Method for heating a workpiece

Electric heating – Metal heating – By arc

Reexamination Certificate

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Details

C219S121600

Reexamination Certificate

active

06621048

ABSTRACT:

BACKGROUND OF THE INVENTION
The invention relates to a method for heating a workpiece.
Workpieces of all types are frequently warmed up for the most varied purposes. Thus, for example, optical elements, in particular lenses, are frequently provided with coatings on their surfaces. The layer properties are the better when the coating takes place at temperatures higher than room temperature.
It is known to heat workpieces such as, for example, optical elements by means of thermal radiation with the aid of radiant heaters such as, for example, quartz lamps. The thermal radiation emission takes place in this case with the aid of the known thermal radiation devices in their main radiation region generally in a wavelength region from 0.5 to 7 &mgr;m, mostly 2 to 4 &mgr;m for known thermal radiation devices are therefore unsuitable for workpieces which absorb no radiation in this radiation region because of their material properties. This holds inter aila for optical elements which are optically transparent in a very wide IR wavelength region which exceeds the said region such as, for example, for lenses made from calcium fluoride (CaF
2
), and which are optically transparent up to an IR wavelength region of approximately 9 &mgr;m. The absorption of the substrate material then rises from approximately 0% to approximately 100% in the region from 9 &mgr;m to approximately 12 &mgr;m. This means that radiant heaters conventionally employed, which emit the majority of their thermal radiation in the region from approximately 0.5 to 7 &mgr;m, are therefore poorly suited for heating such lenses.
Moreover, calcium fluoride is a material which is very brittle and sensitive to thermal shock and should not exhibit any large temperature gradients when being heated up and cooled down, since otherwise it is necessary to accept the possibility of material destruction. This destruction can occur, for example, owing to instances of erosion, cracks, structural changes and the like.
Irrespective of the fact that because of the optical transparency conventional thermal radiation devices are poorly suited for processing, for example coating calcium fluoride, warming up the latter is also problematical with regard to the temperature responses named above.
It is therefore the object of the present invention to create a method of the type mentioned at the beginning with the aid of which warming up by means of thermal radiation can be used even in the case of materials which it has so far been possible to heat up by means of thermal radiation only with difficulty. This holds, in particular, for optical elements which are optically transparent over a large IR wavelength region and which also react sensitively to temperature increases,
SUMMARY OF THE INVENTION
By using radiation devices which emit beams in a wavelength region of greater than approximately 9 &mgr;m, it is possible to process, for example to coat, even workpieces which absorb no radiation over a large IR wavelength region or are optically transparent. It is thereby possible for even sensitive workpieces to be heated or warmed up in a simple way to a desired temperature range.
The inventors recognized in a very advantageous way which was not obvious that it is possible to employ a laser, in particular a CO
2
laser, which has an operating wavelength &lgr; of 10.6 &mgr;m for pinpointed heating. A CO
2
laser has previously been used for the processing of materials such as, fox example, separation or the introduction of bores. This means that according to the invention such a laser is now being used for a completely novel application.
The inventors have surprisingly recognized that even optical elements, in particular lenses made from calcium fluoride material, which are very sensitive and optically transparent over a large IR wavelength region can be heated by means of thermal radiation when this is allowed to take place specifically not only in a region in which these absorb the thermal radiation, but in the transition region between optical transparency and the absorption of radiation. Even sensitive materials can be heated by means of this pinpointed thermal treatment without the occurrence of material damage. This is to be ascribed to the fact that it is not possible for the incident beams to be “completely” converted into heat on the surface in the transition region, but that there is still partial traversal. Local overheating, and thus the risk of material damage, is avoided in this way.
Taking account of the relatively high production costs for CaF
2
optical components, it is possible in this way for the material yield to be substantially increased by reducing rejects on the basis of material damage. The optimal heating regime can be determined by setting heating time and temperature gradient in a way defined by the invention. The transit times can also be reduced in this way. A further advantage consists in that owing to the exact temperature characteristic and the defined temperature conditions the subsequent coatings can be performed under optimal conditions, and so the coating also becomes better overall.
In addition to a use for lenses made from calcium fluoride material, the invention is also, of course, suitable for other workpieces made from calcium fluoride.


REFERENCES:
patent: 3933970 (1976-01-01), Rosette et al.
patent: 4038201 (1977-07-01), Hargreaves
patent: 4101331 (1978-07-01), Anderson
patent: 5649040 (1997-07-01), Ljungqvist et al.
patent: 6067931 (2000-05-01), Ghezzo et al.
patent: 6417057 (2002-07-01), Takemura et al.
patent: 6442311 (2002-08-01), Barbarossa et al.

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