Descripción
SUMMARY
W5 Optical Emission Spectrometer bring in the advanced technology from Europe. It is the 4th generation Arc/Spark-OES with high performance lowing operating cost for metal analysis and this is the latest research and development of detection equipment. The overall optical design has been enhanced, and with improvements of CMOS technology used to further improve the performance of the W5 while retaining the major benefit of earlier units. The CMOS spectrometer is not only contain the full spectrum characteristics of CCD spectrometer but also the extremely low detection limit for non-metallic elements such as C, S, P, B, As, N etc. The operation is simple and easy to learn. The test result is stable and accuracy. It is a good choice of all common metals for incoming and outgoing product quality control.
APPLICATIONS
W5 Optical Emission Spectrometer(spark OES) is used for applications in metal elemental analysis, trace element analysis for science and industry like Metallurgy, Foundry, Mechanical Engineering, Scientific Research, Product Inspection, Automobile, Petrochemical Engineering, Shipbuilding, Electrics, Aerospace, Nuclear Power, Metallic and Nonferrous Metallic Smelting, Processing and Recycling. It is including full element analysis range, but at same time the element analysis amount can be bespoke.
Large Steel Plants Where needs are at around10 PPM levels or elements like C, N, Cr, S, P etc.
Testing Laboratories: Commercial testing laboratories, Universities and colleges
Pure metal applications purity Al, Pb, Zn, Mg etc. – most industrial users
Regulatory compliance Very low LODs to control Pb, Cd, As etc.
Foundries which need a quick analysis near the furnace
Manufacturing Facilities
Warehouse material identification
Base: Fe, Cu, Al, Ni, Co, Mg, Ti, Zn, Pb, Sn, Ag, Mn, Cr etc
Detection Matrices:
Iron(Fe) and its alloys (Steel alloy, Cast iron, Fe-Low alloy, Fe-Cr steel, Fe-Cast iron, Fe-Cr-cast, Fe-Mn steel, Fe-Tool steel etc.)
Aluminium(Al) and its alloys (Al-Si alloy, Al-Zn alloy, Al-Cu alloy, Al-Mg alloy, Pure-Al alloy etc)
Copper(Cu) and its alloys (Brass, Copper-Nickel-Zn, Aluminum Bronze, Tin-lead Bronze, Red Copper, Be-Bronze, Si-Bronze etc)
Nickel(Ni) and its alloys (Pure Ni, Monel metal, Hadtelloy Alloy, Incoloy, Inconel, Nimonic etc)
Cobalt(Co) and its alloys (Co-orientation, Low Co alloy, Stellite 6,25,31, Stellite 8,WI 52, Stellite 188, F)
Magnesium(Mg) and its alloys (Pure Mg, Mg/Al/Mn/Zn-alloys)
Titanium(Ti) and its alloys
Zinc(Zn) and its alloys
Lead(Pb) and its alloys
Tin(Sn) and its alloys
Argentum(Ag) and its alloys
Manganese(Mn) and its alloys
Chrome(Cr) and its alloys
Small sample, special size sample and wire detection
FEATURES
1. Superior Performance Optical System
①Paschen-Runge Structure has concave grating and full spectrum coverage, it can be satisfied with customers demand for elements.
②The direct optical technology and optical devices are made of MgF, to guarantee the best performance in the UV region.
③High resolution of Multi-COMS read-out system, lower dark current, better detection limit, higher stability and stronger sensitivity.
④The optical system adopts vacuum constant temperature light room, it can realize that light path through, to eliminate optical path loss, to improve test limit, and the results of test is more accurate, its reproducibility and long-term is perfect.
2. Intelligent Digital Excitation Light Source
①Fully digital intelligent composite light source DDD technology can have superior analytical performance.
②The compact design and semiconductor control technology, and make light source have better stability and stronger reliability.
②HEPS can excite parameter adjustment and fully satisfied different matrix, different samples and the demand of analytical elements.
3. Intelligent Sample Inspire Stand
①The excitation station can lead laser into the optical system directly.
②The open electrode frame design, it can adjust sample folder so as to analyze all kinds of shapes and sizes.
③To transform electrode can have the better performance for small samples and analysis
of complex geometry samples.
④Video recognition technology can ensure the safety of sample excitation station and can
monitor the panoramic view of sample station.
4. Intelligent Integrated Gas Channel Block
①The design of intelligent argon flow and the detection of dust collection.
②The special argon injection technology has effectively eliminate excitation process
plasma drift and can ensure CMOS detector to observe the high temperature light signal
and to improve its accuracy and stability.
③After excitation, the pulsed argon purge improves the effective of dust removal, so it can
improve the instrument’s short-term and long-term stability.
PARAMETERS
Optical System
Optical Structure: The Paschen Runge construction full vacuum type optics system
Room temperature: 35º±0.5º
Wavelength range: 130-800nm
Focal length: 400mm
Grating line: 2400m1/mm
First order spectral line dispersion rare: 1.2nm/mm
Detector: Multi block high performance linear CMOS array
Average resolution ratio: 10pm/pixel
Excitation table
Gas: Rushing argon(99.999%)
Argon flow rate: When excited: 3-5L/min
Standby time: no need for standby traffic
Electrode: Tungsten electrode technology
Purge: Automatic purge function
Make up: Thermal deformation self-compensation design
Analyze the gap: Sample stage:3.4 mm
Excitation light
Type: HEPS
Frequency: 100-1000HZ
Discharge current: 1-400 A
Special technology: Optimization of discharge parameters design
Pre –combustion: High-energy pre-combustion technology
Processor: High end ARM, high-speed data synchronization acquisition and processing
Data collection system
Interface: Ethernet data transmission based on DM9000A
Power: 220VAC 50/60Hz(Customized)
Others
Base: Fe, Cu, Al, Ni, Co, Mg, Ti, Zn, Pb, Sn, Ag, Mn, Cr etc
Power consumption: Maximum:750W standby:40W
Working temperatura: 10-35℃(temperature ≥5°C)
Wmidity: 20-85%
Dimensionorking hu: 860mm(L)*680mm(W)*438mm(H)
Weight: About 100Kg
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