Laboratory Ashing Furnaces are specialized equipment designed for high-temperature processes, primarily ashing, which involves the complete oxidation or reduction of a sample to analyze its composition.These furnaces are indispensable in scientific research, offering precise control over temperature and atmosphere to ensure accurate and repeatable results.
Maximum temperature 1100/1200 deg c.
provide a continuous flow of preheated air through the chamber,
comply with ISO 1171:2010, ASTM D3174-04:2010 & ASTM D4422.
Air inlet & tall chimney give airflow of 4 to 5 changes per minute
Low chamber height holds airflow close to samples for optimum combustion
Heating element protected from chemical attack
Preheating of air before it enters the chamber gives excellent uniformity
Sample tray and loading handle
TYPE: ashing
VOLUME (L): 3-32
Our products in this category:
Ashing Furnace 1100 Deg C 3 Liter.
Ashing Furnace 1100 Deg C 7 Liter.
Ashing Furnace 1100 Deg C 18 Liter.
Ashing Furnace 1100 Deg C 32 Liter.
Ashing Furnace 1200 Deg C 18 Liter.
optional After burner Ashing Furnace
ASHING FURNACE AAF
Applications in Scientific Research
A. Material Analysis
Laboratory ashing is crucial for analyzing the composition of various materials, providing insights into their elemental content.
B. Residue and Contaminant Analysis
Researchers use ashing furnaces to determine the presence of residues and contaminants in samples, ensuring product quality and safety.
C. Environmental Studies
In environmental science, these furnaces aid in studying the impact of pollutants on different materials and ecosystems.
Factors to Consider When Choosing a Laboratory Ashing Furnace
A. Temperature Range
Selecting a furnace with an appropriate temperature range ensures compatibility with the specific ashing requirements of the sample.
B. Heating Element
The type of heating element influences heating uniformity and longevity, impacting the furnace's overall performance.
C. Control System
An advanced control system enables precise temperature regulation, enhancing the accuracy and reliability of experiments.