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Biyan (Shanghai) Instrument Technology Co., Ltd
G8 Galileo Ar analysis
NegotiableUpdate on 02/04
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Overview
G8 Galileo Ar analyzer (argon analyzer) for accurate and rapid analysis, automated operation; High sensitivity infrared and thermal conductivity detector; The detection of total hydrogen and diffused hydrogen can be achieved on the same instrument.
Product Details
Product Introduction
Instrument Name: G8 Galileo Oxygen Nitrogen Hydrogen Analyzer
Instrument model: G8 Galileo
Instrument origin: Germany
Why is it necessary to use inert gas melting method for analysis?
The three non-metallic elements of oxygen (O), nitrogen (N), and hydrogen (H) determine the quality, service life, and mechanical properties of all metallic materials. Unlike the composition of metal alloys, the content of oxygen, nitrogen, and hydrogen can sometimes vary greatly throughout the entire process chain from raw material production to finished product completion. The amount of argon inclusions is also the same. Trace amounts of argon added through atomization during the production of metal powder will remain in the final product.
Obtaining dynamic information about hydrogen diffusion and its destructive mechanisms has many practical applications, such as developing a new generation of high-strength steel and developing materials suitable for hydrogen energy storage or biomedical implantation.
Instrument Introduction:
by virtue ofG8 Galileo Ar analysisBruker has become a company that provides fully integrated solutions for oxygen, nitrogen, and hydrogen analysis. This solution combines the advantages of multiple specialized systems, and its analytical performance is not affected or limited by any technology. G8 GALILEO uses Smart Molecule Sequence? Directly measure all gases emitted and obtain absolutely accurate information (1:1) without the need for chemical conversion, mathematical correction, or unpublished algorithms. FusionControl can continuously measure the temperature of the sample without contact, ensuring the maintenance of appropriate analysis temperature, avoiding the formation of interfering products, and increasing stability and normal operating time.
There are options for automatic sample and crucible processing, electrode cleaning, and automatic gas dose calibration. When equipped with the G4 PHOENIX special infrared furnace, it can perform reliable measurements of diffused hydrogen, residual hydrogen, and total hydrogen, and can meet the ISO 360 standard and AWS A4.3 standard for measuring light elements in weld metal.
1、 BrookeG8 Galileo Ar analysisceremonyKey Features:
1. G8 Galileo argon analyzer for accurate and rapid analysis, automated operation;
2. High sensitivity infrared and thermal conductivity detector;
3. The detection of total hydrogen and diffused hydrogen can be achieved on the same instrument;
4. Can be combined with mass spectrometry to achieve ultra-low content analysis;
5. Using non-contact infrared thermometer for temperature control, with programmed heating function;
6. Automatically select optimized range;
7. Optional furnace head automatic cleaning and automatic sampling system;
8. A complete safety chain system to avoid misoperation;
9. Powerful external water cooling system, suitable for continuous and large-scale sample testing;
10. A Windows based operating system with a user-friendly interface and easy operation.
2、 Instrument highlights:
1. Ppb (ng/g) detection limit
All excellent detectors used by G8 GALILEO have internal reference channels, which can achieve the highest stability and enable detection limits to reach the order of ppm or below (assuming a sample size of 1g).
2. Including 3 or more analyzers (in a single system)
Whether the task is to perform O/N/H analysis and measure actual hydrogen content using a thermal conductivity detector, reliably determine hydrogen elements with a content below ppm in high-purity aluminum, measure diffusion and residual hydrogen in welds, or perform argon inclusion analysis on powder raw materials or final components used in additive manufacturing: G8 GALILEO can meet almost every analysis requirement.
3. 0-100 amu m/z mass spectrometer range (MS)
The mass to charge ratio range of the mass spectrometer (MS) is designed specifically for the detection of hydrogen and argon elements, equipped with optimized ion sources and channel detectors. Due to its efficient intake system, it can achieve a detection limit below ng/g, which is equivalent to a particle density composed of several molecules.
IIIG8 Galileo Oxygen Nitrogen Hydrogen AnalyzerMain advantages:
1. Excellent water-cooled electrode furnace equipped with FusionControl, water-cooled sample container, high-capacity dust collector, and efficient online particle filter at the back;
2 Smart Molecule Sequence ™: Directly and without inclusions measure all gases emitted by excellent detectors with reference channels;
3. Provide automatic furnace cleaning, crucible and sample processing options;
4. Special external infrared furnaces can be used for diffusion hydrogen determination;
5. Can automatically and reliably calibrate 10 different capacities of gases;
6. Can be used in conjunction with mass spectrometry for thermal desorption mass spectrometry (TDMS) analysis and argon inclusion analysis.
4、 Technical parameters
| Specifications | advantage | |
| Detector (oxygen, nitrogen and hydrogen, argon and hydrogen) | Non dispersive infrared absorption method for measuring CO, with no moving parts, a dual range detector with reference beam and onboard linearization | Reliable, maintenance free, and drift free |
| Thermal conductivity detector with reference channel and adjustable gain amplifier | Reliable, adjustable range, no drift | |
| 1-100 amu mass spectrometer, single quadrupole, optimized electron bombardment ion source and channel doubling detector | Special mass spectrometer performance, sensitivity: several molecules | |
| carrier gas | Argon (O, N), helium (O, N), nitrogen (H); The purity of each carrier gas should reach 99.995% (when analyzing trace elements, the purity of the carrier gas should reach 99.9990%) | Flexible selection of carrier gas without affecting the effect |
| Calibration gas | Pure gas or certified mixed gas (with a purity of 99.999% for each calibration gas), available in 10 different capacities in gas dosage devices, can cover a wide range of capacities | Simple and accurate gas calibration, no need for standard samples, can be directly traced back to basic parameters (pressure, temperature, capacity) |
| Sample size | Electrode furnace: cross-sectional dimensions of 8 x 8 mm (block, sheet, needle, particle), different sample containers to meet the needs of special applications | |
| cooling water | Electrode furnace: 4 l/min, water supply pressure 3 bar; Infrared furnace: 1 l/min, water supply pressure 3 bar; Inlet water temperature 15-20 ° C, 100-240 V/50-60 Hz | Suitable for every ordinary water pipeline, with water-saving design, equipped with solenoid valves, and also suitable for coolers |
| power supply | 400~480 VAC (± 10%), 50-60 Hz, 32 A, 7 kVA, single-phase with neutral or two-phase, grounded wire | |
| G8 GALILEO | ||
| Mass spectrometer (MS) | 230 VAC,50 ~ 60 Hz,250 VA | Flexible and compatible with power and current configurations from around the world |
| External infrared furnace | 230 VAC,50 ~ 60 Hz,1,500 VA | Flexible and compatible with power and current configurations from around the world |
| Dimensions and Weight | ||
| G8 GALILEO | 80 x 60 x 83 centimeters (width x D x height), approximately 130 kilograms * | |
| mass spectrometer | 63 x 64 x 48 centimeters (width x D x height), approximately 60 kilograms | |
| External infrared furnace | 48 x 66 x 30 centimeters (width x D x height), approximately 15 kilograms | |
| Depending on the configuration | ||
