X-ray emission spectrometer

Guochuang Technology InstrumentX-ray emission spectrometerSuperXAFS E6000

Core parameters

1. Energy range: 5-18keV

2. Energy resolution: ≤ 2.0eV @ (7-9 keV)

3. Energy repeatability: ≤ 30meV@24h

4. X-ray source: equipped with a micro focal spot X-ray source with a power of ≥ 100W (2 target Pd/W), voltage of 20-40kV, tube current of 4mA, and core hole generation rate of ≥ 1011/s @ (7-9 keV)

5. Surface detector: equipped with capillary focusing lens, the focused spot at the sample is ≤ 100um, and the focusing lens can be automatically switched

6. Adjustment mechanism accuracy: The minimum step size for energy scanning is 0.1eV

Guochuang Technology InstrumentX-ray emission spectrometerSuperXAFS E6000

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It is an instrument used for qualitative and quantitative analysis of elements, and its main functions include:

Determining the elemental composition of samples: widely used in metals, ores, soils, biological samples, etc.

Measurement of element content: By analyzing the intensity of characteristic X-rays, the mass fraction of each element in the sample can be quantitatively calculated with an accuracy of up to ppm (parts per million).

Non destructive testing: No need to damage the sample, suitable for the analysis of special samples such as cultural relics, coatings, and films.

XRF is widely used in the following fields due to its fast, non-destructive, and multi-element analysis capabilities:

1. Materials Science and Industry

Metal composition analysis: detection of alloy elements in steel, aluminum alloys, and electronic components.

Plating and film detection: measure coating thickness (such as gold plating on PCB boards) and composition (such as metal plating on plastic surfaces).

Semiconductor materials: Analyze impurity elements in silicon wafers to ensure chip purity.

2. Geology and Mineral Exploration

Mineral composition analysis: Quickly detect the metal element content in ore to guide mining and beneficiation.

Rock and mineral identification: Distinguishing rock types (such as granite and basalt) through element composition to assist in geological structure research.

3. Environmental and ecological monitoring

Soil and water pollution detection: Analyze heavy metal content and evaluate the degree of environmental pollution.

Solid waste and hazardous material analysis: Identify harmful elements in industrial waste, support garbage classification and treatment.