CCD-based, spark discharge, metal analyzer.
Precise analysis of all common metals for incoming and outgoing product quality control.
Effective wavelength range: 130nm-800nm.
Superior scalability to meet the needs of business expansion
Rugged and reliable,
Easy to operate
Available as benchtop or floor model
TY-9000 is Full Range of Solutions for the Entire Metals Industry. It use full-digital technology to replace bulky photomultiplier tube (PMT) simulation technology and keep pace with international spectrometer technology. The adoption of vacuum optical chamber design, full-digital excitation light source, advanced CCD detectors, and high-speed data readout system equips the device with high properties, ultra-low limit of detection (LOD), long-term stability and repeatability. The analytical precision can meet the requirements of laboratory standard, the analytical date is stable and reliable. Widely used in Metallurgy, casting, machinery processing and other industries incoming and outgoing product quality control.
TY-9000 floor standing, bench top optical emission spectrometers(spark OES) are 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.
Large Steel Plants Where needs are at around 10 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
Warehouse material identification
Base: Fe, Cu, Al, Ni, Co, Mg, Ti, Zn, Pb, Sn, Ag, etc
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
Small sample, special size sample and wire detection.
|Optical System||Focal Length||400nm|
|Detector||High resolution CCD Multi detectors|
|Degree of vacuum||Auto control within 6-20 pa|
|First order spectral line dispersion rare||1.2nm/mm|
|Average resolution ratio||10pm/pixel|
|Light room temperature is controlled automatically|
|Spark Source||Type||Digital arc and spark source|
|Optimization of discharge parameters design|
|High energy precombustion technology HEPS|
|High-speed data synchronization acquisition and processing|
|Spark Stand||Electrode||Tungsten electrode technology|
|Make up||Thermal deformation self-compensation design|
|Argon flushed with minimal consumption of Argon|
|Spray discharge electrode technology|
|Adjustable electrode technology|
|Others||Measurable elements||Fe,Al,Cu,Ni,Ti,Co,Zn,Sn,Mg,Pb etc|
|Operating temperature||10ºC-30ºC, 23±2ºC is recommended|
|Power consumption||Excitation:700W/Stand by:100W|
|Argon quality||99.999%, Argon pressure>4Mpa|
|Argon consumption||5L/min during spark mode|
|Interface||Ethernet data transmission based on DM9000A|
Packing & Shipping