Metrology

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.

METOLAB 604 is a stationary hardness tester, a modification of the METOLAB 603 device without a personal computer, as well as with simplified technical characteristics. The METOLAB 604 hardness tester allows you to measure the hardness of various materials and products using the Brinell method, the HBW scale in full compliance with the current technical requirements in this area. The device is equipped with an automatic loading system and comes complete with a digital measuring microscope MPBC, designed for automatic reading of hardness values without using conversion tables. Due to its characteristics, the stationary METOLAB 604 hardness tester can be used to measure materials such as: steel, cast iron, non-ferrous metals, soft alloys, etc. The stationary METOLAB 604 Brinell hardness tester is included in the State Register of Measuring Instruments of Russia (GRSI) and comes with a certificate of primary verification (on request). The number in the GRSI is 65684-16. Distinctive features of the stationary METOLAB 604 Brinell hardness tester: Simple and intuitive interface, fully Russian-language device menu; A wide range of measured values – from 8 to 650 on the HBW scale; High accuracy and repeatability of results; The METOLAB 604 hardness tester is equipped with an electronic load value switch; The basic package includes a digital measuring microscope MPBC; The device is equipped with a bright and clear LCD display, which displays all the necessary service information; Printing of measurement results on the built-in printer; Automatic loading system. Basic package of delivery: Stationary METOLAB 604 hardness tester; Micrometer; Indenter with carbide ball (10; 5; 2.5 mm) - 1 pc.; Large flat table; Small flat table; V-shaped table; Brinell hardness measures - 1 set; User Manual.

Ecofizika-500 is a multifunctional modern platform for building complex measuring systems. The developed software makes it possible to fully use the powerful hardware potential of the system in tasks requiring the use of complex computational algorithms. Ecofizika-500 is not just another multi-channel frontend designed to transfer unprocessed data to a computer; it is an independent measuring device capable of calculating a huge number of quantities in real time, storing them in its own memory and (or) issuing them to a telemetry channel. The device can be used, including in offline mode, as a data logger, which is very important when testing complex equipment that limits the presence of the operator. Ecofizika-500 has an approved type of measuring instrument and methodological support for measuring acoustic and vibrational quantities.

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.

Designed to measure the temperature of various materials by direct contact of the probe with the measuring object. The smart probe for connecting an external thermoelectric converter is designed to measure the temperature of various materials by directly contacting the probe with the measuring object and transmitting the measured value via Bluetooth to devices with the installed ThermoMonitor based on the Android program. Operating conditions of the smart probe of the SSVT Ambient temperature, °C: -20...+55. Relative humidity, %: not more than 80 at T=35 °C. Atmospheric pressure, kPa: 86...106. Functionality of the smart probe of the SSVT Measurement of physical quantities with a resolution of 0.01. Recording of measured values at intervals from 5 seconds to 23 hours 59 minutes 59 seconds (only smart probes with built-in memory). Transmitting data about measured physical quantities via Bluetooth to a device with the ThermoMonitor. The Android program is installed. Transmitting information about the state of charge of the built-in battery via Bluetooth to a device with the ThermoMonitor.The Android program is installed. Automatic transition to sleep mode after 50 seconds. The ability to connect an external power supply. Possibility of calibration.

Appointment: the continuous measurement system allows for continuous measurement of the heating temperature of the industrial bucket, to improve the stability and reliability of measuring the temperature of liquid metal. Due to the fixed measurement position, the system eliminates errors due to the human factor. This method of measuring temperature was researched and invented on the theory of an absolutely black body. The principle of the temperature measurement system is the immersion of a temperature probe into molten steel to determine the temperature. The temperature probe made of an absolutely black body is designed in a special way to receive an infrared radiation signal corresponding to the temperature of molten steel. Scope of application: Intermediate bucket Measuring range: Warming up the promkovsh: from 800°C to 1400°C; Molten steel: from 1400°C to 1600°C Accuracy: Preheating of the promkovsh 7 ° C; Molten steel: 3 ° C Response time: Hot response time 75 sec; Cold response time 4 min Measuring probe length: 964mm, 1100mm Durability of measuring probes: 12 hours, 24 hours, 48 hours Number of thermal shocks: up to 5 times

It is designed to measure sound pressure in the air and is used in noise measuring equipment as a measuring transducer of infrasound, sound and ultrasonic pressure.

The frequency meter is capable of operating both autonomously and as part of automated measuring systems with interfaces such as BUSB, RS-232, ETNET and IEEE-488 (CPC). Technical specifications Frequency and period of sinusoidal signals (inputs A, B) 0.001 Hz - 300 MHz Frequency and period of video pulse signals (inputs A, B) 0.001 Hz - 300 MHz Frequency of continuous sinusoidal oscillations (input C) (37.5 – 78.33) GHz Pulse duration 5 ns - 1000 s The duration of the front, the decay of the pulses is 5 ns - 100 microseconds Time interval from -1000 to 1000 s Frequency measurement resolution 2x10-10 s/Rng Setting range of trigger levels (inputs A, B) from -2 to 2 V The error of setting the trigger levels (inputs A, B) ± 0.01 V Input signal level: •for sinusoidal signal (inputs A, B) (0.03 - 10.0) V •for video pulse signal (inputs A, B) (0.1 - 10.0) V •for a sinusoidal signal (input C) 0.5 MW - 5 MW Input resistance •Inputs A, B (50±2.5) ohms; (1±0.1) MOm/100 pF •Input With (50±2.5) ohms Nominal frequency value of the reference quartz oscillator 10 MHz Relative error in the frequency of the quartz oscillator, no more than ± 2x10-7 in 24 months Operating temperature range from minus 10 to 40 °C AC power supply 220 V, 50 Hz Power consumption, not more than 100 VA Overall dimensions, mm 299x130,5x433 Weight, not more than 8.5 kg