DW-TY-9000 Type Full Spectrum Direct Reading Spectrometer
Product Description
General principles
The buyer is responsible for providing the conditions and requirements of the site, and meet the requirements of the external installation and other cooperation conditions, the Seller shall provide the equipment and technical services in accordance with the requirements of this agreement. The seller (to ensure full compliance) shall comply with the requirements of the technical specifications, and the analytical instrument shall meet the requirements of the national (or industry) standards.
DW-TY-9000 Full Spectrum Direct Reading Spectrometer, which adopts the international standards of design and manufacturing technology, follows the steps of international spectrum technology and applied the new all digital technology instead of PMT simulation technology. In addition, in order to make this apparatus' best capability, long term stability and repeability, and the lowest sense lines. The design of vacuum optics room and the technology of all digital excitation light source, advanced CCD detector, high-speed data reading system are applied. This machine is available in metal manufacture and processing industries. It's also one of the main testing machine in metal metallurgy. Such as quality monitoring, material grade identification, material research and development.
Technical configuration
Specifications and technical parameters
| Item |
Index |
| Detection of substrate |
Fe,Al,Cu,Ni,Ti,Co,Zn,Sn,Mg,Pb etc |
| Testing time |
According to the sample type, generally about 25s |
| Optical system |
The Paschen Runge construction full vaccum type optics system |
| Wavelength coverage |
130~800nm |
| Focal length |
400mm |
| Detector |
High-performance CCD Array |
| Electrode |
Tungsten material injection electrode |
| Analytical gap |
The sample analysis of clearance: 3.4mm |
| Operating temperature |
(10~35)ºC |
| Storage temperature |
(0~45)ºC |
| Operating humidity |
20%~80% |
| Argon purity requirements |
99.999% |
| Argon gas inlet pressure |
0.5MPa |
| Argon flow |
Stimulate the flow around 3.5L/min,Maintain flow around 0.4L/min |
| Stimulate the maximum power |
400VA |
| Type of Lamp-house |
New digital adjustable light, high energy precombustion technology(HEPS) |
| Discharge frequency |
100-1000 Hz |
| Discharge current |
Maximum 400A |
| Excitation aperture |
13mm |
| Vacuum system |
The vacuum automatic control and monitoring software |
| Working power supply |
220V AC, 50/60Hz, single phase power supply for protective grounding |
| Instrument size |
725*865*550(mm) |
| Instrument weight |
80kg |
Optical System
1. Par type Paschen-Runge structure full spectrum of the optical system;
2. Maximum wavelength range(160~850)nm;
3. Multiple high-performance CCD detectors;
4. Integration of optical chamber forming, dynamic Romanian archives park installation, resistance to environmental temperature changes;
5. Light vacuum chamber designed to ensure the C, S, P, N to achieve the best performance;
6. Ray room temperature control, constant temperature of 35ºC;
7. Direct MgF2 lens optics technology and materials to ensure the best energy C, S, P, N ultraviolet wavelengths.
Sample excitation station
1. Integrated manifold, injection electrode technology;
2. Optimization of argon gas circuit design ensures effective cooling station excite and motivate metal dust generated in the process effectively into the filter; the sample excitation is more stable, and greatly reduce the body's intake of metal dust, help protect the operator health and safety;
3. Smaller excitation space, argon gas consumption less;
4. Easy to use sample holder;
5. With the function of the electrode electrode should sweep, longer service life, easy cleaning electrode;
6. 13 mm aperture stimulate a more conducive sample analysis;
7. Open sample excitation table can be adapted to a variety of sizes, shapes analyze more samples (with cable);
8. SLR Lens device design, the general staff can facilitate the maintenance of the excitation and lens cleaning.
Excitation light source
1. New adjustable digital light source, the highest frequency up to 1000Hz;
2. High energy prediction technology (HEPS);
3. Optimized design of the control and power circuits, improve security features excite;
4. Provide the best analysis for different target spark, an arc or a combination of excitation waveforms;
5. Discharge current: 400 A Max.
Excitation light source
1. New adjustable digital light source, the highest frequency up to 1000Hz;
2. High energy prediction technology (HEPS);
3. Optimized design of the control and power circuits, improve security features excite;
4. Provide the best analysis for different target spark, an arc or a combination of excitation waveforms;
5. Discharge current: 400 A Max.
Excitation light source
1. New adjustable digital light source, the highest frequency up to 1000Hz;
2. High energy prediction technology (HEPS);
3. Optimized design of the control and power circuits, improve security features excite;
4. Provide the best analysis for different target spark, an arc or a combination of excitation waveforms;
5. Discharge current: 400 A Max.
Elements and the scope of instrumental analysis
| Program |
Fe-Low alloy |
Fe-Cr-Ni steel Cr-Ni |
| Elements |
Min |
Max |
Min |
Max |
| C |
0.006 |
1.3 |
0.008 |
2.5 |
| Si |
0.01 |
3.9 |
0.09 |
4 |
| Mn |
0.03 |
2.1 |
0.12 |
16 |
| P |
0.002 |
0.12 |
0.003 |
0.3 |
| S |
0.002 |
0.16 |
0.001 |
0.4 |
| Cr |
0.01 |
4.5 |
7.4 |
32 |
| Ni |
0.004 |
4.4 |
0.8 |
48 |
| Mo |
0.004 |
1.3 |
0.08 |
4.2 |
| Al |
0.003 |
1.5 |
0.005 |
1.7 |
| Cu |
0.002 |
0.5 |
0.05 |
4.5 |
| Co |
0.001 |
0.5 |
0.008 |
17 |
| Ti |
0.002 |
1.2 |
0.005 |
1.1 |
| Nb |
0.002 |
0.3 |
0.02 |
2 |
| V |
0.003 |
0.9 |
0.02 |
9.5 |
| W |
0.03 |
2.1 |
0.002 |
4.1 |
| Pb |
0.003 |
0.03 |
0.001 |
0.02 |
| Mg |
0.001 |
0.14 |
0.001 |
0.14 |
| B |
0.006 |
0.02 |
0.007 |
0.02 |
| Sn |
0.001 |
0.09 |
0.003 |
0.05 |
| Zn |
0.002 |
0.04 |
0.006 |
0.08 |
| Sb |
0.002 |
0.02 |
0.0005 |
0.022 |
| Fe |
(Remain) |
(Remain) |
Laboratory environment
Environmental Requirements
Instrument shall be placed in a dedicated laboratory, indoor area larger than 10 square meters, and to ensure that surrounding non hazardous, flammable and corrosive gases. Caution: Do not use this instrument placed in the chemical analysis laboratory.
Working temperature: 10ºC ~ 30ºC, within 3 hours at room temperature fluctuation is less than 2ºC, requires laboratory installation of air conditioning.
Storage temperature: 0ºC ~ 45ºC
Relative Humidity: 20% to 80%, for wet areas, to be equipped with a dehumidification machine.
TY-9000 full spectrum of direct-reading spectrometer spectral chamber mounted in the housing having a temperature control device, can work in such an environment range, if beyond the scope of these requirements, service life and measurement accuracy of the instrument will be affected.
Power Requirements
1) Power supply: single-phase 220 ± 20V, 1KVA power supply.
In order to ensure TY-9000 full spectrum direct reading spectrometer normal use, please for the instrument is equipped with a 1kVA single-phase 220V AC voltage regulator parameters.
2) TY-9000 full spectrum of direct-reading spectrometer with protective grounding single-phase power. To ensure reliable instrument, the user must ensure the grid PE protected well grounded and separate from other protected areas of large equipment. If you can not guarantee that PE is well grounded, please prepare a ground instrument separately for grounding resistance of less than 4Ω.
Argon requirements
1) Argon purity≥99.999%, oxygen≤2ppm, including the amount of H2O≤5ppm, (argon gas cylinders can not open storage, non-rain). If there is no purity argon gas, argon gas purifier is recommended.
2) The use of argon gas flow rate: standby flow rate of about 0.1L/min, maintaining the flow of about (0.4-0.5) L/min, to stimulate the flow of about 3.5L/min.
3) Argon pressure control: 0.5Mpa.
Argon requirements
1) Argon purity≥99.999%, oxygen≤2ppm, including the amount of H2O≤5ppm, (argon gas cylinders can not open storage, non-rain). If there is no purity argon gas, argon gas purifier is recommended.
2) The use of argon gas flow rate: standby flow rate of about 0.1L/min, maintaining the flow of about (0.4-0.5) L/min, to stimulate the flow of about 3.5L/min.
3) Argon pressure control: 0.5Mpa.
Row of cylinders
Instrument exhaust gas through a 14mm diameter PVC reinforced pipe routed supplied filter bottle. Exhaust bottle should be cleaned in time to prevent poor gas replacement.
Sample Preparation
Non-ferrous metal samples for aluminum, copper, etc. must use special lathe sample preparation.
For iron-based samples must use special sample preparation grinding prototype, a prototype mill and a floor-grinding machine for grinding steel sample surface. White cast iron samples must be uniform.
Users need a cutting machine for processing shape suitable for spectrometric analysis of samples.
Samples to be analyzed must be uniform, no holes, no casting defects, preparation must achieve a smooth surface, no oxide layer, no oil, no burr edge of the sample.
Standard sample request
TY-9000 full spectrum of direct-reading spectrometer factory will be bundled with a spectral calibration standards for the overall spectral calibration instrument drift. In addition, users need to prepare for their own internal control standard sample or sample product type, for correcting the instrumental analysis curve.
PC and printer requirements
Prepare a general configuration of the current PC (notebooks and desktops can be), requires more than 1GB memory, CPU dual-core 1.8G Hz or more, for the installation TY-9000 full spectrum of direct-reading spectrometer analysis software.
Prepare a printer, laser, inkjet or dot matrix printer can be used to analyze the data to print the report.
Detailed Photos
Certifications
FAQ
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