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Designation: SNO-8.16.8 Temperature: 1200 Open.doors: electromechanical Camera size (w.G.V.):600x1200x400 Regulation zones: 1

Atomic Emission Complex "Grand Stream" is designed for rapid determination of the composition of powder samples of natural and industrial origin, includes a "Grand" spectrometer, a "Stream" installation and auxiliary equipment for sample preparation.

Purpose: Measurement of the percentage of carbon in steel Scope of application: Furnaces, buckets, cupola furnace Measuring range: from 0.01 to 2.00% carbon Accuracy: 0.01 %

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

Electric resistance furnace tubular laboratory SUOL-0,9.7/15 is designed for heat treatment of various materials and other work at a temperature of 1500oC.

Designation SSHOL-8/11 Supply voltage, 220 ± 10% Network frequency, Hz 50 Power consumption, W, max 4000

The UNM-1000 allows to detect internal, subsurface and surface defects of different types (cracks, flokens, delaminations, defects of welding seams, etc.) in parts, structural elements, units and mechanisms of industrial units, railway, auto, air vehicles, as well as petrochemical, gas and technological equipment during the manufacturing and repair stages or during routine inspections of the products being in operation. The principle of operation of the UNM-1000 AC flaw detector The magnetic powder method of detecting defects in products made of ferromagnetic materials is based on the ability of magnetic powder particles to settle in the defect zone, where inhomogeneities of the magnetic field created by the magnetizing device arise. Unlike devices based on permanent magnets, magnetic particle flaw detectors allow you to set the current and time of magnetization and automatically demagnetize controlled samples. The UNM-1000 AC flaw detectors allow monitoring of products by the applied field method using various magnetization techniques. To do this, the alternating electric current generated by the flaw detector can be passed through a magnetizing cable or directly through a controlled product connected to the flaw detector using electrical contacts. The value of the current used for magnetization and demagnetization of the product is set by the operator of the device. Design features and advantages The UNM-1000 flaw detector is a portable device, which allows you to control the quality of products made of ferromagnetic materials both in production and in laboratory conditions. The basic set of equipment for magnetic particle flaw detection includes a UNM-1000 magnetizing device, a power cable for power supply from a single-phase AC network with a voltage of 220 V, and technical documentation. At the request of the customer, electrical contacts and a magnetizing AC cable can be additionally supplied. The advantages of the UNM-1000 device of the MANUL series include: the possibility of monitoring both in the applied magnetic field with longitudinal magnetization using power cables, and with circular magnetization by passing current through the controlled product; wide range of magnetization current adjustment from 50 to 1000 A; automatic demagnetization of controlled products; high performance; the device is compact and has light weight; the degree of protection from external influences is at least IP40. Scope of application of magnetic particle control means Due to its versatility, simplicity and ease of operation, the UNM-1000 magnetic particle flaw detector can be used in almost all non-destructive testing laboratories of workshops and assembly shops of the automotive and aviation industries, railway transport, for the needs of civil and military shipbuilding. Also, the UNM-1000 magnetic powder control device can be successfully used in the energy sector, in the production of pipelines, metal structures, construction equipment and related industries. Technical characteristics of the portable magnetizing device UNM-1000 fully complies with the requirements of the following standards: GOST R 56512-2015, GOST R 53700-2009 (ISO 9934-3:2002), GOST R 50.05.06-2018, GOST R ISO 10893-5-2016, GOST ISO 17638-2018, RD 34.17.102-88, RD-13-05-2006 , as well as other national and foreign regulations documents on standardization of magnetizing devices and flaw detectors for magnetic powder control. Technical specifications • Magnetization current: up to 1000A (RMS), 4.3V,50 Hz • Demagnetization mode • Weight: no more than 20kg • Overall dimensions (W×H×D): 290×160×450 mm • The device is powered by 220V, 50 Hz

Appointment: Sampling for chemical, spectral, etc. analysis of molten metal Scope of application: Induction furnaces, steel ladles, metal finishing plants, filling ladles, etc. Sampler type: Sand shape – sample thickness 6 mm, 8 mm, 10 mm, 12 mm Operating temperature range (depending on the type of sampler): from 1150°C to 2020°C Selection time: from 3 to 5 seconds Tube Length: from 100 to 1500 mm (other lengths are available on request) Slag Cap: Steel, Cardboard, Aluminum Deoxidizer: Without deoxidizer, aluminum, zirconium, titanium

Designation SNOT-12.18.12/5,0- I2-In

Designation: SNO-3,5.5.4/6,5-0,1- I2-V-P Temperature: 650 Camera size (SHGV): 350x500x400 Door opening: manual Regulation zones: 1 Fan: Yes

Vacuum spectrometers are designed for rapid analysis of alloys based on iron, copper, aluminum and other metals in factory and research laboratories, including the determination of elements having analytical lines in the field of vacuum ultraviolet (VUV) (for example, S, P and C in steels).