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2278 products
Submersible smart probe L=150 mm SZPG.150M (d=2 mm)
Submersible smart probe L=150 mm SZPG.150M (d=2 mm)
from 11 454 ₽
The submersible smart probe L=150 mm SZPG.150M (d=2 mm) is designed to measure the temperature of various materials by direct contact of the probe with the measuring object and transmitting the measured value via Bluetooth to devices with the installed ThermoMonitor, Android program. Operating conditions of the SZPG.150M smart probe Ambient temperature, °C: -20...+55. Relative humidity, %: not more than 80 at T=35 °C. Atmospheric pressure, kPa: 86...106. Functionality of the SZPG.150M smart probe 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, Android program installed. Transmitting information about the state of charge of the built-in battery via Bluetooth to a device with the ThermoMonitor, Android program installed. Automatic transition to sleep mode after 50 seconds. The ability to connect external power. Possibility of calibration.
Produced in: Kolomna, Moscow region
Installation radiometric UDGP-01
Installation radiometric UDGP-01
The installation provides determination of volumetric activities of gamma-emitting radionuclides in various technological media (for example, liquids, pulps and vapors in pipes) and transmission of spectrometric information over a local network. Purpose: measurement of the volumetric activity of gamma-emitting radionuclides in technological environments; identification of leaky steam generators and monitoring of the volumetric activity of gamma-emitting radionuclides in the acute steam of the second circuit of nuclear power plants (VVR-440, 1000) according to the control method developed by VNIIAES.
Doza
Zelenograd
Produced in: Moscow
Portable Electrical Laboratory for Cable Damage Detection by Acoustic and Induction method Athlete KAI-1.501
Portable Electrical Laboratory for Cable Damage Detection by Acoustic and Induction method Athlete KAI-1.501
Appointment Athlete KAI-1.501 • Search for a live cable. • Detection of the passage of hidden communications (metal pipelines, cable lines). • Preliminary detection of the distance to the place of damage. • Search for places of cable damage in an acoustic way. • Search for places of cable damage by electromagnetic means. • The presence of a "Friend-Foe" mode.
Produced in: Kolomna, Moscow region
DC power supply B5-79/1
DC power supply B5-79/1
The source is capable of operating both independently and as part of automated measuring systems with interfaces such as RS-232 and ETHERNET Technical specifications Output voltage setting range from 0 to 60 V Output current setting range from 0.2 to 10 A Electrical output power, not less than 300 W The main error of the output voltage setting is ± 100 mV The main error of the output current setting is ± 100 mA Additional error in setting the output voltage caused by a deviation of the mains voltage from the nominal value by ± 10% ± (0.0001 · Uust + 1 mV) Additional error in setting the output voltage caused by a change in the load current from 0.9 of the maximum value to zero ± (0.0002 · Uust + 5 mV) Additional error in setting the output current caused by a deviation of the mains voltage from the nominal value by ± 10% ± (0.0002 · Iust + 2 mA) Additional error in setting the output current caused by a change in the load voltage from 0.9 of the maximum value to zero ± (0.0005 · Iust + 5 mA) Instability of the output voltage for any 10 minutes during 8 hours of continuous operation, no more than ± 50 mV Instability of the output current for any 10 minutes during 8 hours of continuous operation, no more than ± 50 mA Operating temperature range from 10 to 50 °C AC power supply 220 V, 50 Hz Power consumption, no more than 500 VA Overall dimensions, mm 240x128x313 Weight, not more than 6.0 kg
Produced in: Moscow
MAESTRO-αMS gas chromatograph by Interlab
MAESTRO-αMS gas chromatograph by Interlab
We offer expert laboratories of physicochemical methods of analysis a gas chromatograph with a quadrupole mass spectrometric detector «MAESTRO-αMS». Quadrupole GC-MS «MAESTRO-αMS» is in demand for targeted research (screening) and non-targeted search. In targeted studies, it is necessary to detect given target compounds in samples of various nature and origin at the level of residual amounts, for example, several picograms of the target compound in the injected 1 μl of liquid sample. Most often, targeted research is carried out in the following areas of laboratory screening: ecology, food safety, clinical monitoring, narcology, doping control, production control of various raw materials. In targeted studies, it is often required not only to confirm the presence of a compound in a sample, but also to determine the level of its content quantitatively, since both the list of target compounds and the permissible level of their presence in the sample are specified by regulatory documents. Quantitative analysis requires standards for the substances you are looking for. When conducting a non-target search, as a rule, it is required to analyze a sample of unknown composition, in other words, to find as many compounds as possible in the sample and identify (identify) each of them. Since the identification of a detected compound is carried out by comparing its experimental mass spectrum with the spectrum of a pure substance obtained under standard conditions, this task requires reference libraries of mass spectra of pure substances, as well as tools for working with mass spectra, for example: algorithms for cleaning experimental mass spectra from background and spectral noise (mass spectrum deconvolution algorithms), library search and comparison algorithms. An off-target search is called a qualitative analysis, since the researcher is primarily interested in the list of detected substances, and not in the quantitative assessment of their content in the sample. When creating MAESTRO-αMS, we took into account our own many years of experience in operating imported analogues. We have made the device inexpensive. We have made the device compact: The modern design of the device made it possible to make the MAESTRO-αMS really compact, so that the device occupies the smallest possible area on the laboratory table. The layout of the device allows you to remove the ion source on the front flange for cleaning and replacing the cathodes, if necessary. We have reduced the cost of operation: When developing the MAESTRO-αMS, we sought to increase the resistance of the device to sample matrices and use a minimum of consumable materials in order to eliminate downtime for maintenance and replacement. As a result, we have created an extremely stable ion source and a perpetual photomultiplier detector. We have created special software: Even at the first acquaintance with the software, it becomes obvious that being in the window of each button and each parameter to be changed is expedient and logical. Our software product was created for the convenience of the operator, so we implemented the necessary and eliminated the unnecessary. We used the principle of one active window, in which the operator moves sequentially step by step, performing hardware settings, setting the data collection method, subsequent processing algorithms, templates for presenting the results. MAESTRO-αMS offers a wide range of scanning modes, built-in algorithms for working with mass spectral data, convenient unloading of initial data arrays for their processing in specialized software packages, graphics export for presentations and scientific publications. You can use several libraries of mass spectra at the same time, or create your own for your typical tasks. Finally, we provide a 5-day training course for professionals who want to understand the theoretical foundations of the method and their implementation in the hardware of modern quadrupole GC/MS. The volume and depth of presentation of the material from the developers of the device is intended to lay the foundation for the effective use of «MAESTRO-αMS» in the future. Some technical characteristics of MAESTRO-αMS: • Instrumental detection limit (SIM, OFN @272 m/z ) < 10 fg; • Scan modes: scan for selected ions, full scan in a given mass range, combined scan mode; • The number of simultaneously connected libraries of mass spectra is at least 10.
Produced in: Moscow
Electronic explosion-proof thermometer ExT-01/2-15
Electronic explosion-proof thermometer ExT-01/2-15
The thermometer sensor ExT-01/2-15 is made in the form of a fully submersible probe with a cable length of 15 meters. The thermometer has an explosion protection marking 0Ex ia IIB T4 Ga X and can be used in explosive zones 0, 1 and 2 of any classes of premises and outdoor installations in which the formation of explosive mixtures of categories IIA, IIB is possible. • Measurement range -50...+130 °C Minimum sensor immersion depth full immersion Overall dimensions of the electronic unit 135x65x40 mm Electronic unit weight 0.3 kg
Produced in: Tomsk
Rubidium reference generator RRS-002
Rubidium reference generator RRS-002
The device is made in a 19-inch rack design with a 4U stand. The rubidium reference generator RRS-002 provides up to 15 independent signal outputs with a frequency of 10 MHz (5 MHz). The device is designed for long-term uninterrupted operation both in round-the-clock continuous and in session mode. The high reliability of the generator is ensured by reserving the main generator blocks and, in case of malfunction of the active signal source, automatically switching to a backup one.
Ruknar
Nizhny Novgorod
Produced in: Nizhny Novgorod
Metolab 601 Brinell Hardness Tester
Metolab 601 Brinell Hardness Tester
METOLAB 601 is a stationary hardness tester – a hardness tester - 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 device has high accuracy, allows measurements in a wide range and provides high repeatability of results. It is the basic model of the METOLAB 601-01 hardness tester. Due to its characteristics, the stationary METOLAB 601 Brinell hardness tester 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 METOLAB 601 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 601 Brinell hardness tester: Simple and intuitive control 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 on the device screen all the necessary service information, including exposure time and real load readings; The device menu is in Russian (English can be set on request); High accuracy and repeatability of measurement results. Basic package of delivery: Stationary METOLAB 601 Brinell hardness tester; Microscope, 20x; 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.
Metolab
Moscow
Produced in: Moscow