Technical indicators of LIBS HP-VELA001 laser analyzer spectrometer from Beijing HopeLight

I. Technical indicators of HopeLight LIBS analyzer HP-VELA001:
1. Main functions:
1) Analyzable detection elements (commonly used) :
Be, Mg, Al, Si, Ti, V, Cr, Mn, Fe, Co,
Ni, Cu, Zn, Nb, Mo, Sn, W, Pb, Bi
2) Can quickly detect and identify aluminum alloy, copper alloy, nickel alloy, and stainless steel, low and medium alloy steel and other alloy brands and main Element content, pre-installed UNS brand library, users can also customize the brand library.
2. Performance and technical indicators of HopeLight LIBS Analyzer HP-VELA001:
1) The instrument design is strong and durable, and the aluminum body is IP54 dustproof and waterproof.
2) Quick detection: the material brand can be displayed in one second, and the high-precision mode of quantitative detection can also be selected.
3) Safe and reliable, without radiation hazard. There is no government security control requirement for either sale or use.
4) Excellent ergonomic design, the machine weighs 1.25 kg including the battery, the size is small, durable, standard with two pieces of electricity
The pool can handle a day's work.
5) Environmental temperature adaptability: recommended working environment temperature 5 ℃ and 40 ℃.
6) A self-developed operating system based on Linux, with clean and simple interface and convenient touch screen operation.
7) The excitation source USES 3B class low-power and high-performance safety pulse laser, 1064nm all-solid, passive q-switched laser, pulse the punch output is up to 100 microfocus.
8) Optical system based on miniature glint grating, using high-resolution miniature CCD/CMOS detector
9) Adopt the most advanced empirical coefficient algorithm, combined with the unique patented vibration optical path detection technology: penetration laser burning Corrosion detection technology, in the sample axial reciprocating ablation, ablation of the sample surface pollutants and oxidation film, etc., deeper analysis Level of sample signal to obtain the most accurate spectral information.