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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.

The MX-10 magnetometer is an auxiliary tool for conducting magnetic powder control using permanent magnets, rectified current electromagnets by the applied field method, as well as for monitoring by the residual magnetization method according to the requirements of the current regulatory documentation. The MX-10 magnetometer meets the requirements in the field of non-destructive testing for the main industries: nuclear, energy, oil and gas complex, general and special engineering, railway transport, aerospace industry, elevator and crane facilities, etc. Magnetometer MX-10 is an electronic measuring unit with a remote measuring converter, which is based on the Hall effect. The design of the device allows measuring both the normal and tangential component of the magnetic induction vector directly on the surface of the part. The measured value of the magnetic field induction value is displayed on the digital indicator of the electronic unit. Features and Benefits The updated version of the MX-10 magnetometer has a modern element base, which has significantly improved its performance, reduced error and expanded the measurement range (see the Table of Technical characteristics). The device is capable of operating in two modes: Constant measurement mode. This is convenient when carrying out a large number of measurements over a short period of time. Automatic shutdown mode 1 minute after measurement. It allows you to save the charge of the device, which is especially important in the field. A thermal compensation circuit ensures stable measurement readings at any temperature change. Other features include: The small dimensions of the Hall measuring transducer for the MX-10 magnetometer make it possible to measure the induction of the magnetic field in grooves, grooves, angular transitions, i.e. in those areas of the controlled product that are stress concentrators and are most dangerous from the point of view of cracking; A wide range of measurements of the magnitude of the magnetic field induction; The smallest measurement error among analogues in the entire operating temperature range; Convenience of measurement by a remote measuring transducer in various planes; Low power consumption and, as a result, long working time; Low cost compared to similar models on the market; Compact dimensions; Manufacturer's warranty – 12 months; The device is included in the state register of measuring instrument RU.C.27.004.A No. 36079 dated 01.09.2009 and has undergone a verification procedure. Magnetometer MX-10 (milliteslameter) it is also included in the register of measuring instruments, test equipment and measurement methods used in JSC "Russian Railways". Scope of application 1. Verification of the magnetization modes of controlled parts using permanent magnets, rectified current electromagnets by the applied field method, as well as during the control by the residual magnetization method, by measuring the tangential and normal components of the magnetic field strength vector at one or more points on the surface of these parts. The number of points at which the magnetic field strength is measured and their location on the controlled surface depend on the shape of the part, as well as on the type and design of the magnetizing device used. 2. Control of the magnetization of parts before welding. During electric arc welding of non-magnetized parts, the effect of "magnetic blowing" is observed, i.e. the deviation of the electric arc from the axis of the electrode, the wandering of the arc end along the product, which leads to metal splashing during welding, deterioration of the seam quality. Therefore, before welding, it is necessary to measure the level and direction of magnetization of the parts and demagnetize them if necessary. 3. Verification of the residual magnetization after magnetic powder inspection. Demagnetization and verification of the residual magnetization of responsible, rubbing parts, as well as parts in contact with them after assembly, is prescribed in the requirements of the IPC and is a technological stage of control. 4. Magnetization control before assembling various structures. Magnetized parts can affect the operation of automation devices, cause errors in the readings of instruments, equipment. Magnetization can cause the accumulation of wear products in the movable joints, cause a negative effect on subsequent technological operations. Due to possible undesirable consequences, the parts are demagnetized and the quality of their demagnetization is checked. 5. Control of gas and water meters. Housing and utilities enterprises may also be interested in the device. It is known that existing gas or water flow meters can be easily "deceived" with the help of strong permanent magnets that reduce the rotation speed of the flow sensors. There are different ways to detect such theft. One of them is the control of the residual magnetization of the counters using magnetometers. The measured value should not significantly exceed the Earth's magnetic field, otherwise it can be concluded that there was unauthorized interference with the operation of the device. Main technical characteristics Measuring range, MT from 0.1 to 100 The limits of the permissible basic absolute measurement error, MT D = 0.02 VI + 0.05, where VI is the magnetometer readings in MT Power supply battery type: PP3 (nine-volt battery) Consumption current, mA, no more than 15 Duration of continuous operation (from fully charged batteries), h, at least 20 Overall dimensions, mm: – electronic unit (LxWxH) 120x60x25 – Measuring transducer (Diameter x Length) 18x173 Weight, g, not more than 160 Ambient operating temperature, °C -10...+40

The principle of operation of the electroplating thickness gauge: A converter with an induction coil on a ferrite core generates a high-frequency signal (frequency 1 MHz), which is used to create an alternating magnetic field. As the converter approaches the conductive surface, an alternating magnetic field creates eddy currents, the magnitude of which depends on the characteristics of the metal base and the thickness of the coating. In turn, eddy currents create their own electromagnetic field, which can be received by an induction coil. The resulting signal enters the amplitude detector, after which it is transmitted to the processing unit, where it is digitized and displayed on the device readout. In addition to signal conversion, the processor is used to set the required gain, as well as the initial voltage offset, depending on the characteristics of the materials in the controlled object. Features of the device design and advantages of the measurement method The TL-1MP eddy current thickness gauge consists of an electronic unit with a display, a power supply and a converter. The device is controlled using four buttons located on the front panel of the electronic unit. The converter can be disconnected from the electronic unit during transportation or for convenience of storage. The advantages of the device include: - convenience and ease of operation; - small size and light weight, allowing the TL-1MP to be used in difficult conditions with limited access to the controlled area of the facility; - high measurement accuracy; - factory setting of the measuring instrument to the customer's requirements; - high degree of localization of defects due to the small size of the converter. Scope of application: The service life of metal parts and components of mechanisms used in mechanical engineering is largely determined by their resistance to corrosion and surface wear. However, not all metals are sufficiently resistant to external destructive influences. Therefore, various electroplating coatings made of zinc, nickel, chromium, cadmium, tin, copper, silver and other metals are used to protect them. Even small fluctuations in the thickness of protective coatings can significantly affect the performance characteristics of parts, their service life, and interaction with other components. Therefore, measuring the thickness of the metal coating applied by the electrochemical method is important when conducting quality control of products. The use of the TL-1MP eddy current thickness gauge allows non-destructive quality control of electroplating coatings on the surface of metal parts in mass production conditions with special requirements for product quality. The device detects even small mechanical defects, the effects of abrasion, erosion, corrosion on the surface. Due to its ease of use, efficiency and reliability, eddy current thickness measurement is a standard method of quality control of products with electroplated coatings in such industries as mechanical engineering, aerospace industry.

The principle of operation of the device: The principle of operation of the flaw detector is based on the excitation of eddy currents in the controlled product and the subsequent release of a signal at the output of the converter, the amplitude and phase of which are determined by the secondary field of eddy currents. Design features and advantages of the VD-90NP flaw detector. The device has a small-sized case, which ensures its lightness, ergonomics and allows you to mount it on your belt or on your arm. The measurement is performed using a remote converter connected by a flexible cable. There are several types of converters for eddy current flaw detection of products made of different materials and different geometries. The large and bright display displays the selected operating modes and measurement results in text and graphic form. The VD-90NP is also characterized by: high sensitivity (it detects cracks starting from 0.1 mm in size); dust–and-moisture-proof housing, which makes it applicable for work in the field; large operating frequency range; maximum working clearance up to 10mm; Bluetooth connection; the ability to control products with high surface roughness, up to Rz320 class; light and sound indication of defect detection; wide operating temperature range from –30°C to +50°C; autonomous low-voltage power supply; long continuous operation time from one set of batteries; compliance with the standard GOST R ISO 15549-2009 (ISO 15549:2008). The use of a microprocessor-based hardware and software platform provide it with the following operational characteristics: automatic adjustment when measuring conditions change, including compensating the influence of the gap; built-in calibration modes; saving the measurement results in the internal memory of the device; a large number of stored programs: sets of parameters and measurement modes, both preset and saved by the user so as to repeatedly monitor the same type of products; The Bluetooth 2.0 wireless communication module allows the device to be used in conjunction with an external laptop or mobile device for remote control, transmission of measurement results for further storage, printing, documentation and analysis. Scope of application: The eddy current method is suitable for non-destructive testing and detection of microcracks in products and parts made of any metals and alloys of complex shape, with high surface roughness, through non-conductive coatings, as well as for checking welded joints. The flaw detector can be used to control parts and assemblies of aviation equipment. The VD-90NP eddy current flaw detector is used for quality control and preventive examination of: - components and parts of rolling stock at railway transport enterprises: wheel sets, auto coupler housings, side frames, spring beams, labyrinth rings, pulleys; - pipes, profiles, rods at rolling mills at the output control, and at the input control of consumers of products; - products made of aluminum and titanium alloys with multilayer coatings at enterprises of the aviation and aerospace industry; - cables, beams, critical components of equipment (cranes, lifts) in construction; - main pipelines in order to detect stress corrosion. A wide range of operating temperatures, dust and moisture protection (IP54 degree of protection), autonomous low-voltage power supply, a long time of continuous operation of the device allows it to be used in the field at low temperatures and under precipitation (rain, snow). Basic kit: • 1 electronic unit for the VD-90NP eddy current flaw detector; • 1 Ia5.125.052 (Type-2) eddy current converter; • 1 converter cable; • 1 charger with batteries; • 1 hand strap; • 1 Ia8.896.104 sample with artificial defects; • 1 Ia8.896.035 coating sample; • 1 storage and carrying case; • 1 documentation set.

Distinctive features: - Non-destructive testing of strength, plasticity and viscosity of parts and structures made of ferromagnetic steels and cast iron according to the following standards: GOST 30415-96, OST 14-1-184-65, TU-14-1016-74 - Non-destructive testing of the depth and hardness of surface-hardened layers on steel and cast iron parts; - Quality control of low-temperature tempering of cutting and measuring tools, bearing steels; - Control of uniaxial elastic stresses; - Control of the uniformity of the properties of massive parts. Technical specifications: The range of coercive force of the material of the controlled products, A/cm, is 1.0...60. The limit of the permissible basic absolute error of measurements of the coercive force (Ns) on standard samples at a normal ambient temperature of 20 ± 5°C does not exceed the values of 0.1+0.04 Ns (Ns stands for the measured value of the coercive force of the standard sample). This error probability is provided with a gap between the converter and the surface of the controlled product not exceeding 0.5 mm. Basic version: The structroscope is powered by a battery. Extended version: It is possible to work on 220V/50Hz grid. The time of setting the operating mode after power on, min: no more than 2 Time of one measurement, sec: no more than 6 Continuous operation time (without recharging), h: at least 16 Internal memory: up to 512 series of 512 measurements each with the possibility to view the results Operating temperature range: -20°C to +40°C; Overall dimensions, (length x width x thickness), mm: electronic unit: 190x140x80 converter: 135x75x100 Weight, kg: the electronic unit with a battery: 2.3 ± 0.05 the converter: 1.3± 0.05 Basic version kit: Ia5.173.023 Electronic unit: 1 pc. Ia5.125.061 Converter: 1 pc. Ia8.896.121 Control sample of coercive force (plate PN-1): 1 pc. Ia8.896.122 Control sample of coercive force (plate PN-2): 1 pc. Bag-case: 1 pc. Charger: 1 pc. Ia2.778.042 RE Operating Manual: 1 copy. Ia2.778.042 FO Form: 1 copy. Ia2.778.042 MP Verification instructions: 1 copy. Extended version: Additionally, it can be equipped with a Bluetooth® module for communication with a PC and software for receiving and processing data. It can also be equipped with a small-sized converter.

The MF-23IM flaw detection magnetometer allows you to determine the compliance of the ratio of the tangential and normal components of the magnetic field strength during magnetic particle testing using both the applied field method (AFM) and the remanent magnetization method (RMM) in accordance with the requirements of current regulatory documentation. The MF-23IM flaw detection magnetometer meets the requirements in the field of non-destructive testing for the main industries: nuclear, energy, oil and gas complex, general and special engineering, railway transport, aerospace industry, elevator and crane facilities.

The flaw detection magnetometer is included in the State Register of Measuring Instruments (GRSI) under No. 20106-00. The magnetometer (milliteslameter) is also included in the register of measuring instruments, testing equipment and measurement methods used at JSC Russian Railways. The flaw detection magnetometer MF-23IM from the manufacturer is used to measure the parameters of constant, variable (industrial frequency) and pulsed magnetic fields when testing ferromagnetic products using the magnetic particle method, as well as to control the level of industrial interference. Specifications.
Magnetic field induction (strength) measurement range: - constant and variable (amplitude and average values) 0.5…1000 mT (4…8000 A/cm) - pulsed (amplitude value) 2…1000 mT (18…8000 A/cm) Indication of measurement results digital or digital + graphic Indicator liquid crystal display Power supply from 1 PP3 battery Current consumption, mA, no more than 15 Memory capacity for storing results 4080 Communication with a computer via infrared channel Dimensions of the electronic unit, mm, no more than 120x60x25 Weight of the electronic unit with battery, g 150

The minimum dimensions of the Hall transducer for the MF-23IM magnetometer make it possible to measure the induction and magnetic field strength in grooves, grooves, corner transitions, i.e. in those areas of the controlled product that are stress concentrators and the most dangerous from the point of view of crack formation; · Measurement of pulsed magnetizing field with pulse duration from 0.5 ms; · Small measurement error (see technical specifications table) · Compact size and low power consumption;

· The magnetometer has 2 modes for displaying measurement results – digital and graphic). The MF-23IM magnetometer in graphical display mode allows you to detect a demagnetizing pulse by displaying its shape and amplitude on a graphic display, as a result of which changes can be made to the magnetization circuit in a timely manner. · The software of the MF-23IM magnetometer allows you to flexibly configure not only the response thresholds, but also the time base, which allows you to tune out false indications caused by reverse emissions of the magnetic field or electromagnetic interference from operating power equipment (magnetizing devices or magnetic particle flaw detectors).

· Determination of the effective magnetization region, within which the tangential component of the magnetic field strength is sufficient for magnetic particle testing, and the ratio of the normal and tangential components of the magnetic field strength is less than or equal to 3. · Checking the mode of magnetization/demagnetization of test objects for compliance with the methodology/technological instructions for magnetic particle testing for a given object.

BASIC SET: Electronic unit Converter 1 Converter 2 Caliber PP3 battery CD with program Case Flaw detection magnetometer MF-23IM. Passport

Technical characteristics: NIP, G1020 Discreteness, g0,001 Self-calibration The size of the scale bowl / platform, mm108x105 The smallest weighing limit, g0,1 The price of the verification scale division, mg10 The limits of permissible error during initial verification, mgot 0.1g to 500 g incl. ±5; sv. 500g to 1020g incl. ±10 according to GOST OIML R 76-1-2011 Accuracy class according to GOST OIML R 76-1-2011I special The actual typical error limits of the scales, mg * ± 4 in the entire range The weight adjustment is built-in The setting time, s, no more than ~ 1.5 7 years warranty

METOLAB 501 is a stationary hardness tester using the Micro-Vickers method, on the HV scale, as well as on the Knoop – HK scale. The device allows you to determine the hardness of various products (steel, cast iron, non-ferrous metals and soft alloys) in full compliance with GOST R ISO 6507-1-2007. The METOLAB 501 hardness tester has high accuracy, a wide measurement range (5-2500 HV), is equipped with a vernier micrometer, and also allows you to apply a wide range of loads in the range from 10 to 1000 gr. The principle of operation of the METOLAB 501 hardness tester is based on the indentation of a pyramidal diamond indenter with a certain force into the controlled surface of the sample. After the designated time, the indenter rises. The hardness value is calculated according to the diagonal of the print (depth), or calculated by the formula. Stationary automatic METOLAB 501 hardness tester is included in the State Register of Measuring Instruments of the Russian Federation (GRSI) under the number 66668-17 and comes with a certificate of primary verification (on request). Distinctive features of the stationary METOLAB 501 Micro-Vickers hardness tester: Simple and intuitive interface in Russian; Wide range of measured values – from 5 to 2500 HV; Wide range of test loads with manual switching – 0.09807 N (10 g), 0.2452 N (25 g), 0.4903 N (50 g), 0.9807 N (100 g), 1.961 N (200 g), 2.942 N (300 g), 4.904 N (500 g), 9.80 N (1 kg); Bright and clear LCD display that displays all the necessary information (set load, exposure time, test mode); Manual input of the diagonal length using a membrane keyboard; Vernier micrometer. Basic delivery package: Stationary METOLAB 501 Micro-Vickers Hardness Tester; Standard hardness sample – 2 pcs.; Flat desktop; V-shaped desktop; Micrometer; Diamond indenter with an angle of 136°; User Manual.

METOLAB 601-01 is a stationary hardness tester, a modification of the METOLAB 601 device with an expanded configuration and improved technical characteristics. The METOLAB 601-01 hardness tester is designed for high-precision measurements of the specified parameters of various parts and materials (hardened and non-hardened steels, cast iron, non-ferrous metals, soft alloys, etc.). The METOLAB 601-01 device has high accuracy, allows measurements in a wide range and provides high repeatability of results. The main difference from the younger model is the presence in the basic configuration of a digital camera and a disk with software for processing received data on a personal computer. Also, the METOLAB 601-01 device allows you to automatically calculate the hardness value. Due to its characteristics, the stationary Brinell hardness tester METOLAB 601-01 can be used in a wide variety of industries and production, as well as in educational institutions of various levels in the training of specialists. The stationary Brinell METOLAB 601-01 hardness tester is included in the State Register of Measuring Instruments of Russia and comes with a certificate of primary verification (on request). The number in the GRSI is 65684-16. Distinctive features of the stationary METOLAB 601-01 Brinell hardness tester: Software on disk; Digital camera for recording actions by the operator; Automatic or manual capture and fingerprint tracking; Automatic calculation of hardness values; Simple and intuitive interface of the device; Wide range of measured values on the Brinell scale (from 8 to 650 HBW); The presence of an electronic switch of the applied load; Large and bright LCD display; Displaying all necessary service information on the device screen, including exposure time and real load readings; Russian version of the device menu; High accuracy and repeatability of measurement results. Basic package of delivery: Stationary METOLAB 601-01 Brinell hardness tester; Microscope, 20x; Digital camera; Software on CD-ROM; USB key; Indenter with carbide ball (Ø10,0mm; Ø5,0mm; Ø2,5mm) - 1 pc.; Large flat table; Small flat table; V-shaped table; Brinell hardness measures - 1 set; User Manual.

The flaw detector allows continuous monitoring of polymer, epoxy and enamel coatings of pipelines with a diameter from 219 to 1420 mm and selective control of polymer, epoxy, enamel and bitumen coatings of pipelines of any diameter. The flaw detector provides detection of local through defects of insulation coatings of pipelines with a dry surface. The flaw detector allows for continuous monitoring The flaw detector uses an electric spark control method. The flaw detector is designed to work at: - ambient temperature, °C: from minus 30 to plus 50; - relative humidity at a temperature of +25°C, %: 98; - atmospheric pressure, kPa: from 84.0 to 106.7. Technical specifications. Test voltage, kV: up to 40 Minimum diameter of detected defects, mm: 0.6±0.2 Operating temperature range, °C: -30...+50 Power supply -from the built-in 12V battery -from an external DC power supply current with a voltage of 12 V Continuous operation time, h: 8 Operating mode setting time, min: 1 Overall dimensions, mm, no more: - control and monitoring unit 200 x 158 x 91 - high voltage transformer 410x f90 Weight, kg, no more,: - control and monitoring unit 2.5 - high voltage transformer 1.5 Defect alarm light and sound The kit includes: Bag Suitcase Battery charger Earthing device Electronic Magnet Unit Probes for continuous monitoring- 5 pcs 0 – 400 mm; 1 – 650 mm; 2 – 735 mm; 3 – 840 mm; 4 – 980 mm. Probes for local control - 3 pcs VT-1 High voltage transformer Pin Probe extension Holder Bushing Nipple - 4pcs set of documentation (passport, manual, calibration)

Overall dimensions: 550x230x350 mm Weight (without computer): ~17 kg Power consumption: up to 200 watts Warranty service : 1 year   Detector Two-beam spectrophotometer Spectral range – 190-360 nm Simultaneous detection at 1-8 wavelengths Cell volume – 1.2 µl Noise <0.0001 E.O.P. at 250 nm Drift <0.00005 E.O.P./hour at 250 nm Column Ø2x75 mm stainless steel The efficiency of the column is up to 6000 theoretical plates Thermostat Solid-state electric Set temperature from 35 to 90°C The discreteness of the temperature setting is 1 °C Temperature control error ±0.3°C      Pump Two-pronged, gradient The feed rate is from 5 to 1000 µl/min, the maximum pressure is 70 atm . The gradient is formed from 1 to 20 linear sections Automatic doser Automatic, programmable Number of test tubes – 46 The number of analyses in the series is from 1 to 200 The dosed volume is from 1 to 99 µl Test tubes made of glass with a volume of 200 µl Polyethylene tube stoppers Software OS: Windows® XP/7/10 Milichrome A-02™, Multichrome™, Alphachrome, Alphaspectrum