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Designation SNO 17/17 Rated power Pmax, kW 10 Power supply voltage U, In 3 phases + N+PE 380 Maximum operating temperature T slave, oS 1700

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.

The analyzer is designed to determine the mass fraction of sulfur in automotive fuel in accordance with GOST R 52660-2006 / GOST ISO 20884-2016, ASTM D6334, as well as in oil and petroleum products according to GOST R 53203-2008 / GOST 33194-2014, ASTM D2622, GB/T 11140-2008. Depending on the customer's needs, the analyzer is configured to work in accordance with a particular standard. Implements an arbitration method for measuring the mass fraction of sulfur in automobile fuel of the third, fourth and fifth classes. The device is designed specifically for high-quality and fast X-ray fluorescence analysis of fuel in accordance with the technical regulations "On requirements for automotive and aviation gasoline, diesel and marine fuel, jet fuel and heating oil", which establishes an arbitration X-ray fluorescence wave dispersion method for determining the mass fraction of sulfur in automotive fuels of the third, fourth and fifth classes. The wave dispersion sulfur analyzer SPECTROSCAN SW-D3 is designed taking into account all the requirements for the process of X-ray fluorescence elemental analysis of low sulfur contents in petroleum products. The operator's actions when performing measurements are minimized: - the number/name of the sample is entered from the built-in keyboard; - the sample is poured into two cuvettes; - the obtained samples are placed in the analyzer and measurements are started. The analyzer performs all subsequent actions automatically without operator involvement: - calculates and displays the sulfur content in the sample; - calculates convergence - the difference in determining the mass fraction of sulfur in the first and second samples; - prints measurement results on the built-in printer.

Purpose: Measurement of hydrogen in molten metals Scope of application: Induction furnaces, ladle furnace units, vacuum cleaners, casting ladles of various types, intermediate ladles, crystallizers Measuring range: from 0.5 to 14 ppm H2 Accuracy: 0.5 to 3ppm - 0.1ppm H2 3.0 to 14ppm - 3% H2 Measurement time: up to 60 seconds Reproducibility of results: 0.3% Purpose: Measurement of the percentage of carbon in steel Scope of application: Furnaces, buckets, cupola furnace Measuring range: 0.01 to 2.00% carbon Accuracy: 0.01 %

Vacuum resistance furnaces are necessary for heating products before pressure treatment, for sintering, degassing, quenching, annealing, soldering and chemical-technological processes. Such furnaces among all the variety of thermal equipment are considered the most environmentally friendly – heat treatment is carried out at t up to +2500 ° C in a purified vacuum. Under certain conditions, vacuum furnaces are used to work with neutral gases. The outer part of the furnace is made of stainless steel and is cooled by liquid. The inner part of the working chamber, where the heat treatment of materials is carried out, is made of an alloy of molybdenum and tungsten. The components are characterized by a low inertia force, reduced gas separation. The settings are available on the control panel, where the instruments, automatic and manual control switches are located. At every enterprise of the electronic industry, nuclear power, an explosion-proof vacuum resistance furnace is needed. The same applies to areas where various products undergo heat treatment at the stage of production and preparation for use.

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.

Technical specifications: Maximum load (torque): 30 N·m Maximum twisting angle: 50000° The discreteness of the twisting angle: 0.01° Twisting angle error: ±0.1° Torque discreteness: 0.001 N·m Relative error of torque measurement: no more than 1% in the measurement range from 0.6 to 30 Nm Torque measurement error: no more than 0.01 N·m in the measurement range from 0 to 0.6 N · m Maximum rotation speed: 10 rpm Weight: 150 kg Overall dimensions (length x width x height): 1000 x 500 x 500 mm Diameter of the universal testing device: 80 mm Maximum spring length: 300 mm or more

Purpose: Temperature measurement and sampling of molten steel. Scope of application: Oxygen converters, electric arc furnaces, induction furnaces, casting buckets Measuring range: from 1400 to 1800 °C - metal temperature Accuracy: 0 + 3°C at 1554°C The shape of the selected metal shape: Circle: thickness 12 mm Oval: thickness 12 mm Deoxidizer: Without deoxidizer, aluminum, zirconium, titanium Measurement time: 8 sec Tube Length: from 100 to 2500 mm (other length is possible on request) Slag Cap: Steel, Aluminum, Cardboard Type of NSH: B, S, R

Designation: SNOT 15.15.12,5/12,5 Temperature: 1250 Door opening: Electromechanical Hearth drive: electromechanical Camera size (WSHG): 1250x1500x1500 Regulation zones: 1

Purpose: Temperature measurement, sampling of molten metal Scope of application: Oxygen converters Measuring range: from 1400 to 1800 °C - metal temperature from 0.010 to 0.200% - carbon content Accuracy: 0 + 3 °C at 1554 °C; (from 5 to 10) mV (depending on the oxygen activity level) The shape of the selected metal mold: Circle: diameter 34 mm, thickness 12 mm Oval: diameter 34mm, length 42mm, thickness 12 mm Deoxidizer: Without deoxidizer, aluminum, zirconium, titanium Measurement time: 8 sec Tube Length: from 100 to 2500 mm (other lengths are available on request) Slag Cap: Steel, Aluminum, Copper, cardboard Type of NSH: B, S, R

The principle of operation: The controlled extended product (pipe, rolled or wire) is passed through the working area of the flaw detector. When a defective area is detected, the flaw detector included in the automated system sends a signal to trigger the paint meter actuator, as a result of which the paint from the marker's aerosol can is applied to the surface of the controlled product through a window in the device housing. Features and benefits: - Any standard aerosol cans with a diameter of 68 mm can be used in the flaw detector; - Easy replacement of the cylinder; - The device does not require connection to the pneumatic line; - High performance; - The design of the CD-1 defect meter allows connection to any standard AC and DC electrical networks with rated voltages from 12 to 380 V. Scope of application: The CD-1 automatic paint sprayer is an auxiliary equipment and is used in conjunction with flaw detectors as part of in–line automated lines for marking defects in quality control of extended products made of various materials, ferrous and non-ferrous metals and alloys - welded, hot-rolled and cold-drawn pipes, rolled products, wire and products made of them. The flaw detector can be used both in the production process and during input control on the consumer side at machine-building, transport, chemical and oil and gas enterprises. *Custom-made versions for rated voltages can be of: 12, 24, 48, 110, 127, 220, 380V.