JPS632816A - Platinum vessel for high temperature use - Google Patents

Abstract

PURPOSE:To obtain the title platinum vessel for high temp. use capable of remarkably reducing the consumption of Pt while reducing the volatilization of Pt when the vessel is used at high temp. by coating glass on the surface of the Pt (alloy) vessel. CONSTITUTION:A coating layer 3 of the glass stable at high temp. and consisting, for example, of 68.9% SiO2, 10.2% B2O3, 8.4% Na2O, 2.8% K2O, and 1.0% Al2O3 is formed on the surface of a platinum crucible 1 contg. molten glass 2 by a dip process. The circulation of air to the surface of the Pt (alloy) is prevented by the coating layer 3 stable at high temp., the oxidation and volatilization of Pt are controlled, and the consumption of expensive Pt can be remarkably reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Field of Application) The present invention relates to a high temperature platinum container such as a glass melting crucible or a bushing for glass fiber spinning.

(Prior art and its problems) Conventionally, high-temperature platinum containers such as glass melting crucibles and glass fiber spinning bushings have been made of Pt alloys such as Pt and pt-Rh alloys. Medium, 1
When used for a long period of time under high temperature oxidizing conditions of 200 to 1300° C., Pt oxidizes and volatilizes and is consumed. For example, when used for one year, nearly 10% of the total weight is volatilized and consumed. Considering this in terms of 5 kg of weight, the loss would be 500 g.

Therefore, the present invention aims to provide a high-temperature platinum container that can reduce the volatilization consumption of PT.

(Means for Solving the Problems) A high temperature platinum container of the present invention for solving the above problems is made by coating the surface of a Pt or Pt alloy container used at high temperatures with glass.

(Function) The high temperature platinum container whose surface is coated with glass as described above has a dense nonmetallic coating layer, so ptS
When a PT alloy container is used at high temperatures, air flow to the surface is inhibited, oxidation and volatilization of PT is reduced, and the amount of PT consumed is significantly reduced.

(Example) An example of the high-temperature platinum container of the present invention will be described in the case of a glass melting crucible. As shown in Figure 1, the trunk diameter is 30 mm.
(hm, height 300 va, thickness 0.65 m, weight 5
68.9% SiO□, 1% BzOilo, N
az08.4%, K,08.4%, B a02.8%
, 812Os 1.0% was coated with a glass layer 3 having a thickness of 0.3 mm by a dipping method.

The platinum crucible 1 of the embodiment having this coating layer 3 and the platinum crucible of the same size (not shown) of the conventional example without the coating N3 were used for glass melting at 1250° C. for 6 months.
In the platinum crucible of the conventional example, 230 g of PT was oxidized and volatilized, whereas in the platinum crucible 1 of the example, 120 g of PT was oxidized and volatilized, reducing the consumption of PT by half.

As an experiment to support this, a width of 20n, a length of 701m,
A PT specimen with a thickness of 0.5fl and a coating layer of 0.3fi thick on the outer surface of the glass having the above composition by dipping, and a PT specimen of the same size with no coating layer provided at all. An experiment was conducted in which PT was heated at 1300° C. for 160 hours in the air, and the weight loss due to oxidation and volatilization of PT was measured over time, and the results shown in the graph of FIG. 2 were obtained. As can be seen from the graph in Figure 2, when a Pt specimen without a glass coating layer is heated at 1300°C for 160 hours, the
/ci of Pt was volatilized, but the PT test piece with a glass coating layer had a significantly small amount of PtO volatilization of 0.23 /d even after heating at 1300°C for 160 hours. .

In the above embodiment, the high temperature platinum container is a glass melting crucible, but it may also be a bushing for glass fiber spinning. Further, in the above example, S i 0z68.9
%, B20d0.1%, Na 208.4%, Kz0
8.4%, ]3 a 02.8%, Ajl! zch1.
0% glass, but any glass that is stable at high temperatures, such as silicate glass, soda lime glass, potassium lime glass, barium glass, or borosilicate glass, may be used. In short, any dense non-metal layer that can inhibit air flow to the PT or PT gold alloy surface of the high-temperature platinum container and suppress oxidation and volatilization of PT is sufficient. Further, the means for forming these dense non-metallic layers is not limited to the immersion method of the above embodiments, and other methods such as vapor deposition, thermal spraying, etc. may be used.

Furthermore, in the above embodiments, the outer surface of the platinum crucible is coated with glass, but it would be even more effective if the inner surface was also coated, and in this case it would be sufficient to coat it with molten glass.

(Effects of the Invention) As detailed above, the high temperature platinum container of the present invention has a fireproof coating that is stable at high temperatures on the surface of the container.
The flow of air to the Pt alloy surface is inhibited, the oxidation and volatilization of Pt is suppressed, and the amount of consumption of expensive Pt is significantly reduced.

[Brief explanation of the drawing]

Fig. 1 is a vertical cross-sectional view showing a platinum crucible which is an embodiment of the high-temperature platinum container of the present invention, and Fig. 2 is a PTFE crucible coated with glass.
2 is a graph showing the weight loss over time due to oxidation and volatilization of PT due to high temperature heating in the atmosphere of a test piece of Pt without coating and a test piece of uncoated Pt. Applicant: Tanaka Kikinzoku Kogyo Co., Ltd. 1-Platinum crucible, 3-Glass coating layer Figure 1 Figure 2 Tin amount (hr)

Claims (1)

[Claims] A high-temperature platinum container made of Pt or Pt alloy that is used at high temperatures and whose surface is coated with glass.