JP2003112946A - Funnel glass for cathode-ray tube - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide funnel glass for a cathode-ray tube from which lead hardly eludes, differently from the conventional glass, and in which liquidus temperature hardly increases even if SrO and BaO, and further, SnO2 are contained therein. SOLUTION: The funnel glass for the cathode-ray tube is obtained by adding P2 O5 to funnel glass for a cathode-ray tube having a PbO content of 10 to 30 mass% and also having an X-ray absorption coefficient of >=40 cm<-1> in 0.6 Å.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a funnel glass for a cathode ray tube.

[0002]

2. Description of the Related Art An envelope of a cathode ray tube has a panel portion on which an image is displayed, a tubular neck portion on which an electron gun is mounted,
It is composed of a funnel-shaped funnel that connects the panel and neck. The electron beam emitted from the electron gun causes a phosphor provided on the inner surface of the panel to emit light to display an image on the panel, but at this time, a braking X-ray is generated inside the tube, and this is emitted outside the tube through an envelope. Since leakage will have an adverse effect on the human body, an envelope of this type is required to have a high X-ray absorption ability. For example, in the case of funnel glass, X
10 to 30 mass% of PbO having a large linear absorption coefficient is contained,
Lead glass having an X-ray absorption coefficient of 0.6 cm or more of 40 cm ^-1 or more is used.

[0003]

By the way, in recent years, as one of the methods of disposing of the cathode ray tube, it has been crushed and buried in the ground, but Pb contained in glass is contained.
O may elute into the ground over a long period of time. Lead is harmful to the human body, and it is feared that the eluted lead will pollute the environment.

In order to reduce the elution amount of lead, P in glass is used.
Although it suffices to reduce the content of bO, if the content of PbO is reduced by a certain amount or more, a sufficient X-ray absorption capacity cannot be obtained. To compensate for this, SrO and Ba, which have a relatively high X-ray absorption coefficient,
It is possible to include a large amount of O in the glass,
In this method, due to the influence of SrO and BaO, BaO.
2SiO ₂ and SrO · SiO ₂ crystal was precipitated, because the liquidus temperature of the glass tends to increase, productivity is a problem that decreases significantly.

As a fining agent, there is As ₂ O ₃ ,
There are environmental problems, and the use of SnO ₂ is being considered.
However, if SnO ₂ is present in the glass, crystals due to SnO ₂ are likely to precipitate, which raises the problem of increasing the liquidus temperature of the glass.

An object of the present invention is to provide a funnel glass for a cathode ray tube which is less likely to elute lead than conventional glass, and which contains SrO and BaO, and whose addition does not easily raise the liquidus temperature even when SnO ₂ is contained. Is to provide.

[0007]

As a result of repeating various experiments, the present inventors reduced PbO to reduce SrO and Ba in order to reduce the elution amount of lead and maintain the X-ray absorption coefficient.
O was contained, further, be used SnO ₂ as a fining agent, by including as an essential component P ₂ O ₅ in the glass found to be able to suppress an increase in the liquidus temperature of the glass, as the present invention It is a proposal.

That is, the funnel glass for a cathode ray tube of the present invention has a PbO content of 10 to 30% by mass, and
A funnel glass for a cathode ray tube having an X-ray absorption coefficient in Å of 40 cm ^-1 or more is characterized by containing P ₂ O ₅ .

The funnel glass for a cathode ray tube of the present invention has a PbO content of 10 to 30% by mass,
In the funnel glass for a cathode ray tube having an X-ray absorption coefficient in Å of 40 cm ^-1 or more, SnO ₂ 0.01-
2 wt%, characterized by containing P ₂ O ₅ 0.001 to 2 wt%.

[0010]

In the cathode ray tube funnel glass of the present invention, P ₂ O ₅ has a function of suppressing the precipitation of crystals due to SrO, BaO and SnO ₂ and lowering the liquidus temperature.

Since the funnel glass for a cathode ray tube of the present invention contains 10 to 30% by mass of PbO,
A high X-ray absorption coefficient of 40 cm ^-1 or more at 0.6 Å can be obtained.

The preferred composition range of the funnel glass for a cathode ray tube of the present invention is SiO ₂ 48 to 58 in terms of mass percentage.
%, Al ₂ O ₃ 0.5-6%, PbO 10-30%,
MgO 0-5%, CaO 0-6%, SrO 0.0
1-9%, BaO 0.01-9%, Na ₂ O 3-9
%, K ₂ O 4 to 11%, ZnO 0 to 1%, ZrO ₂ 0
_{~2%, Sb 2 O 3 0~2} %, P 2 O 5 0.001~2
%.

When SnO ₂ is used as a fining agent, it can be added to the above composition in the range of 0.01 to 2%.

The reason why the glass composition is limited as described above in the present invention is as follows.

SiO ₂ is a component which serves as a glass network former. When the content is 48 to 58%, the molding becomes easy and the matching with the thermal expansion coefficient of the neck glass becomes good. The preferred range is 49 to 57
%.

Al ₂ O ₃ is also a component that serves as a glass network former. When the content is 0.5 to 6%, the molding becomes easy and the matching with the thermal expansion coefficient of the neck glass becomes good. The preferable range is 1 to 5%.

PbO is a component that enhances the X-ray absorption coefficient of glass. When the content is 10 to 30%, a sufficient X-ray absorption capacity can be obtained, and the viscosity suitable for molding can be obtained. The preferred range is 11 to 28%
Is.

MgO is a component that facilitates melting of glass and adjusts the coefficient of thermal expansion and viscosity. When the content is 5% or less, the glass does not easily devitrify and the liquidus temperature becomes low, so that the molding becomes easy. It is preferably 4% or less.

CaO is a component for adjusting the coefficient of thermal expansion and viscosity of glass, like MgO. When the content is 6% or less, the glass does not easily devitrify and the liquidus temperature becomes low, so that the molding becomes easy. The preferable range is 1 to 5%.

SrO and BaO are components that facilitate melting of glass, adjust the coefficient of thermal expansion and viscosity, and further enhance the X-ray absorbing ability. The content of each is 0.0
If it is 1% or more, the above effect can be obtained. On the other hand, when the content is high, BaO.2SiO ₂ or S, which increases the liquidus temperature,
Crystals of rO.SiO ₂ tend to be easily precipitated, but if the contents are 9% or less, respectively, these crystals can be melted without being precipitated. It is preferably 0.2 to 8%, respectively. More preferable range is 0.5 to
It is 7.5%.

Na ₂ O is a component for adjusting the coefficient of thermal expansion and the viscosity. When the content is 3 to 9%, the matching with the thermal expansion coefficient of the neck glass is improved, and the viscosity suitable for molding can be obtained. The preferred range is 4-8
%.

K ₂ O is a component that adjusts the coefficient of thermal expansion and viscosity, like Na ₂ O. When the content is 4 to 11%, the compatibility with the thermal expansion coefficient of the neck glass is improved,
Moreover, the viscosity suitable for molding can be obtained. A preferable range is 5 to 10%.

ZnO is a component that improves the water resistance of glass. When the content is 1% or less, it is possible to suppress an increase in defective spots due to volatilization. Preferably 0.
It is 5% or less.

ZrO ₂ is a component that enhances the X-ray absorption coefficient of glass. When the content is 2% or less, the glass can be melted without devitrification. Preferably 1.
It is 5% or less.

Sb ₂ O ₃ is a component that acts as a fining agent. If the amount of Sb ₂ O ₃ is large, the glass tends to devitrify, but there is no problem if it is added up to 2%. It is preferably 1.5% or less.

P ₂ O ₅ is a component which suppresses the precipitation of crystals due to SrO, BaO and SnO ₂ , but 0.001
If it is less than 2%, the effect is poor, and if it is more than 2%, the glass tends to undergo phase separation. The preferred range is 0.001
It is 1.5%.

SnO ₂ is a component that acts as a fining agent. To obtain the refining effect of SnO ₂ , 0.01
% Or more must be contained. However, if more than 2%, S
Crystals due to nO ₂ are likely to precipitate. The preferred range is 0.01 to 1.5%. SnO ₂ is Sb ₂
It may be used in combination with O ₃ , or may be used alone.

In addition to the above components, B ₂ O ₃ , CeO ₂ , TiO ₂ and Fe may be used as long as the characteristics of the glass are not impaired.
Other components such as ₂ O ₃ , Co ₃ O ₄ and NiO may be added up to 1%.

[0029]

EXAMPLES The funnel glass for a cathode ray tube of the present invention will be described in detail below based on examples.

Tables 1 and 2 show examples of the present invention (Sample Nos. 1 to 5) and comparative examples (Sample Nos. 6 to 8).

[0031]

[Table 1]

[0032]

[Table 2]

Each sample in the table was prepared as follows.

First, a raw material batch prepared so as to have the composition shown in the table was put in a platinum crucible and placed at 1550 ° C. in a melting furnace.
And melted for 4 hours. Incidentally, in order to obtain a homogeneous glass, defoaming was performed by stirring with a platinum stir bar for 3 minutes during the process. Then, the molten glass was poured into a mold and gradually cooled to prepare a glass sample.

The X-ray absorption coefficient of each sample thus obtained,
The liquidus temperature and the elution amount of lead were measured, and the results are shown in the table.

The X-ray absorption coefficient is obtained by calculating the absorption coefficient for a wavelength of 0.6 Å based on the glass composition and density.

The liquidus temperature is 300 to 50 for each sample.
What was crushed to 0 μm was put in a platinum boat, and the platinum boat was held in a temperature gradient furnace at 750 to 1050 ° C. for 48 hours, then, a glass sample was taken out from the platinum boat and crystal precipitation was observed with a polarizing microscope. I asked.

Further, the lead elution amount is obtained as follows.

First, the glass sample is crushed and classified to 250
The one having a size of ˜420 μm was taken out. Next, this crushed material was washed with water, transferred to a beaker, and dried in a dryer. Subsequently, 10 g of this crushed product was placed in an Erlenmeyer flask together with 100 ml of pure water and autoclaved at 121 ° C. for 60 minutes. After that, Pb in this solution was
-The amount of lead elution was determined by quantification by the AES method.

As is apparent from the table, sample N which is an example
o. The samples Nos. 1 to 5 contained SrO and BaO even if the amount of PbO was small. Therefore, the X-ray absorption coefficient was as high as 64 cm ^-1 or more, and the amount of eluted lead was as low as 2.3 ppm or less. Further, even if the glass contains SrO or BaO, since it contains 0.01 to 0.5% of P ₂ O ₅ , the liquidus temperature is 87.
It was as low as 0 ° C or lower.

On the other hand, the sample No. which is a comparative example.
The liquid phase temperatures of Nos. 6 and 7 were as high as 880 ° C. or higher. Also,
Sample No. 8 had a high lead elution amount of 3.0 ppm.

Next, using a small melting furnace, the sample No. 1 and sample No. A funnel having a composition of 6 was produced. As a result, the sample No. BaO.2SiO for the funnel of 1
₂ and SrO.SiO ₂ did not precipitate, but sample No. 6
To the funnel is BaO · 2SiO ₂ and SrO · SiO ₂
Was deposited.

[0043]

INDUSTRIAL APPLICABILITY As described above, the funnel glass for a cathode ray tube according to the present invention reduces PbO in the glass and improves the SrO content.
Since BaO is contained, lead elution can be reduced while maintaining the X-ray absorption coefficient. Even if SnO ₂ is used as the fining agent, the inclusion of P ₂ O ₅ suppresses the precipitation of crystals due to SrO, BaO and SnO ₂ and suppresses the rise in the liquidus temperature. Therefore, it is suitable as a funnel glass for a cathode ray tube.

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Claims (3)

[Claims] 1. The PbO content is 10 to 30% by mass.
And the X-ray absorption coefficient at 0.6Å is 40 cm^-1Above
In a certain funnel glass for a cathode ray tube, P ₂O_FiveIs
Funnelga for cathode ray tubes characterized by being added
Russ. 2. SiO ₂ 48 to 58 in terms of mass percentage.
%, Al ₂ O ₃ 0.5-6%, PbO 10-30%,
MgO 0-5%, CaO 0-6%, SrO 0.01
~ 9%, BaO 0.01-9%, Na ₂ O 3-9
%, K ₂ O 4 to 11%, ZnO 0 to 1%, ZrO ₂
0-2%, Sb ₂ O ₃ 0-2%, P ₂ O ₅ 0.001-2
%, The funnel glass for a cathode ray tube according to claim 1. 3. A funnel glass for a cathode ray tube having a PbO content of 10 to 30 mass% and an X-ray absorption coefficient at 0.6 Å of 40 cm ⁻¹ or more, SnO ₂
Funnel glass for a cathode ray tube, characterized by containing 0.01 to ₂ % by mass and 0.001 to ₂ % by mass of P ₂ O ₅ .