Flame spectrophotometer FP6450

Characteristics of flame spectrophotometer FP6450:

Flame spectrophotometer FP6450Potassium, sodium, lithium, calcium, and barium have been greatly improved based on our original products, simplifying the gas system and using liquefied petroleum gas (LPG)LPG）For fuel. Has the following characteristics: direct reading of potassium and sodium element concentrations; Automatic calculation of correlation coefficient; Pre selected flame size; Flameout protection device, safe and reliable; Directly import test dataUPlate; Touch based operation; Supports mouse.

The completeness of the FP6450 flame spectrophotometer instrument:

1) 1 instrument (host)

2) 1 air compressor

3) 1 set of accessory spare parts

Normal operating conditions for flame spectrophotometer FP6450:

1. Environmental temperature (10-35) ℃.

2. Relative humidity ≤ 85%.

3. The power supply voltage is (220 ± 22) V, the frequency is (50 ± 1) Hz, and it has good grounding.

4. The rated power is 30W.

5. The product should be placed horizontally on a non vibrating workbench, and there should be no shaking during operation.

6. The testing site should have good ventilation and should not be directly exposed to strong light. There should be no interference from strong magnetic fields, electric fields, or vibration sources around the product, and no strong airflow.

7. There should be no flammable, explosive, or corrosive gases on site when using liquefied gas cylinders for the product, and fire extinguishing facilities should be prepared.

A flame photometer is an analytical instrument based on emission spectroscopy. For example, when salt is placed in a fire, the flame turns yellow because the outer electrons of the sodium atoms in the salt absorb the heat energy of the flame and transition to an excited energy level. When the excited energy level returns to a normal state, the electrons release energy, which is characterized by the emission of a spectral line with a wavelength unique to sodium atoms - the yellow spectrum (main wave 5893A). Using the thermal energy of flames to excite atoms of a certain element to emit light, and using instruments to detect the strength of its spectral energy,

To further determine the content of a certain element in a substance, this type of requirement is called a flame photometer.

Flame photometer has been widely used in medical clinical practice and soil analysis. Fertilizer, cement, refractory materials, glass, ceramics and other industries.