ashing ~ 1100°c preheated airflow – to avoid cooling & ensure good uniformity rapid air...
TRANSCRIPT
ashing ~ 1100°C
• preheated airflow – to avoid cooling & ensure good uniformity
• rapid air changes – to provide air/oxygen and carry fumes away
• heavy duty ceramic material construction - to ensure longevity
• elements covered by insulation – to ensure no contamination
ashing ~ 1100°C
• preheated airflow – to avoid cooling
• rapid air changes – to provide air/oxygen and carry fumes away
• heavy duty ceramic material construction - to ensure longevity
• elements covered by insulation – to ensure no contamination
AAF11/3 & 7 Design
ashing ~ 1100°C
• preheated airflow – to avoid cooling
• air changes – to provide air/oxygen and carry fumes away
• heavy duty SiC tiles covering elements to protect - to ensure longevity
AAF11/18
Element
SiC protective tile
AAF11/18 design
Air flow inlets
air is drawn between insulation layers, pre-heating incoming airflow
inlet
chimney
pre heating
AAF11/3 & 7
pre heating
Uniformity GraphAAF 11/7
Set Temperature 815°C (Date: 01.08.00)
600
650
700
750
800
850
900
0 50 100 150 200 250 300 350 400 450 500
Distance From Rear Hot Face (mm)
Pro
be
Te
mp
era
ture
(°C
)
TC-01 (Top Left)
TC-02 (Top Centre)
TC-03 (Top Right)
TC-04 (Centre)
TC-05 (Bottom Left)
TC-06 (Bottom Centre)
TC-07 (Bottom Right)
260mm@±10°C
365mm@±20°C
uniformity graph
The coloured lines indicate temp measurement and therefore show good uniformity from front (left) to rear (right) of chamber
ashing ~ applications
some typical examples:
• ashing enviromental samples ~ Yorkshire Water Co
• ashing paint samples ~ Nippon Paint Co
• ashing rubber samples ~ Avon Rubber Co
• ashing of food containers ~ Rexon Packaging Co
• After ashing the samples are analyised using IC or AA