Oxygen / Nitrogen Analyzer ELEMENTRAC ON‑p
The ELEMENTRAC ON-p determines oxygen and nitrogen in inorganic samples by inert gas fusion in an impulse furnace with temperatures in excess of 3,000 °C.
The ELEMENTRAC ON-p guarantees precise and fast sample analysis. The analyzer covers a wide range of applications such as metal, ceramics and other inorganic materials.
The ELEMENTRAC ON-p can be supplied with up to two infrared cells with different path lengths, accommodating both high and low level oxygen analysis. Nitrogen concentrations are determined in the ELEMENTRAC ON-p by a robust and sensitive thermal conductivity cell.
alloys, cast iron, ceramics, copper, refractory metals, steel, ...
simultaneous nitrogen and oxygen determination with inert gas fusion technique
NEW: closed gas management and optimized gas circulation for sensitive ON determination
NEW: use of cost efficient argon as carrier gas possible
NEW: powerful catalyst furnace for precise oxygen measurement
NEW: gas flow system with electronic gas flow control and new leakage test
NEW: water-cooled sample port system for effective removal of atmospheric gases
flexible configurations and measuring ranges for O and N
high sensitivity IR and TC cells with low detection limits
short analysis time
powerful 8,5 kW* impulse furnace for temperatures in excess of 3,000 °C
NEW: chemicals and tubes are hidden behind a door (removable)
NEW: powerful software supporting data and application export, with comment fields
single and multipoint calibration (linear regression)
NEW: cooling via tap water, heat exchanger or chiller
New design allows operation in production control and laboratory
Measured elements nitrogen, oxygen
Furnace alignment vertical
Sample carrier graphite crucibles
Field of application ceramics, engineering / electronics, steel / metallurgy
Furnace electrode impulse furnace (max. 8,5 KW*), temperatures in excess of 3,000 °C
Detection method solid state infrared absorption for oxygen thermal conductivity for nitrogen
Typical analysis time 120 - 180 s
Chemicals required copper oxide, magnesium perchlorate, sodium hydroxide
Gas required compressed air, helium 99.995 % pure, argon 99.995% pure (if required), all gases with (2 - 4 bar / 30 - 60 psi)
Power requirements 3~ 400 V, 50/60 Hz, max. 8,500 W
Dimensions (W x H x D) 57 x 77 x 63 cm
Weight ~ 161 kg
Required equipment balance (resolution 0.0001g), monitor, PC
Optional accessories carrier gas purification, external chiller, gas calibration unit
- * limited to 6.8 kw in application settings
Operation ELEMENTRAC ON-p
Operation of the ELEMENTRAC ON-p is simple and safe. The samples are weighed on the interfaced balance and the weight is transferred to the linked PC. Manual weight entry is also possible.
Depending on the application the sample has to be placed in a nickel basket or capsule. Granulates or pins made of steel can be placed directly on the sample port without any other tools. Some applications also require some additional fluxes like tin or nickel, which have to be filled into an empty graphite crucible. This graphite crucible is placed on the lower electrode tip and the analysis can be started. Typical analysis time is about 2,5 minutes.
All cell outputs and analyzer parameters are displayed in real time and are saved in a data base along with the results. Of course the results and application settings can be exported. The ELEMENTRAC ON-p requires minimum maintenance and all particle filters and chemicals which need to be maintained are easily accessible. During daily work a door hides chemicals and filters. It can be removed easily to observe these during analysis.
Measuring Principle ELEMENTRAC ON-p
The measuring principle of the ELEMENTRAC ON-p allows for a wide measuring range. To analyze the sample, it is weighed and placed on the sample port. Flushing with carrier gas prevents atmospheric gas (oxygen and nitrogen) from getting into the furnace.
The graphite crucible is outgassed in the impulse furnace to reduce possible contaminations (e.g. residual oxgen). After a stabilization phase the sample is dropped into the crucible and melts. Carbon monoxide is produced by the reaction of carbon in the graphite crucible and oxygen of the sample. Nitrogen is released in its elemental form. The carrier gas (helium) and sample gasses pass through a filter before entering a copper oxide catalyst which converts the CO to CO2.
The CO2 is measured by the infrared cells to determine the oxygen content. CO2 and water are removed chemically and the nitrogen content is measured in the thermal conductivity cell. As on option the less expensive Argon as carrier gas can be used instead of the more expensive helium.
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