|
Equipment |
Performance characteristics* |
| Spectrometry |
|
|
• Atomic absorption spectrometry
(F-AAS, G-AAS)
• Inductively coupled plasma
atomic emission- and mass
spectrometry (ICP-AES, ICP-MS)
• Inductively coupled plasma
laser ablation mass
spectrometry (Laser-ICP-MS) |
Multi element trace and ultra trace analysis from 0.1-5000 µg/g in metals and solid environmental samples (0.01-1000µg/g in liquid phases) |
|
Ion analysis |
|
|
Ion chromatography |
Trace anion- and cation analysis down to 1 µg/g |
| Photometry |
|
| UV-vis-spectrometry |
Complexometric trace analysis down to 10µg/g |
| Gas analysis |
|
| Carrier gas hot extraction (HE) |
Determination of oxygen- and nitrogen down to 5µg/g
Determination of hydrogen down to 1µg/g |
| Combustion analysis (VE) |
Determination of carbon and sulfur down to 5µg/g |
|
Powder characterisation |
|
| Fisher-Sub-Sieve-Sizer |
Particle size determination according to Fisher |
| Scott-analyser |
Determination of powder density |
| Malvern Lasergranulometer |
Determination of the particle size distribution from 0,02-2000 µm and cumulative proportions |
| BET-Adsorptiometry |
Determination of the powder surface from 0.01-300 m2/g, of the pore size and pore distribution. |
| X-ray analysis |
|
| X-ray fluorescence(RFA) |
Highly accurate analysis from 0.05-100% |
X-ray diffraction
(XRD, high temperature XRD) |
Qualitative and quantitative phase analysis from RT-1200°C |
| Thermal Analysis |
|
| Thermogravimetry (TG) |
Measurement of changes in mass up to 10 g with temperature from 20-1650°C |
| High temperature dilatometry |
Determination of the coeffi zient of thermal expansion from 100-1650 (2400)°C |
