1 / 22

Can Traditional Pot Materials be Substituted by Modern Materials? Bo Jonson

Can Traditional Pot Materials be Substituted by Modern Materials? Bo Jonson. School of Technology and Design Department of Chemistry – Glass Group. Contents. Pot furnace – still alive ? Clay pretreatment requirements Glass contact performance of clay type materials

vsamuel
Download Presentation

Can Traditional Pot Materials be Substituted by Modern Materials? Bo Jonson

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Can Traditional Pot Materials be Substituted by Modern Materials?Bo Jonson School of Technology andDesign Departmentof Chemistry – Glass Group

  2. Contents • Pot furnace – still alive ? • Clay pretreatment requirements • Glass contact performance of clay type materials • Requirements and objectives for new materials • Performance during glass contact of candidate materials • Conclusions Bo Jonson ICF 2004

  3. Retro .. Tank*and pot furnace campaign times* tank data from M Maquet, Proc. ICG, Brazil 2003 Bo Jonson ICF 2004

  4. Why are pot furnaces still in use? Pros: • Flexibility in operation - rapid change of glass composition/colour • Low investment/ repair costs Bo Jonson ICF 2004

  5. … but there are disadvantages ! • Complicated pre-treatment of clay pots • Batch charging => thermal shock • Worse glass quality compared to continous melting • Higher specific energy consumption (up to 10 kWh/kg glass !) Bo Jonson ICF 2004

  6. ..(2nd) but why not develop/adopt a new refractory pot material ?? • EU Craft project with this objective initiated 2003 • RTD – Sweden and UK • SME partner representing: • Glass industry • Furnace and refractory manufactures • Sweden, UK, France, (….Italy) Bo Jonson ICF 2004

  7. Novel pot project - workpackages • Fault inspection - statistics and defect analyses • Material selection - corrosion studies - material data - FEA studies - coating/glazing development • Prototype development • Industrial validation Bo Jonson ICF 2004

  8. Clay pot pretreatment requirements <-Tempering 7 days -> Densefiring and Glazing 20 hours Bo Jonson ICF 2004

  9. Clay material glass contact performance – lab. experience • Alumina-silica type materials containing approx. 5 % other elements • Lab experiments indicate corrosive volume losses ranging from 10 – 40% the first 24 hours Chemistry in wt-% Bo Jonson ICF 2004

  10. Clay material glass contact performance – industrial experiences/defect composition • Stones  Primarily consist of unreacted SiO2, Al2O3 and TiO2 . Reactions with K2O in glass form leucite or other feldsparic compounds Cords • EDX analysis show enrichment in Al2O3 (TiO2) • Defects are of clay origin Feldsparic crystals Al2O3 37% SiO2 46 % K2O 10% Na2O 4% TiO2 2 % Bo Jonson ICF 2004

  11. Clay material glass contact performance – industrial production experiences • Rejects/2nds is as much as up to 30% (s =10%) of produced glass • Defects originating from clay amounts to around 50% of the glass faults • Contributing to large variance of process performance –very difficult to apply statistical process control ! Al2O3 - SiO2 69 % K2O 9% Na2O 7% TiO2 - PbO 9 % Al2O3 12% SiO2 63 % K2O 12% Na2O 5% TiO2 1 % PbO 3 % Bo Jonson ICF 2004

  12. SV & OF Clay material dissolution • Lab study show a continous dissolution without formation of any protective phases • Crystallography of clay – mainly quartz, cristoballite, sillimanite, caolinite and mullite SiO2 phase Al2O3 needles Bo Jonson ICF 2004

  13. Requirements and objectives for new pot materials • Resistant to thermal shock • Mechanical stability • Superior performance in terms of corrosion • Suitable for room temperature coating • Less complicated pretreatment • Suitable for pot manufacturing Bo Jonson ICF 2004

  14. Candidate materials ! Chemistry in wt-% • Frisil H -sillimanite type • AZS G6 • CAZ 20 • Tialite G10 • R (recycled) AZS Bo Jonson ICF 2004

  15. Performance testing of new materials • Dynamic corrosion in molten glass • Thermal shock • Thermal expansion • Thermal conductivity • E-modulus • Stress/strain behaviour Corrosive volume loss Bo Jonson ICF 2004

  16. Other project activities • FE analysis • Coating/glazing development and testing Bo Jonson ICF 2004

  17. Testing of crucibles made from new materials - 24% PbO crystal 5 days- 8 weeks 5 kg crucible trials Bo Jonson ICF 2004

  18. 5 kg crucible trials 2% reduction of wall thickness 5% reduction of wall thickness Bo Jonson ICF 2004

  19. What more to do in the project ?? • Trials with 5 kg crucible glazed at room temperature • Prototype development – production of full sized pot • Industrial validation Bo Jonson ICF 2004

  20. Preliminary conclusions • Clay material is low performing in terms of corrosion resistance towards molten glass • Clay material shows a continous dissolution without forming protective phases • All candidate materials show an improved corrosion resistance towards molten glass • Thermo mechanical properties of candidate indicate promising performance for CAZ20 and Frisil– industrial scale performance to be verified Bo Jonson ICF 2004

  21. Q & A • Can Traditional Pot Materials be Substituted by Modern Materials? • In lab/small scale – YES ! • In industrial scale – ?? - to be answered Bo Jonson ICF 2004

  22. Acknowledgements –I would like to Thank.. • The novel pot consortium for technical and suggestive input to the paper and their permission to present some results • The ECfor permission to publish project results and financial support • Mr Jonathan Schneider for performing a lot of lab studies in his diploma work, Bo Jonson ICF 2004

More Related