Equipment

The tripod is made of aluminum, which allows them to be sterilized at any temperature; this material provides lightness and durability. It can be used in water baths. The tripod has an individual packaging. Designed for storing test tubes.

Technical specifications NIP, kg101 Discreteness, g5/(2)* External calibration The size of the weighing platform, mm350x320 The smallest weighing limit, g500 Accuracy class according to GOST OIML R 76-1-2011II high Limits of error allowed during initial verification, goth 500g to 50 kg incl. ±5.0; sv.50kg to 52kg incl. ±10.0 Dust and moisture protection (IP)54/65 (on request) The setting time, s, no more than ~ 1 - 1.5 Weight adjustment 40kgF2* 7 years warranty

High-temperature furnaces are capable of heating materials up to 1700 degrees. The scope of their application covers the heat treatment of various materials in an inert medium or vacuum. TULA-TERM furnaces are used for heat treatment of plastics, ceramics, metals, alloys, lacquers and other materials. The equipment allows sintering, annealing, soldering, quenching, drying, burning and molding. In industry, our installations are most often used for quenching parts and sintering hard alloys.

The electric vacuum drying cabinet SNVS-5,05.4,65.4,90/2-I2/2 KV is designed for drying and setting selected stages (up to 20 in each program) of the vacuum depth with automatic maintenance of the set value and automatic nitrogen (inert gas) supply to the chamber.

The ultimate display quality is ensured by the use of built-in acoustic and vibration isolation, thermal stabilization, the industry's best sensitivity of the optical recording system and the unique design of the scanning probe system, which allows achieving atomic resolution in routine measurements. In the basic configuration, 50+ AFM techniques are available, including the HybriD method, which allows conducting all cutting-edge nanomechanical, electrical and magnetic studies. Intelligent ScanTronic™ algorithm for one-click optimization of scanning parameters, which allows for perfect relief measurements using the amplitude-modulation method, regardless of the operator's experience. Automated examination of multiple samples using a simple user interface to create a point-by-point scanning scenario and a database for stored received images. Control of samples with dimensions up to 200×200 mm and thickness up to 40 mm at any point of the surface with a positioning accuracy of 1 micron. Wide customization possibilities: installation of additional optical equipment, development of specialized sample holders, combination with a transport system, automation of measurements and data analysis in accordance with customer requirements.

Technical specifications: Indicator name, unit of measurement, Indicator value, B5-89, B5-89/1 The range of the output voltage setting, the limits of the absolute error of the output voltage setting:- basic error, In; - in operating conditions, In, from 0 to 30.0 ± 0.2± 0.3, from 0 to 100.0 ± 0.3± 0.45 The range of the output current setting, the limits of the absolute error of the output current setting:- basic error, A; - in operating conditions, A, from 0 to 10.0 ± 0.2± 0.3, from 0 to 3.0 ± 0.1± 0.15 Instability of the output voltage when the supply voltage changes by ± 10% of the nominal value in the voltage stabilization mode, %, ± 0.05, no more, Instability of the output current when the supply voltage changes by ± 10% of the nominal value in the current stabilization mode, %, ± 0.2, no more, Instability of the output voltage when the load current changes at the output terminals of power supplies in voltage stabilization mode, %, ± 1, no more, Instability of the output current when the load voltage changes in the current stabilization mode at minimum load currents, %, ± 5, no more, Instability of the output current when the load voltage changes in the current stabilization mode at maximum load currents, %, ± 0.5, no more, Output voltage ripple in voltage stabilization mode, mV, 1.0, no more, Output current ripple in current stabilization mode, %, 1, no more, Instability of the output voltage from time, V, ± 0.5, ± 1.0 Instability of the output current from time, A, ± 0.3, ± 0.2 AC power supply: - voltage, V; - frequency, Hz, 230 ± 2350 ± 0.5, Weight, kg, 13.0, no more, Overall dimensions, mm, 384x301x169

For primary and periodic verification and calibration at the field of operation of the following measuring instruments that are part of automated information and measurement systems for commercial accounting of electrical energy (AIIS KUE) or non-automated metering units: • – Measuring voltage transformers (TN) of accuracy classes 0.2 and less accurate at loads normalized by GOST, and at real loads at the metering unit. • – Measuring current transformers (TT) of accuracy classes 0.2S and less accurate with nominal primary currents of 100...5000 A (including high-voltage transformers for 330 kV lines) at loads standardized by GOST 7746-2001 and at real loads; single-phase and three-phase electric active and reactive energy meters of accuracy classes 0.2S and less accurate. • – Auxiliary SI: ammeters, voltmeters, wattmeters, voltage, current and power converters, accuracy classes 0.2 and less accurate, phase meters, power factor meters of accuracy classes from 0.10 and less accurate. • – Energy frequency meters of accuracy classes from 0.02 and less accurate, used at the electricity metering unit. • – For measuring the load capacity of TN iTT. • – For measuring voltage losses in secondary TN circuits. – For measuring the quality of electrical energy (PCE) in accordance with the requirements of GOST 13109-97.

It is intended for obtaining in laboratory conditions from distilled especially pure (deionized) water used for the preparation of solutions, chromatographic samples, refueling of electrolytic hydrogen/oxygen generators and other purposes. Technical specifications The specific conductivity of the resulting water is not more than 0.20* mkSxcm Capacity is at least 6* l/h Metal ion content is not more than: Fe, Pb, Ni, Co 5* mcG/l Zn, Cd, Cu, Mn 1*m cG/l The optical density of ammonia relative to bidistilled water is no more, D - 0.01* Operating time of the replaceable cassette (total volume of purified water) is not less than 700 liters. Volume of refilled distilled water is 1 l Overall dimensions are 180x420x430mm  The weight of the filled device is no more than 9 kg Operating conditions: ambient temperature from +10 ° C to +35 ° C Power supply from single-phase AC 220 V., 50 Hz The power consumption is not more than 20 VA.

Design features: Special system of air intake and exhaust of combustion products with adjustable thrust; Programmable microprocessor temperature controller; Three programs of ten steps with the ability to set the temperature, heating speed and holding time for each step; Manual heating mode with timer with sound notification and auto-off; Durable ceramic muffle; Closed heaters on four sides of the chamber; Backlit graphic display; Conveniently located control panel; Automatic shutdown of heating when opening the door; Sound and light alarm when the current temperature exceeds the limits of the permissible interval; The door opens up and faces the user with the cold side; Highly efficient thermal insulation of the housing; The furnace body is made of high-quality sheet steel and painted with heat-resistant powder paint. Technical specifications: Maximum heating temperature, °C +1100 Temperature stability in steady-state thermal mode, °C ± 10 Warm-up time to the maximum temperature, no more than 120 min Dimensions of the working chamber, WxHxD, not less than mm 215x190x330 Overall dimensions, WxHxD, not more than 525x1045x680 mm Rated supply voltage, 220 V Rated power, W 6100

The sample is kept in a vacuum. The closed cycle of work allows to refuse completely liquid refrigerants (nitrogen and helium). Of the additional equipment for the operation of the cryostat, only a temperature controller and a vacuum pump (vane-rotary or spiral, or turbomolecular pumping station) are required. This cryostat model does not have any means of vibration suppression - they are transferred to the sample directly from the cryocooler, and depending on the model used, the approximate value of vibrations on the sample is from 20 to 200 microns. Applications: – Electrical and magnetic experiments; – Thermal, electrical and magnetic susceptibility; – heat capacity; – DLTS (deep level transient spectroscopy, deep level spectroscopy); – Observation of the Seebeck effect.

High-temperature furnaces are capable of heating materials up to 1700 degrees. The scope of their application covers the heat treatment of various materials in an inert medium or vacuum. TULA-TERM furnaces are used for heat treatment of plastics, ceramics, metals, alloys, lacquers and other materials. The equipment allows sintering, annealing, soldering, quenching, drying, burning and molding. In industry, our installations are most often used for quenching parts and sintering hard alloys.