₽
Designation: SNO-8.10.8 Temperature: 1200 Opendoors: electromechanical Camera size (w.G.V.):800x1000x800 Regulation zones: 1
Produced in: Tula
Shaft furnace industrial SSHO-10.5.22/10
Shaft furnace industrial SSHO-10.5.22/10
Designation SSO-10.5.22/10 Temperature 1000 oC Power, kW 160 Amount of workspace 1900 l Diameter, mm 1030 Height, mm 2240
Produced in: Tula
Shaft furnace industrial SSHO-6.18/11
Shaft furnace industrial SSHO-6.18/11
Designation SSO-6.18/11 Power, kW 40 Diameter, mm 600 Height, mm 1800
Produced in: Tula
Vacuum compression furnace SNVS-8,5/16- I3
Vacuum compression furnace SNVS-8,5/16- I3
The electric furnace is designed for various thermal processes of annealing, degassing, sintering and other processes in vacuum at temperatures up to 1600 ° C and small gas emissions, in which there is no interaction of the residual gas medium with heater materials, screen insulation and other structural elements.
Produced in: Tula
MAES Analyzer for Scintillation
MAES Analyzer for Scintillation
MAES analyzers for recording atomic emission spectra with a time resolution of 1 ms are based on highly sensitive photodiodes and a special switching board for simultaneous reading of several sections of the spectra. The assembly of the rulers is installed on the "Grand" spectrometer. A " Flow" or twin-jet arc plasmatron is used to excite the atomic emission spectra of powder samples. The ATOM software registers the selected spectral lines and provides their processing according to the specified algorithms, taking into account the number and brightness of flashes (i.e. particle size). Recording the spectra of powder samples with a large time resolution makes it possible to estimate the number and size of individual particles, identify their composition and determine the concentrations of elements in each particle, promptly assess the uniformity of the distribution of certain elements to be determined and expand the possibilities of spectral analysis without significant changes in sample preparation. Main application areas: mass analysis of powder geological samples by scintillation to determine gold, silver, platinum group metals, iridium, rhodium, etc. with detection limits up to 0.01 g/t; qualitative determination of the composition of inclusions and mineral particles.
Produced in: Novosibirsk
Furnace for heating in a protective environment CHO (3)-6/11
Furnace for heating in a protective environment CHO (3)-6/11
from 1 420 750 ₽
Designation SNO(H)-6/11 Power, kW, no more than 8 Supply network voltage, V 380 Frequency, Hz 50
Produced in: Tula
Laboratory shaft furnace SSHOL-8/11
Laboratory shaft furnace SSHOL-8/11
from 197 354 ₽
Designation SSHOL-8/11 Supply voltage, 220 ± 10% Network frequency, Hz 50 Power consumption, W, max 4000
Produced in: Tula
Laboratory electric furnace CHO-34
Laboratory electric furnace CHO-34
from 276 396 ₽
Designation SNO-34 Volume, l 34 Material of the working chamber ceramics Heating 4 sides Power consumption, W, max 10000 Minimum operating temperature, 0C 100
Produced in: Tula
SNVS Vacuum Furnace-3.3/17- I2-2VO
SNVS Vacuum Furnace-3.3/17- I2-2VO
High-temperature furnaces are capable of heating materials up to 1700 degrees. The scope of their application covers the heat treatment of various materials in an inert medium or vacuum. TULA-TERM furnaces are used for heat treatment of plastics, ceramics, metals, alloys, lacquers and other materials. The equipment allows sintering, annealing, soldering, quenching, drying, burning and molding. In industry, our installations are most often used for quenching parts and sintering hard alloys.
Produced in: Tula