VERFAHREN ZUM VORVERDICHTEN VON FLACHGLAS
    1.
    发明公开
    VERFAHREN ZUM VORVERDICHTEN VON FLACHGLAS 有权
    方法增压FLACHGLAS

    公开(公告)号:EP1021380A1

    公开(公告)日:2000-07-26

    申请号:EP98954376.4

    申请日:1998-10-08

    IPC分类号: C03B32/00

    CPC分类号: C03B32/00

    摘要: The invention relates to an easy and affordable method for precompressing flat glass panes in which a high temperature homogeneity is guaranteed in the glass. At least one flat glass pane which is situated on at least one ceramic plate is subjected to a thermal treatment ranging from 300 °C to 900 °C in radiation furnace. Said ceramic plate comprises a caloric conductibility which is at least 5 times greater in the range of the thermal treatment temperature than that of the glass pane which is to be treated. Such ceramic plates with a certain thickness can be used such that the relationship of the entire thickness of the ceramic plates to the glass staple height amounts to at least 1/μ . 40 W/mK, whereby μ represents the caloric conductibility of the ceramic material in the range of the thermal treatment temperature.

    VERFAHREN ZUM VORVERDICHTEN VON FLACHGLAS
    5.
    发明授权
    VERFAHREN ZUM VORVERDICHTEN VON FLACHGLAS 有权
    方法增压FLACHGLAS

    公开(公告)号:EP1021380B1

    公开(公告)日:2001-07-18

    申请号:EP98954376.4

    申请日:1998-10-08

    IPC分类号: C03B32/00

    CPC分类号: C03B32/00

    摘要: The invention relates to an easy and affordable method for precompressing flat glass panes in which a high temperature homogeneity is guaranteed in the glass. At least one flat glass pane which is situated on at least one ceramic plate is subjected to a thermal treatment ranging from 300 DEG C to 900 DEG C in radiation furnace. Said ceramic plate comprises a caloric conductibility which is at least 5 times greater in the range of the thermal treatment temperature than that of the glass pane which is to be treated. Such ceramic plates with a certain thickness can be used such that the relationship of the entire thickness of the ceramic plates to the glass staple height amounts to at least 1/ lambda . 40 W/mK, whereby lambda represents the caloric conductibility of the ceramic material in the range of the thermal treatment temperature.