CN106830669A

CN106830669A - One kind is without arsenic combined oxidation fining agent

Info

Publication number: CN106830669A
Application number: CN201710013151.4A
Authority: CN
Inventors: 杨镇远; 杨京安
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-01-09
Filing date: 2017-01-09
Publication date: 2017-06-13

Abstract

The invention discloses one kind without arsenic combined oxidation fining agent, according to percentage by weight, component constitutes as follows：Sb₂O₃9.5wt%~15.0 wt%, Na₂SO₄33.0 wt%~49.0 wt%, NaNO₃40.0wt%~55 wt%, Fe₂O₃＜ 0.006 wt%, NaCl≤0.35 wt%.The method have the characteristics that：The fining agent that low ferrisodium calcium-silicate very white rolled glass is used is redesigned and is combined into a kind of brand-new composite components, reduction feeding link is the advantage is that, the batch weighing time is saved, is saved manpower, mitigate labor strength, saved outside cost, the prior material that is the reduction of flies upward pollution on the environment, reduces the hygroscopy of material, improves the chemical stability of fining agent.

Description

One kind is without arsenic combined oxidation fining agent

Technical field

It is specifically a kind of multiple without arsenic the present invention relates to low ferrisodium calcium-silicate very white rolled glass production technical field Close oxidation fining agent.

Background technology

Ultrawhite（Low iron）Sodium-calcium-silicate rolled glass is widely used in solar energy industry, wherein, influence ultrawhite（Low iron） The principal element of sodium-calcium-silicate rolled glass transmitance and whiteness is ferriferous oxide form and content in glass, is contained in glass Some ferriferous oxides mainly have ferrous oxide（FeO）And iron oxide（Fe₂O₃）Two kinds of forms, ferrous oxide（FeO）Glass can Into pale bluish green, iron oxide（Fe2O3）Glass can be made into chartreuse, the change between them is also reversible, i.e. Fe₂O₃ The O of 2FeO+1/2₂, under the high temperature conditions and in the presence of having reducing agent, ferrous oxide content is dominant, makes glass Display pale bluish green；In the presence of having oxidant in batch, then batch is more to form Fe2O3 in fusion process, Make glass display yellow green, low price iron（Fe²⁺）Colorability be high price iron（Fe³⁺）15 times of colorability, its presence is tight The transmitance of glass is affected again.

When generally producing ultrawhite sodium-calcium-silicate rolled glass in addition to the special low raw material of ferriferous oxide content is selected, in production During, in order to improve the whiteness and transmitance of glass it is necessary to Fe2+ oxidations are become into Fe3+.In order to produce oxidizing atmosphere and add Fast glass metal clarification, will be in frit（Batch）Middle addition is a certain amount of can to play oxidation, and clarification can be played again The oxidation fining agent of effect, the fining agent commonly used at present has oxidation antimony powder（Sb₂O₃）, sodium pyroantimonate（Na[Sb(OH)₆]）, containing arsenic Compound clarifier etc., but in order that Sb₂O₃Or Na [Sb (OH)₆] maximum effect is played in glass metal clarification, and make glass Middle Fe2+ is oxidized to Fe3+, also to be used cooperatively with sodium nitrate and saltcake, at present, existing fining agent do not have with sodium nitrate, Saltcake is engaged, therefore effect is poor, existing upper material process is numerous and diverse in addition, the batch weighing time long, labor intensive, workman Labour intensity is big, high cost, and the easy deliquescence of material, and the chemical stability of fining agent is poor, and then also results in and produce Glass whiteness and transmitance difference defect, it is necessary to be improved.

The content of the invention

The invention aims to solve it is of the prior art in clarifying effect it is poor, upper material process is numerous and diverse, work is strong Spend big, dispensing time long, the easy deliquescence of fining agent, the defect of poor chemical stability, there is provided a kind of to come without arsenic combined oxidation fining agent Solve the above problems.

The invention discloses one kind without arsenic combined oxidation fining agent, according to percentage by weight, component constitutes as follows：Sb₂O₃ 9.5wt%~15.0 wt%, Na₂SO₄33.0 wt%~49.0 wt%, NaNO₃40.0wt%~55 wt%, Fe₂O₃＜ 0.006 wt%、NaCl ≤0.35 wt%。

Preferably, the invention discloses one kind without arsenic combined oxidation fining agent, according to mass percent, by following raw material It is prepared from：Antimony sesquioxide powder 9.52wt%~15.20 wt%, wt%~52.0 wt% of saltcake 34.2, sodium nitrate 40.2wt%~56 wt%, the wt% of water ＜ 1.0.

Preferably, preparing ultrawhite sodium calcium silicic acid without arsenic combined oxidation fining agent using above-mentioned the invention also discloses one kind The method of salt rolled glass, comprises the following steps that：

（1）, by saltcake, sodium nitrate, antimony powder be added in mixer stir mixing, then using packaging bag hermetic package, prepare Obtain standby without arsenic combined oxidation fining agent；

（2）, weigh silica sand, soda ash, dolomite, calcite, aluminium powder, be added in mixer without arsenic combined oxidation fining agent and carry out Mixing, obtains batch；

（3）, batch is added to using batch charger high temperature melting into glass melts is carried out in melting furnaces；

（4）, calendering formation carried out to glass melts using calender；

（5）, anneal in the annealing kiln after prepare ultrawhite sodium-calcium-silicate rolled glass.

Preferably, described step（2）In, according to mass percent, each raw material accounting is as follows：It is silica sand 59.68%, pure Alkali 16.7%, dolomite 14.92%, calcite 6.14%, aluminium powder 1.22%, without arsenic combined oxidation fining agent 1.34%.

Preferably, described step（3）In, described fusion temperature is 1350 DEG C~1580 DEG C.

Preferably, described step（4）In, described forming temperature is 1075 DEG C~1085 DEG C, described calendering speed It is 290~460m/h to spend.

Preferably, described step（5）In, described annealing temperature is 600 DEG C~70 DEG C, and annealing time is 20~40 Minute.

The present invention has advantages below compared to existing technology：

Ultrawhite sodium-calcium-silicate rolled glass obtained by the present invention, by adding without arsenic combined oxidation fining agent, saltcake and nitre Sour sodium is used cooperatively with antimony sesquioxide powder, solves the problems, such as to fly when sodium nitrate, the deliquescence of saltcake and antimony sesquioxide powder feeding Raise and problem is polluted to environment, make the chemical stability of antimony oxide, sodium nitrate, saltcake more preferable, and glass can be made Middle Fe2+ is oxidized to Fe3+, clarifying effect more preferably, therefore obtained ultrawhite sodium-calcium-silicate rolled glass whiteness and transmitance It is relatively good, and subtract without feeding of arsenic compound clarifier during production prepares ultrawhite sodium-calcium-silicate rolled glass Program is weighed less, the dispensing time is saved, and is compared saving manpower, is reduced labor strength, and obtains combined oxidation in preparation When fining agent is standby, using packaging bag hermetic package, effectively avoid the defect that saltcake and sodium nitrate occur deliquescence, saltcake and Sodium nitrate is not susceptible to deliquescence, also just effectively avoids hard because forming after sodium nitrate, saltcake water suction occur deliquescence or be dried The defect of block, therefore more convenient, the batch weighing precision that feeds is more accurate, and it is not susceptible to weighing accident, more conducively ultrawhite The raising of the whiteness and transmitance of sodium-calcium-silicate rolled glass.

Specific embodiment

Embodiments of the invention are elaborated below, the present embodiment is carried out under premised on technical solution of the present invention Implement, give detailed implementation method and specific operating process, but protection scope of the present invention is not limited to following implementations Example.

（4）, calendering formation carried out to glass melts using calender；

Embodiment 1

The invention discloses one kind without arsenic combined oxidation fining agent, according to percentage by weight, component constitutes as follows：Sb₂O₃ 10.82 wt%、Na₂SO₄ 33.90 wt%、NaNO₃ 54.51 wt%、Fe₂O₃ 0.005 wt%、NaCl 0.35 wt%。

The invention discloses one kind without arsenic combined oxidation fining agent, according to mass percent, it is prepared from the following materials： Antimony sesquioxide powder 10.87wt%, the wt% of saltcake 34.24, sodium nitrate 54.89wt%.

（4）, calendering formation carried out to glass melts using calender；

Described step（2）In, according to mass percent, each raw material accounting is as follows：It is silica sand 59.68%, soda ash 16.7%, white Marble 14.92%, calcite 6.14%, aluminium powder 1.22%, without arsenic combined oxidation fining agent 1.34%.

Described step（3）In, described fusion temperature is 1350 DEG C~1580 DEG C.

Described step（4）In, described rolling velocity is 290m/h, and described forming temperature is 1075 DEG C.

Described step（5）In, described annealing temperature is 600 DEG C~70 DEG C, and annealing time is 40 minutes.

Embodiment 2

The invention discloses one kind without arsenic combined oxidation fining agent, according to percentage by weight, component constitutes as follows：Sb₂O₃ 11.19wt%、Na₂SO₄ 42.39 wt%、NaNO₃45.66wt%、Fe₂O₃ 0.004 wt%、NaCl 0.35 wt%。

The invention discloses one kind without arsenic combined oxidation fining agent, according to mass percent, it is prepared from the following materials： Antimony sesquioxide powder 11.25wt%, saltcake 42.82wt%, sodium nitrate 45.98wt%, the wt% of water 0.5.

The invention also discloses one kind ultrawhite sodium-calcium-silicate calendering glass is prepared using above-mentioned without arsenic combined oxidation fining agent The method of glass, comprises the following steps that：

（4）, calendering formation carried out to glass melts using calender；

Described step（3）In, described fusion temperature is 1350 DEG C~1580 DEG C.

Described step（4）In, described rolling velocity is 375m/h, and described forming temperature is 1078 DEG C.

Described step（5）In, described annealing temperature is 610 DEG C~70 DEG C, and annealing time is 30 minutes.

Embodiment 3

The invention discloses one kind without arsenic combined oxidation fining agent, according to percentage by weight, component constitutes as follows：Sb₂O₃ 11.44 wt%、Na₂SO₄ 41.55 wt%、NaNO₃ 46.20 wt%、Fe₂O₃ 0.003 wt%、NaCl 0.35 wt%。

The invention discloses one kind without arsenic combined oxidation fining agent, according to mass percent, it is prepared from the following materials： Antimony sesquioxide powder 11.50wt%, saltcake 41.97wt%, sodium nitrate 46.53wt%, the wt% of water 0.5.

（4）, calendering formation carried out to glass melts using calender；

Described step（3）In, described fusion temperature is 1350 DEG C~1580 DEG C.

Described step（4）In, described rolling velocity is 460m/h, and described forming temperature is 1080 DEG C.

Described step（5）In, described annealing temperature is 580 DEG C~70 DEG C, and annealing time is 25 minutes.

General principle of the invention, principal character and advantages of the present invention has been shown and described above.The technology of the industry Personnel it should be appreciated that the present invention is not limited to the above embodiments, the simply present invention described in above-described embodiment and specification Principle, various changes and modifications of the present invention are possible without departing from the spirit and scope of the present invention, these change and Improvement is both fallen within the range of claimed invention.The protection domain of application claims by appending claims and its Equivalent is defined.

Claims

1. one kind is without arsenic combined oxidation fining agent, it is characterised in that：According to percentage by weight, component constitutes as follows：Sb₂O₃ 9.5wt%~15.0 wt%, Na₂SO₄33.0 wt%~49.0 wt%, NaNO₃40.0wt%~55 wt%, Fe₂O₃＜ 0.006 wt%、NaCl ≤0.35 wt%。

2. one kind according to claim 1 is without arsenic combined oxidation fining agent, it is characterised in that：According to mass percent, by Following raw material is prepared from：Antimony sesquioxide powder 9.52wt%~15.20 wt%, wt%~52.0 wt% of saltcake 34.2, nitric acid Sodium 40.2wt%~56 wt%, the wt% of water ＜ 1.0.

3. a kind of use claim 1-2 is any described prepares ultrawhite sodium-calcium-silicate calendering glass without arsenic combined oxidation fining agent The method of glass, it is characterised in that：Comprise the following steps that：

（4）, calendering formation carried out to glass melts using calender；

4. a kind of method for preparing ultrawhite sodium-calcium-silicate rolled glass according to claim 3, it is characterised in that：It is described The step of（2）In, according to mass percent, each raw material accounting is as follows：Silica sand 59.68%, soda ash 16.7%, dolomite 14.92%, Calcite 6.14%, aluminium powder 1.22%, without arsenic combined oxidation fining agent 1.34%.

5. a kind of method for preparing ultrawhite sodium-calcium-silicate rolled glass according to claim 3, it is characterised in that：It is described The step of（3）In, described fusion temperature is 1350 DEG C~1580 DEG C.

6. a kind of method for preparing ultrawhite sodium-calcium-silicate rolled glass according to claim 3, it is characterised in that：It is described The step of（4）In, described forming temperature is 1075 DEG C~1085 DEG C, and described rolling velocity is 290~460m/h.

7. a kind of method for preparing ultrawhite sodium-calcium-silicate rolled glass according to claim 3, it is characterised in that：It is described The step of（5）In, described annealing temperature is 600 DEG C~70 DEG C, and annealing time is 20~40 minutes.