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CN100360448C - Luminescent glass article and method of manufacturing the same - Google Patents

Luminescent glass article and method of manufacturing the same Download PDF

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Publication number
CN100360448C
CN100360448C CNB2004800050861A CN200480005086A CN100360448C CN 100360448 C CN100360448 C CN 100360448C CN B2004800050861 A CNB2004800050861 A CN B2004800050861A CN 200480005086 A CN200480005086 A CN 200480005086A CN 100360448 C CN100360448 C CN 100360448C
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China
Prior art keywords
glass article
glass
luminescent
luminous
luminescent glass
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Expired - Fee Related
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CNB2004800050861A
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CN1753842A (en
Inventor
益田纪彰
大岛洋
涉谷武宏
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Nippon Electric Glass Co Ltd
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Nippon Electric Glass Co Ltd
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Abstract

A luminescent glass article formed by generally uniformly dispersing luminescent substances in a glass, wherein a light transmittance is 20 to 90% when a thickness is 10 mm and an initial light emitting intensity immediately after the light of 1000 luxes is radiated thereto for 20 minutes is 200 to 4000 mcd/m<2>.

Description

Luminescent glass article and manufacture method thereof
Technical field
The present invention relates to be mainly used in the luminescent glass article and the manufacture method thereof of the housing material of laying road, buildings or inner packaging material, objet, guiding lamp, walkway lamp, floor-lamp.
Background technology
In recent years,, in material of construction, use a lot of glass articles gradually, particularly, use favourable situation of using up the glass for building purposes article that improve functional or ornamental (designability) to increase recently along with the variation of buildings.
But, the housing material of laying road, buildings or inner packaging material, objet, do not need the dark place of high brightness the guiding lamp, illuminate the head light (walkway lamp) on the next door on walkway, in order to know floor-lamp of recognizing wall or step and being provided with etc. as indispensable electricbulb of light source or luminescent lamp etc., not only She Ji degree of freedom is restricted, but also needs to safeguard.When replacing these light sources, use can absorb contained ultraviolet ray or visible rays in solar ray etc.,, its energy carries out luminous material of construction for a long time by being emitted, when being so-called luminescent glass article, then do not need to be serviced, can improve the degree of freedom of design, in addition since consumed power not also therefore consider also to receive much concern from saving viewpoint of energy.
As luminescent glass article, the glass self that proposed to have certain composition can absorb ultraviolet ray or visible rays and luminous luminescent glass article (for example with reference to patent documentation 1).
In addition, proposed with glass powder particle body and luminous material mix, agglomerating luminescent glass article (for example with reference to patent documentation 2).
[patent documentation 1] spy opens the 2000-63145 communique
[patent documentation 2] spy opens flat 11-293238 communique
But, announced in the patent documentation 1, glass self has the color that luminiferous glass article owing to can only send has respectively been determined, therefore in order to send versicolor light, must make glass, be used to produce the cost up of color distortion with corresponding with it composition.
In addition, the luminescent glass article of example shown in the patent documentation 2 is owing to the luminous material that also contains the high price of 20 quality %, so cost up, and coking property is poor, and physical strength reduces easily.
Summary of the invention
The objective of the invention is to, the physical strength height is provided, can obtain enough luminous intensities, and the luminescent glass article that can make at an easy rate and manufacture method thereof.
The inventor etc. have carried out deep research, found that, contain an amount of luminous material in the glass by making, just can obtain light transmission, do not exist only in the top layer by making, and it is all luminous to be present in inner luminous material, just can reach described purpose, thereby propose as the present invention.
Luminescent glass article of the present invention is the luminescent glass article that roughly disperses the luminous material to form equably in glass, it is characterized in that, at thickness 10mm place, transmittance is 20~90%, the light that shines 1000 Luxs after 20 minutes soon initial stage luminous intensity be 200~4000mcd/m 2
In addition, the feature of luminescent glass article of the present invention is, roughly disperses the luminous material to form in glass equably, and the content of luminous material is 0.1~5 quality %.
In addition, the feature of the manufacture method of luminescent glass article of the present invention is, a plurality of glass particles and luminous material are roughly mixed equably, and after being filled in the resistivity against fire container, the sintering by carrying out heat treated.
Luminescent glass article of the present invention is because at thickness 10mm place, transmitance is 20~90%, has enough light transmissions, so light can arrive the inside of glass article, and being present in inner luminous material can be luminous, and the light that is sent can arrive the surface in addition.Thus, since the light of irradiation 1000 Luxs after 20 minutes soon initial stage luminous intensity be 200~4000mcd/m 2, therefore just can obtain enough luminous intensities.And, transmittance is meant, making is cut into the size of 50 * 50 * 10mm, the two sides has been carried out the tabular sample of optical grinding, according to making from adjusting to the mode that the light of luxmeter direct irradiation reaches the illumination of 1000 Luxs as the luminescent lamp of light source, measure the illumination (Lux) when being inserted in sample between luminescent lamp and the luxmeter 10 times, its mean value is removed with 1000 Luxs, multiply by the value after 100.
The preferable range of transmittance is 30~80%, more preferably 40~65%.
In addition, the preferable range of initial stage luminous intensity is 250~2500mcd/m 2, more preferably 300~1500mcd/m 2
In addition, luminescent glass article of the present invention is roughly to disperse the luminous material to form in glass equably, because the content of luminous material is 0.1~5 quality %, so the physical strength height, can obtain enough luminous intensities, and can make at an easy rate.
That is, luminescent glass article of the present invention is because the content of luminous material is 0.1~5 quality %, so the sintering of glass can not hinder by the luminous material, have high mechanical strength, and the content of luminous material is few, can make at an easy rate.And, owing to have high mechanical strength, therefore just can make tabular or block.
In addition, because by the different luminous material of use glow color, or, just can easily make it to send the light of essential color by in glass, roughly containing tinting material equably, therefore just can make the different luminescent glass article of color at an easy rate.
Embodiment
Preferred 0.1~5 quality % of the content of the luminous material of luminescent glass article of the present invention.When the content of luminous material during less than 0.1 quality %, just can't obtain enough luminous intensities, when more than 5 quality %, because the flowability of glass reduces, therefore, and can't obtain enough light transmissions because welding is hindered and can't obtain enough physical strengths, even therefore be added on the luminous material of its above amount, luminous intensity also is difficult to improve, because luminous material price is higher, therefore considers also not ideal enough from the cost aspect.The preferable range of the content of luminous material is 0.3~4 quality %, and preferred scope is 0.5~2.9 quality %, and further preferred range is 1.1~2.8 quality %.
The softening temperature of the glass that becomes mother metal of luminescent glass article of the present invention is preferred below 1100 ℃.This be because, when the softening temperature of glass is higher than 1100 ℃, in order to make forming of glass, just need be made as and be higher than 1200 ℃ temperature, under this kind temperature condition, be used to the tank capacity softening transform that glass article is shaped, be difficult to be shaped, and the luminous material aging, luminous reduces easily.The preferred range of the softening temperature of glass is below 1000 ℃, more preferably below 900 ℃.
In addition, the softening temperature of the glass of luminescent glass article of the present invention is more than 650 ℃ the time, and is because physical strength, hardness uprise, therefore preferred.That is, when the softening temperature of glass more than 650 ℃ the time because interatomic bonding force grow, physical strength increases, and is difficult to breakage, and hardness uprises, and is difficult to damage is caused on the surface.Preferably more than 700 ℃.
Luminescent glass article of the present invention is when being made by soda-lime glass, pyrex, aluminum silicate glass or aluminium pyrex, and is owing to having enough chemical durabilities and physical strength, therefore preferred.Specifically,, preferably represent, contain SiO with quality % as soda-lime glass 2: 65~75%, Al 2O 3: 0.5~3%, B 2O 3: 0~7%, MgO:1~4%, CaO:5~10%, Na 2O:12~15%, K 2The glass of O:0~3% as pyrex, preferably contains SiO 2: 65~75%, Al 2O 3: 3~7%, B 2O 3: 10~15%, CaO:0~3%, Li 2O:0~5%, Na 2O:0~8%, K 2The glass of O:0~4% as aluminum silicate glass, preferably contains SiO 2: 50~65%, Al 2O 3: 15~25%, B 2O 3: 2~5%, MgO:8~15%, CaO:3~7%, SrO:0~7%, BaO:0~4%, Na 2The glass of O:0~2% as the aluminium pyrex, preferably contains SiO 2: 50~65%, Al 2O 3: 10~20%, B 2O 3: 7~12%, MgO:0~5%, CaO:0~7%, SrO:0~7%, BaO:0~4%, Na 2The glass of O:0~3%.
In the luminescent glass article of the present invention, when the luminous material when being selected from one or more compound in following one group and constituting, just can be luminous for a long time, the luminous intensity that irradiation stopped after 10 minutes reaches more than 10% of initial stage luminous intensity easily.That is, described one group is: contain one or more the MAl of rare earth metal element that is selected from a group that is made of Eu, Ce, Pr, Nd, Sm, Tb, Dy, Ho, Er, Tm, Yb and Lu micro-ly 2O 4Or M 4Al 14O 25(M is Ca, Sr or Ba), be selected from one or more rare earth metal element, micro-the Y that contains Ti and Mg in a group that constitutes by Eu, Ce, Pr, Nd, Sm, Tb, Dy, Ho, Er, Tm, Yb and Lu 2O 2S, micro-the CaS that contains Bi, micro-the CaSrS that contains Bi, micro-the ZnS that contains Cu and micro-the ZnCdS that contains Cu.
Though it is the luminous material of 0.1~5000 μ m that luminescent glass article of the present invention can use median size, preferred especially 50~5000 μ m.When median size during less than 0.1 μ m, then can be when making the luminous material roughly be evenly dispersed in the glass because of added heat make surface deterioration, luminous intensity reduces easily, when greater than 5000 μ m, then hinders the welding of glass easily.Preferred median size is 75~4500 μ m, further preferred 100~4000 μ m.
Particularly, when the median size of luminous material during greater than 50 μ m, even the surface deterioration of luminous material, because its inside is not rotten, therefore the ratio regular meeting of deterioration reduces, and compares with the very little situation of median size, because population tails off, obtain light transmission easily, therefore just obtain high luminous intensity easily.
Luminescent glass article of the present invention has the color of luminous material itself in bright place, and is when from the back side illuminaton light time, owing to having light transmission, therefore just bright by the illumination of the color of glass article in addition.On the other hand, in darker place, will present luminous material inherent glow color.Because of brightness has 3 kinds of different outward appearances, very desirable aspect designability like this.
The every 1cm of luminescent glass article of the present invention 3The number of bubble preferably below 100.Because when more than 100, light is just by bubble scattering, and light is difficult to arrive the luminous material, so luminous intensity can't be enhanced, and damages physical strength easily.And so-called bubble is meant the bubble of diameter more than 0.01mm.
It is the block or tabular of 5~100mm that luminescent glass article of the present invention can be made thickness.When thickness during less than 5mm, because the luminous amount of substance that is present on the per unit area is less, therefore be difficult to obtain fully luminous intensity, when greater than 100mm, because internal modification increases, so physical strength reduces easily.And when the thickness of luminescent glass article became big, because the luminous amount of substance that is present on the per unit design area becomes many, so luminous intensity increased easily.Like this, tabular even glass article of the present invention is made, also can have high mechanical strength, and owing to have light transmission, therefore also can be used as with the designability is the daylighting member use of purpose.
In addition, luminescent glass article of the present invention is owing to be dispersed with the luminous material equably in glass, even therefore cut off, otch also has the surperficial identical outward appearance with other.Thus, also can cut off processing or engraving.
Below, the manufacture method of luminescent glass article of the present invention is described.
At first, with a plurality of glass particles and luminous material, and add binding agent and/or tinting material as required, mix equably, be filled in the resistivity against fire container that on internal surface, has formed alumina powder and/or ceramic fiber thin slice, by making luminescent glass article in 1~10 hour 800~1200 ℃ of following heat treated.
The median size of glass particle is 0.1~50mm, preferred 0.3~30mm, more preferably 0.5~10mm.When median size during greater than 50mm, owing to comprise big bubble easily in glass article, so physical strength just is compromised easily, and when less than 0.1mm, then manufacturing cost raises, and every 1cm 3Bubbles number easily more than 100.Glass particle can use has particle tabular, bar-shaped, the granulous shape.
In addition, also the piece of glass by will containing the luminous material or pottery can be pulverized the glass particle that get, with glass that does not contain the luminous material or ceramic mix particles.
Even the resistivity against fire container preferred under 1200 ℃ the also material of softening transform not, can use mullite, trichroite, alumina-ceramic etc.And at the inner face of resistivity against fire container, setting or be coated with silicon-dioxide, aluminum oxide, zirconium white as parting agent is the ceramic fiber thin slice or the powder of principal constituent.
In addition, when carrying out heat treated in inert atmospheres such as nitrogen or argon gas, because the luminous material is difficult to oxidizedly, luminous intensity is difficult to be compromised, and is therefore preferred.
Embodiment
Below, will the present invention is described in detail based on embodiment.
Table 1 expression luminescent glass article of the present invention (embodiment 1~6), the luminescent glass article of table 2 expression luminescent glass article of the present invention (embodiment 7~10) and comparative example.
Table 1
Embodiment 1 Embodiment 2 Embodiment 3 Embodiment 4 Embodiment 5 Embodiment 6
The softening temperature of glass (℃) 720 740 720 740 740 740
Treatment temp (℃) 850 900 850 900 900 900
The content of luminous material (quality %) 2.5 2.5 2.5 2.5 2.5 2.5
Mobile
Transmittance (%) 21 25 22 25 48 50
Glow color Blue-greenish colour Blue-greenish colour Orange Orange Blue-greenish colour Blue-greenish colour
Initial stage luminous intensity (mcd/m 2) 320 300 250 220 450 440
Luminous intensity (mcd/m after 10 minutes 2) 76 67 38 27 109 97
Luminous strength ratio (%) 24 22 15 12 24 22
Visual
Physical strength (MPa) 25 30 25 30 28 30
Chemical durability (mg/cm 2) Acid resistance 0.7 0.5 0.8 0.6 0.6 0.5
Alkali resistance 1.1 0.9 1.2 0.9 1.0 0.9
Table 2
Embodiment 7 Embodiment 8 Embodiment 9 Embodiment 10 Comparative example
The softening temperature of glass (℃) 740 740 740 740 720
Treatment temp (℃) 900 900 900 900 850
The content of luminous material (quality %) 2.5 2.5 2.5 2.5 20
Mobile ×
Transmittance (%) 51 50 52 50 5
Glow color Yellow-green colour Yellow-green colour Blue-greenish colour Blue-greenish colour Blue-greenish colour
Initial stage luminous intensity (mcd/m 2) 435 445 420 350 450
Luminous intensity (mcd/m after 10 minutes 2) 89 90 90 67 99
Luminous strength ratio (%) 20 20 21 19 22
Visual
Physical strength (MPa) 27 30 27 30 15
Chemical durability (mg/cm 2) Acid resistance 0.7 0.6 0.5 0.6 0.7
Alkali resistance 1.1 0.9 0.9 1.0 1.3
[embodiment 1]
To represent to have SiO with quality % 2: Al 70.0%, 2O 3: B 2.0%, 2O 3: 4.0%, MgO:2.0%, CaO:7.0%, Na 2O:14.0%, K 2The soda-lime glass of the composition of O:1.0% is pulverized, is sieved into 0.5~2mm, and having made median size is the glass particle (A) of 0.6mm.
Then, in glass particle (A) 813g, added 21g at Sr 4Al 14O 25In contain Eu micro-ly 2+And Dy 3+Luminous material (ウ Le ト ラ グ ロ one: NP-2820: median size 20 μ m, day inferior chemical industry system), added the organic binder bond of 9g vinylformic acid-ring-alkylated styrenes class as binding agent, after having stirred 30 minutes, be filled in the earthenware porcelain receptacle with resistivity against fire, by 850 ℃ of following heat treated in nitrogen atmosphere 3 hours, made the luminescent glass article of 196 * 96 * 18mm.
And, earthenware porcelain receptacle with resistivity against fire is the trichroite system of interior dimensions 200 * 100 * 150mm, on the medial surface of container, be coated with alumina powder, on the bottom surface of container, be placed with the ceramic fiber thin slice of composition with silicon-dioxide 95 quality %, aluminum oxide 5 quality %.
[embodiment 2]
To represent to have SiO with quality % 2: Al 70.2%, 2O 3: B 5.4%, 2O 3: 13.5%, CaO:0.5%, Na 2O:6.7%, K 2The pyrex of the composition of O:2.2% is pulverized, is sieved into 0.5~2mm, and having made median size is the glass particle (B) of 0.6mm.
Then, except using glass particle (B) 779g, luminous material (ウ Le ト ラ グ ロ one: NP-2820: median size 20 μ m, day inferior chemical industry system) 20g, the organic binder bond 8g of vinylformic acid-ring-alkylated styrenes class, beyond 900 ℃ of following heat treated, identical with embodiment 1, made luminescent glass article.
[embodiment 3]
Except having used at Y 2O 2Trace contains Eu among the S 2+, Dy 3+, Ti 4+And Mg 2+Luminous material (ウ Le ト ラ グ ロ one: NP-2850: median size 30 μ m, day inferior chemical industry system) 21g beyond, identical with embodiment 1, made luminescent glass article.
[embodiment 4]
Except having used at Y 2O 2Trace contains Eu among the S 2+, Dy 3+, Ti 4+And Mg 2+Luminous material (ウ Le ト ラ グ ロ one: NP-2850: median size 30 μ m, day inferior chemical industry system) 20g beyond, identical with embodiment 2, made luminescent glass article.
[embodiment 5]
Except having used at SrAl 2O 4Middle trace contains Eu 2+, Dy 3+Luminous material (α-FLASH PB500: median size 500 μ m, LTI system) 20g, in atmosphere, carried out beyond the heat treated, identical with embodiment 2, made luminescent glass article.
[embodiment 6]
In glass particle (B) 2608g, added 67g at SrAl 2O 4In contain Eu micro-ly 2+, Dy 3+Luminous material (α-FLASH PB500: median size 500 μ m, the LTI system), the organic binder bond of 27g vinylformic acid-ring-alkylated styrenes class, after having stirred 30 minutes, be filled in the earthenware porcelain receptacle with resistivity against fire, by 900 ℃ of following heat treated in atmosphere 3 hours, made the luminescent glass article of 196 * 96 * 60mm.
[embodiment 7]
Except having used at SrAl 2O 4Middle trace contains Eu 2+, Dy 3+Luminous material (α-FLASH PG500: median size 500 μ m, LTI system) 20g beyond, identical with embodiment 5, made luminescent glass article.
[embodiment 8]
Except having used at SrAl 2O 4Middle trace contains Eu 2+, Dy 3+Luminous material (α-FLASH PG500: median size 500 μ m, LTI system) 67g beyond, identical with embodiment 6, made luminescent glass article.
[embodiment 9]
To represent to have SiO with quality % 2: Al 70.2%, 2O 3: B 5.4%, 2O 3: 13.5%, CaO:0.5%, Na 2O:6.7%, K 2The pyrex of the composition of O:2.2% is pulverized, is sieved into 2~5mm, and having made median size is the glass particle (C) of 3.0mm.
Then, use glass particle (C) 2189g, at SrAl 2O 4Middle trace contains Eu 2+, Dy 3+Luminous material (α-FLASH PB500: median size 500 μ m, the LTI system) the organic binder bond 22g of 56g, vinylformic acid-ring-alkylated styrenes class, by 900 ℃ of following heat treated in atmosphere 3 hours, made the luminescent glass article of 196 * 96 * 50mm.
[embodiment 10]
Except having used at SrAl 2O 4Middle trace contains Eu 2+, Dy 3+Luminous material (Le ミ ノ one バ BGL: median size 500 μ m, at all become privileged length of schooling) in addition, identical with embodiment 9, made luminescent glass article.
[comparative example]
Except having used at Sr 4Al 14O 25Middle trace contains Eu 2+And Dy 3+Luminous material (ウ Le ト ラ グ ロ one: NP-2820: median size 20 μ m, day inferior chemical industry system) 203g beyond, identical with embodiment 1, made luminescent glass article.
Softening temperature uses miniature differential thermal analysis meter (リ ガ Network system) to measure, and has adopted the temperature of the 4th flex point of being asked.
Flowability is to utilize the surface of the sample after the visual observation heat treated, and the sample on level and smooth glossy surface is made as " zero ", and the sample of rough lusterless uneven surface is made as " * ".In addition, glow color is in the dark to utilize visual judgement.
Transmittance is meant, making is cut into the size of 50 * 50 * 10mm and the two sides has been carried out the tabular sample of optical grinding, according to making from adjusting to the mode that the light of luxmeter (カ ス system system LX-1334) direct irradiation reaches the illumination of 1000 Luxs as the luminescent lamp of light source, measure the illumination (Lux) when being inserted in sample between luminescent lamp and the luxmeter 10 times, its mean value is removed with 1000 Luxs, multiply by the value after 100.
Glow color is in the dark to utilize visual judgement.
Luminous intensity is, making is cut into the size of 50 * 50 * 10mm and the two sides has been carried out the tabular sample of optical grinding, after sample has in the dark been placed 8 hours, shine the light 20 minutes of 1000 Luxs, use luminance meter (コ ニ カ ミ ノ Le make LS-100) respectively 10 position findings irradiation reach soon after stopping to shine and divide brightness after stopping 10 minutes, calculate mean value separately.
Visually be, making is cut into the size of 50 * 50 * 10mm and the tabular sample of optical grinding has been carried out on the two sides, after sample has in the dark been placed 8 hours, shines the light 20 minutes of 1000 Luxs, utilize visual observation to shine the sample that stops after 1 hour, whether luminously judge.
Physical strength is, sample is processed as the size of 10 * 70 * 8 (mm), uses crooked experiment machine (the system EZTest-500N of Shimadzu Seisakusho Ltd.), carried out 3 crooked experiments at length of support under 30mm, ram speed 0.5mm/min.
Chemical durability is to use acid resistance and alkali resistance to estimate.Sample is processed as the size of 25 * 25 * 5 (mm), specimen surface is carried out mirror ultrafinish, acid resistance is in 1% sulphuric acid soln, alkali resistance is in 1% sodium hydroxide solution, be determined at the quality reduction of having flooded the sample after 24 hours under 90 ℃ respectively, calculated the reduction of per unit surface-area.
The transmittance of the luminescent glass article of embodiment 1~10 is more than 20%, and the initial stage, luminous intensity was at 220mcd/mm 2More than, luminous intensity is more than 12% of initial stage luminous intensity after 10 minutes.In addition, utilize the visual luminous intensity that also can confirm fully even have.Particularly, the light transmission of embodiment 5~10 is more than 48%, and the initial stage, luminous intensity was at 350mcd/mm 2More than, luminous intensity is more than 19% of initial stage luminous intensity after 10 minutes.
In addition, good fluidity, physical strength is up to more than the 25MPa, and in addition, the acid resistance in the chemical durability is at 0.8mg/cm 2Below, alkali resistance is at 1.2mg/cm 2Below.
On the other hand, the flowability of comparative example is poor, and physical strength is low to moderate 15MPa.In addition, compare with embodiment 5~10, although the content of luminous material is more, the initial stage luminous intensity or after 10 minutes luminous intensity still be the value of same degree.
The industrial possibility of utilizing
As mentioned above, luminescent glass article mechanical strength of the present invention is high, can obtain enough luminous intensities, and can make at an easy rate. In addition, even do not light illuminating lamp, luminously also can easily know the existence of recognizing wall or step by himself, thereby the accident such as can prevent from colliding or drop to. Thus, be applicable in the housing material of laying road, building or inner packaging material, objet, guiding lamp, pavement lamp, floor-lamp, lighting structural component etc.

Claims (6)

1. luminescent glass article, it is the luminescent glass article that in glass, disperses the luminous material to form equably, it is characterized in that, the content of described luminous material is 1.1~2.8 quality %, the median size of described luminous material is 50~5000 μ m, and at the thickness 10mm place of described luminescent glass article, transmittance is 20~90%, the light that shines 1000 Luxs stops irradiation after 20 minutes, the luminous intensity when this irradiation has just stopped is 200~4000mcd/m 2
2. luminescent glass article according to claim 1 is characterized in that, the light that shines 1000 Luxs stops irradiation after 20 minutes, more than 10% of luminous intensity the when luminous intensity after stopping to shine 10 minutes has just stopped for irradiation.
3. luminescent glass article according to claim 1 is characterized in that, the softening temperature of glass is 650~1100 ℃.
4. luminescent glass article according to claim 3 is characterized in that, the glass of one or more that select in one group that glass is made of soda-lime glass, pyrex, aluminum silicate glass and aluminium pyrex is made.
5. luminescent glass article according to claim 1 is characterized in that, block or tabular for thickness 5~100mm.
6. the manufacture method of a luminescent glass article, it is characterized in that, the luminous material that with a plurality of glass particles and median size is 50~5000 μ m is that the mode of 1.1~2.8 quality % is mixed according to the content of this luminous material in luminescent glass article, and after being filled in the resistivity against fire container, the sintering by carrying out heat treated.
CNB2004800050861A 2003-04-01 2004-03-31 Luminescent glass article and method of manufacturing the same Expired - Fee Related CN100360448C (en)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
JP097960/2003 2003-04-01
JP2003097960 2003-04-01
JP337317/2003 2003-09-29
JP083270/2004 2004-03-22

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102260041B (en) * 2010-05-27 2013-10-23 信义光伏产业(安徽)控股有限公司 Super-white photovoltaic glass and preparation method and application thereof
CN101891388B (en) * 2010-07-05 2013-10-02 海洋王照明科技股份有限公司 White light emitting glass and preparation method thereof

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS4929928A (en) * 1972-07-19 1974-03-16
JPH1088126A (en) * 1996-09-18 1998-04-07 Kasei Optonix Co Ltd Luminous sintered fluorescent substance and its production
JPH10101371A (en) * 1996-09-27 1998-04-21 Naigai Ceramics Kk Inorganic artificial ceramics having light accumulating property and fluorescent characteristic and its production

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS4929928A (en) * 1972-07-19 1974-03-16
JPH1088126A (en) * 1996-09-18 1998-04-07 Kasei Optonix Co Ltd Luminous sintered fluorescent substance and its production
JPH10101371A (en) * 1996-09-27 1998-04-21 Naigai Ceramics Kk Inorganic artificial ceramics having light accumulating property and fluorescent characteristic and its production

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