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เครื่องเอ็กซเรย์แบบพกพา Handheld X-ray Fluorescence (XRF) | X-MET8000
The X-MET8000 range of Handheld XRF analyzers is non-destructive provides great light elements (Mg, Al, Si, P, S, Cl) analysis, low limits of detection, and outstanding precision for results you can trust, day after day.delivers the performance needed for rapid alloy grade identification and accurate chemistry of a wide variety of materials (solid and powder metals, polymers, ROHS, wood, solutions, soil, ores, minerals etc). The X-MET8000 set covering elemental ranges of Mg to U.
Applications: X-MET8000
Metals and alloys
Verification and quality control of metals and alloys in manufacturing operations, non-destructive testing in field inspections for PMI and sorting of scrap in recycling operations.
Precious metals and Jewelry
Verify the amount of gold (Au), silver (Ag), platinum (Pt) and palladium (Pd), and detect rarer precious metals such as osmium (Os), iridium (Ir) and ruthenium (Ru).
Minerals and ores
Determine the composition of metal ores and minerals during mining exploration, material extraction and processing stages including Rare Earth Elements (REEs).
Environmental and Soil
Soil analysis, sediment and environmental screening with lab-quality chemistry in seconds.
Car catalysts
Determine the presence of platinum (Pt), palladium (Pd) and rhodium (Rh), and the honey-comb core’s composition.
RoHS and Consumer Goods
Detect hazardous substances and meet current directives, such as RoHS, ELV, EN71, CPSIA and California Prop 65, and have the flexibility to adapt to new directives as legislation evolves.
Coating Thickness
At-line testing to measure coating thickness, coating weight and to analyze plating bath solutions.
Insulation materials
Measure insulation materials like mineral wool for carcinogenics to comply with regulations.
Sulfur in fuel
Get laboratory-quality testing results onboard a ship whilst complying with ISO8754, ASTM D4294 and IP336 sulphur test methods.
Archaeometry
Thorough analysis for conservation or curation for conservation labs, museums, art forensics, research institutes and universities.
Fast Elemental Analysis – Check metals and materials within seconds.
Non-Destructive Testing – Perfect for valuable metals and critical samples.
Portable Design – Lightweight, easy to use anywhere.
Large Color Touch Screen – Clear, easy-to-read results.
Long-Lasting Battery – Supports hours of fieldwork without interruption.
High Accuracy – Reliable and precise elemental measurements.
User-Friendly Software – Immediate results and data storage.
Versatile Metal Testing – Analyze gold, silver, copper, aluminum, and other metals.
ASTM E2119 – Standard test method for using X-ray Fluorescence (XRF) to determine the thickness of thin coatings on materials.
ASTM WK76476 – Draft standard related to material testing using spectroscopic techniques (under development).
ASTM D6481 – Standard test method for determining the amount of sediments or contaminants in diesel fuel.
ASTM D4294 – Standard test method for sulfur content in petroleum and fuel products using XRF.
ASTM E2120 – Standard test method for analyzing gases in metals and materials using spectroscopy.
ASTM B568 – Standard test method for measuring the thickness of metallic coatings using X-Ray Spectrometry.
IEC 62495 – International safety standard for X-Ray radiation in analytical and measurement equipment.
API RP 570 – Recommended Practice for inspection and maintenance of piping systems in plants (Piping Inspection Code), covering inspection, safety, and service life.
API RP 578 – Recommended Practice for Positive Material Identification (PMI) to verify material type and grade, preventing mismatched materials.
EU RoHS II – Restriction of Hazardous Substances: limits the use of Pb (lead), Hg (mercury), Cd (cadmium), Cr (chromium), PBB (polybrominated biphenyls), PBDE (polybrominated diphenyl ethers) in electronic equipment.
EU WEEE – Similar to RoHS but applies to electronic products that are discarded or at end-of-life.
EU ELV – End-of-Life Vehicles directive: sets limits for certain heavy metals (cadmium, lead, mercury, hexavalent chromium) in automotive materials.
USA CPSIA 2008 – Consumer Product Safety Improvement Act: sets lead content limits in children’s products at 100 ppm.
ASTM F2617-15 – Standard test method for determination of chromium, bromine, cadmium, mercury, and lead in polymeric materials using XRF.
ASTM F963-11 – Standard Consumer Safety Specification for Toy Safety.
CPSC-CH-E1001-08.3 – Standard operating procedure for determining total lead (Pb) in children’s metal products.
CPSC-CH-E1002-08.3 – Standard operating procedure for determining total lead (Pb) in children’s non-metal products.
X-MET8000 Smart: Analyzes elements from Potassium (K) to Uranium (U)
X-MET8000 Optimum: Analyzes elements from Magnesium (Mg) to Uranium (U)
X-MET8000 Expert: Analyzes elements from Magnesium (Mg) to Uranium (U)
Fast Elemental Analysis – Check metals and materials within seconds.
Non-Destructive Testing – Perfect for valuable metals and critical samples.
Portable Design – Lightweight, easy to use anywhere.
Large Color Touch Screen – Clear, easy-to-read results.
Long-Lasting Battery – Supports hours of fieldwork without interruption.
High Accuracy – Reliable and precise elemental measurements.
User-Friendly Software – Immediate results and data storage.
Versatile Metal Testing – Analyze gold, silver, copper, aluminum, and other metals.
ASTM E2119 – Standard test method for using X-ray Fluorescence (XRF) to determine the thickness of thin coatings on materials.
ASTM WK76476 – Draft standard related to material testing using spectroscopic techniques (under development).
ASTM D6481 – Standard test method for determining the amount of sediments or contaminants in diesel fuel.
ASTM D4294 – Standard test method for sulfur content in petroleum and fuel products using XRF.
ASTM E2120 – Standard test method for analyzing gases in metals and materials using spectroscopy.
ASTM B568 – Standard test method for measuring the thickness of metallic coatings using X-Ray Spectrometry.
IEC 62495 – International safety standard for X-Ray radiation in analytical and measurement equipment.
API RP 570 – Recommended Practice for inspection and maintenance of piping systems in plants (Piping Inspection Code), covering inspection, safety, and service life.
API RP 578 – Recommended Practice for Positive Material Identification (PMI) to verify material type and grade, preventing mismatched materials.
EU RoHS II – Restriction of Hazardous Substances: limits the use of Pb (lead), Hg (mercury), Cd (cadmium), Cr (chromium), PBB (polybrominated biphenyls), PBDE (polybrominated diphenyl ethers) in electronic equipment.
EU WEEE – Similar to RoHS but applies to electronic products that are discarded or at end-of-life.
EU ELV – End-of-Life Vehicles directive: sets limits for certain heavy metals (cadmium, lead, mercury, hexavalent chromium) in automotive materials.
USA CPSIA 2008 – Consumer Product Safety Improvement Act: sets lead content limits in children’s products at 100 ppm.
ASTM F2617-15 – Standard test method for determination of chromium, bromine, cadmium, mercury, and lead in polymeric materials using XRF.
ASTM F963-11 – Standard Consumer Safety Specification for Toy Safety.
CPSC-CH-E1001-08.3 – Standard operating procedure for determining total lead (Pb) in children’s metal products.
CPSC-CH-E1002-08.3 – Standard operating procedure for determining total lead (Pb) in children’s non-metal products.
X-MET8000 Smart: Analyzes elements from Potassium (K) to Uranium (U)
X-MET8000 Optimum: Analyzes elements from Magnesium (Mg) to Uranium (U)
X-MET8000 Expert: Analyzes elements from Magnesium (Mg) to Uranium (U)
