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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

The UShS TapiRus is designed to replace numerous templates and devices used in visual and measuring quality control of welded joints. It is approved as a means of measuring the geometric parameters of welded joints and surface defects during visual and measuring control (VIC) and supplied with verification. It allows you to determine most of the geometric parameters of welded joints and surface defects: the width and convexity of the seam, the depth of the cut, the amount of edge displacement, the angle of the angular seam, the angle of the bevel and the gap, etc. Equipped with supports that allow you to uniquely position the template on a curved surface. To carry out measurements with an error of 0.1 mm, scales with a vernier are applied to the TapiRUS surface. It contains a number of gauges for assessing the smooth transition from the deposited to the base metal, the size of the cathets, radii and angles of cutting edges. Equipped with a probe with a replaceable measuring needle to determine the size of gaps and heights / depressions. The development, preparation for production and manufacture of TapiRus were carried out exclusively in digital format. The latest laser and additive technologies are used in the production of TapiRUS: high-precision laser cutting machines in inert gas; five-axis CNC machining centers; ultra-precise color laser engraving of the entire product assembled; laser stereolithography (SLA) is a technology of layer–by-layer synthesis of a material from a liquid photopolymer. Advantages Easy to install. Accurate positioning along the normal to the surface of the object of control and stability of the position when performing measurements. Functionality. Measurement of most geometric parameters of welded joints and surface defects. Measurement accuracy. The measurement error on the template scales does not exceed 0.1 mm. Modernity. Online calculator ergonomic accessories smart version. More detailed information can be found on the website tapirus.info MEASURED PARAMETERS AND DEFECTS VIC at the stage of input control wall thickness depth of corrosion ulcers on the base metal the depth of corrosion ulcers on the weld the depth of scratches (risks), a bully on the base metal edge bevel angle the amount of blunting geometric parameters of the dent VIC during assembly (preparation for assembly) edge offset withdrawal (angularity) of edges the gap in the cutting the height of the potholders angular displacement VIC in the welding process (surfacing) edge offset height of the root (filling) layer withdrawal (angularity) of edges angular displacement VIC of finished welded joints (structures) edge offset angular displacement the height of the reinforcement of the seam the height of the bulge (when welding elements of different thickness) the width of the reinforcement of the seam withdrawal (angularity) of edges the depth of the sinking between the rollers incomplete filling of the cutting edges scaliness of the seam surface smooth transition undercut depth seam crater depth technical specifications Measured parameter Scale Range,mm Error, mm Depth, mm H 0...20 ±0.1 (in the range 0...10 on), ± 0.5 (in the range over 10...20) Height, mm H 0...6 ±0.1 Width, mm W 0...55 ±0.1 (in the range 0...10 on), ± 0.5 (in the range over 10...20) Clearance, mm N 0...5 ±0.1 Dullness, mm F, G 0...25 ±0.5 Specifications Overall dimensions, mm, no more (without supports) 115x85x15 ± 0.5 (with supports) 115x85x42 ±0.5 Average time to failure, cycles, at least 55,000 Weight, kg, not more than 0.22 Average service life, at least 1 year

The principle of operation of the magnetization device: The device consists of two compact blocks made of non-magnetic material connected by a flexible magnetic circuit. In each block there is a permanent magnet made of neodymium-iron-boron alloy (Ne-Fe-B). When installing the blocks on the surface of the part, a closed magnetic circuit is formed with the direction of the magnetizing field from one pole to the other. Above the defect scattering fields, magnetic powder particles are deposited to form an indicator pattern. Design features and advantages of the device for magnetic particle control UN-5 The delivery package with the device includes a portable case, an inter-pole jumper installed during transportation, and a liner for fixing blocks with permanent magnets. The UN-5 portable device does not require electrical power and therefore can be used where the supply of stationary power is difficult or impossible under regulatory documents: in the field, when working at height, for inspection of capacitive equipment operating under pressure, etc. - The device is easy to use, lightweight and small-sized, working with it does not require special physical and technical training from the operator; - Flexible magnetic core allows you to use the device to control parts of complex shape; - The UN-5 magnetizing device is distinguished by an increased quality of the indicator pattern and an increased control zone due to a reduced uncontrolled zone near the poles and an improved ratio of the normal and tangential components of the magnetic field (Russian patent No. 60732); - The technical characteristics of the device comply with Russian and foreign regulatory documents, this being the reason of its widespread use in more than 40 countries, including Germany, France, Brazil and Norway. When monitoring, the controlled area is the central part of the area located between the magnetic poles of the device. The width of the monitored area is determined by the width of the magnetic poles of the device and is approximately 60 mm. The length of the monitored section depends on the inter-pole distance. the dimensions of the controlled area are given depending on the device's inter-pole distance: Inter-pole distance, mm 95: 75 55 Controlled area between the working poles, mm: 60x60 40x60 25x55 The length of the defect detection zone depends on the distance established between the working poles of the magnet on the controlled product. Defects are not detected in the areas adjacent to the poles of the magnet. The length of these sections is 18 mm with an interpolar distance of 95 and 75 mm. With an interpolar distance of 55 mm these sections are 13 mm long. Scope of application: Magnetizing devices for magnetic powder flaw detection are used in many industries, including railway, water and aviation transport, in the construction and operation of pipelines, in chemical and petrochemical production. The flexible link between the magnetic blocks allows the control of products of complex shape, for example, cylindrical tanks, high-pressure apparatuses, main pipelines, etc. When checking for defects, the device can be used together with other auxiliary equipment for: - preliminary and subsequent demagnetization; - application of a magnetic indicator (which can be dry or in the form of an emulsion); - magnetoluminescent control (with ultraviolet lamps).

The CMS8400 NEO is a compact electron paramagnetic resonance spectrometer designed for routine research in physics, chemistry, biology and related scientific fields for direct detection of free radicals and paramagnetic materials. The CMS8400 NEO can be used in both laboratory and industrial settings in the mode of on-line measurements, embedded in technological processes, thus providing control of parameters and reactions in the production process. Additional accessories and adapted software can make the spectrometer an analytical tool and allow to implement new complex applications in medicine, petrochemistry, brewing, sanitary and hygienic control, as well as in other industries.

A feature of the POWDIX 600 X-ray diffractometer scheme is the vertical Bragg-Brentano optical scheme with a fixed horizontal sample position, which makes working with powdery materials, gels and other viscous substances more practical and convenient. The high detector resolution and precise positioning of the POWDIX 600 X-ray goniometer achieve an accuracy better than +/- 0.02° (2θ) over the entire angular range. In the POWDIX 600 diffractometer, the X-ray tube is cooled by an integrated closed water circuit, which can be serviced by any laboratory employee. A wide variety of sample holders (holder for massive samples, holder with rotation, phoneless cuvettes) expands the functionality of the POWDIX 600 and makes it an invaluable tool for scientific research in solid-state physics, materials science, chemistry, geology and other fields of science The diffractometer is included in the Russian State Register of Measuring Instruments.

Distinctive features: The built-in thermometer allows you to take into account the influence of ambient temperature and improve the measurement accuracy. The built-in memory stores 4096 electrical conductivity measurement results for subsequent transfer to a PC. Specifications: Measuring range of the absolute value of specific electrical conductivity, MSm/m from 5 to 60
Measuring range of increments of electrical conductivity, MS/m from -9.99 to +9.99 Limit of permissible basic relative measurement error, % no more than 2 Permissible gap between the transducer and the surface of the controlled product, mm, no more than 0.25 Digital display of measurement results Power supply from RRZ type battery, V 9 Power consumption, mW, no more than 40 Operating temperature range, °C 5...40 Dimensions, mm 57*84*30 Weight, g 270±20

Measuring functions Measurement of absorption, transmission, and reflection spectra Measurement of optical density, transmission coefficient and reflection coefficient at fixed wavelengths Determination of concentration at one, two, three wavelengths by factor, standard, schedule Multi-wave kinetic measurements Determination of concentration by programmed methods Calculation of color and chromaticity coordinates UVI spectrophotometers "SOLAR" operate in the ultraviolet, visible and near infrared regions of the spectrum. They are used in scientific laboratories, healthcare institutions, veterinary medicine, pharmaceuticals, ecology, biology, etc., in laboratories for quality control of products and raw materials in various sectors of the economy (industrial enterprises, agriculture, food industry, etc.) Removable cuvette holders and set-top boxes Accurate measurements Cost-effectiveness Touch screen Built-in printer Software support