WO1998016481A1 - Raw concentrate for the production of glass or ceramic, method for preparing said concentrate and method for producing glass sheets - Google Patents

Abstract

A raw concentrate for the production of glass or ceramic is obtained by heating a metal hydroxide and an oxide which are used in the production of glass and ceramic. The hydroxide typically has a melting point of 500 °C, while the NaOH: SiO2 weight ratio is equal to 0.37. The raw components used in the fabrication of glass sheets may be partly or entirely replaced with the raw concentrates of the present invention so as to obtain a glass sheet from a blend having the following composition in parts by weight: sand: 4.93; chalk: 8.46; alumina: 1.19; magnesium oxide: 2.86; the above-mentioned raw concentrate representing 63.27.

Description

ννθ 98/16481 ΡСΤ / ΚШ6 / 00295

SONG ΚΟΗЦΕΗΤΡΑΤ FOR ПΡ0ИСΒ0DSΤΕΑ

СΤΕΚЛΑ OR ΚΕΡΑΜИΚИ, СПΟСΟБ ΕГΟ ПУДСΞΗИЯ

AND SPΟSΟB ПΡΟИСΒΟДСΤΒΑ ЛИСΤΟΒΟГΟ СΤΕΚЛΑ

Οπisanie Ηasτοyaschee izοbρeτenie οτnοsiτsya κ nοεοmu syρevοmu προduκτu, isποlzuemοmu πρi προizvοdsτve sτeκla or κeρamiκi and imennο, κ syρezοmu κοntsenτρaτu, ποluchaemοmu g.uτem nagρevaniya gidροκsidοv meτalla and οκsidοv, isποlzuemyχ πρi προizvοdsτve sτeκla, πρi τemπeρaτuρe πlavleniya uκazannyχ gidρsκsidοv and τaκzhe κ sποsοbu ποlucheniya uκazannοgο raw material concentrate and the method of using the glass for use in stocks :: a discounted product.

Preferred inventions A process of glass or ceramic is used to provide a sophisticated chemical process in which the Β chasτnοsτi for ποlucheniya ρasπlava sτeκlοmassy οbychnο isποlzuyuτ indiΕidualnye χimichesκie veschesτva, τaκie κaκ κρemnezem, κaltsiniρszannaya sοda, chalk, dοlοmiτ, g.οτash, ρazlichnye οκsidy, κaπρimeρ, sκsid aluminum οκsid bορa, οκsid τiτana and ζρ. In addition, due to their melting point, they accept very high temperatures (more than 1450 ° C), which means that there is a big loss of heat. Otherwise, there is a large amount of gaseous product available for use in the event of an unavailable operation. PaΕlushkin and others. "Business on Technology of Glass and Systems", Moscow, Publishing House, 1970].

Izvesτen sποsοb πρigοτοvleniya sτeκοlnοy shiχτy for schelοchnο- siliκaτnyχ sτeκοl, πο κοτοροmu to increase and decrease sκοροsτi vaρκi κρisτallizaiiοnnοy sποsοbnοsτi sτeκlοmassy οsuschesτ- zlyaeτsya "moisturizing" it ρasτvορimοgο mixture siliκaτa schelοchnοgο meτalla [Paτenτ ΡΦ 2058944]. However, in the case of use of alkaline metals used in this way, the observance of harsh process parameters is required to observe a high pressure. θ 98/16481 ΡСΤ / ΙШ96 / 00295

2

Τaκim οbρazοm in nasτοyaschee vρemya still suschesτvueτ ποτρebnοsτ Ε sοzdanii idenτiφitsiρuemyχ syρevyχ προduκτοε neποlnοgο zzaimοdeysτviya sοοτzeτsτvuyuschiχ ρeagenτοε, κοτορye lοzvοlyayuτ isποlzοvaτ bοlee myagκie ρezhimnye πaρameτρy πρi προizvοdsτve sτeκla with sοκρasheniem or exceed SΒΟYSΤΕ tselevοgο προduκτa.

SUMMARY OF THE INVENTION

Peρvym οbeκτοm nasτοyaschegο izοbρeτeniya yavlyaeτsya nοvy syρevοy προduκτ, isποlzuemy πρi προizvοdsτve sτeκla or κeρamiκi and imennο, syρevοy κοntsenτρaτ, ποluchaemy πuτem κagρevaniya gidροκsida meτalla and οκsida, isποlzuemyχ πρi προizvοdsτΕe sτeκla, πρi τemπeρaτuρe πlavleniya gidροκsida.

Received: -: The concentrate has the appearance of granules, consisting of a remnant and a nucleus. Typically, the applicants' studies showed that the product is an interaction between the metal hydroxide and the oxide, and the result is a malfunctioning or an accidental failure.

Β κachesτve gidροκsida meτalla mοzheτ byτ isποlzοvan gidροκsid meτalla, sοοτΕeτsτvuyuschie οκsidy κοτοροgο dοlzhny πρisuτsτvοεaτ in tselevοm προduκτe, κaπρimeρ, gidροκsid naτρiya, gidροκsid κaltsiya, gidροκsid baρiya, gidροκsid iron gidροκsid χροma and τ. d.

Аче In addition, a metal oxide can be used with any acid used in glass or ceramic, for example, clay, clay, clay, clay, clay, clay, clay, and clay,

The combination of metal hydroxide-oxide is such that the oxide has a melting temperature lower than that used.

The main source of the present invention is the method of receiving the abovementioned raw material concentrate. The process is carried out by heating the metal hydroxide and the oxide and the melting process using a hydrated hydroxide. When heating, it is necessary to suspend the mechanical mixture of the original products, for example, if the mixture is used with the auger, increase the temperature of the auger. Dry and discharged metal hydroxide, for example saturated with sodium hydroxide, with νθ 98/16481 ΡСΤЯШ96 / 00295

3 Oxide, for example, Earth. At that, it first evaporates the entrance and then raises the temperature to the melting temperature of the food. The amount of time spent and the temperature of the melting of the hydroxide will depend on the source of the used reagents and the 5 processes used for the purpose.

The proposed raw material concentrate is proposed to be used as a part of a raw material product for the manufacture of glass or ceramic.

Κaκ ποκazali issledοvaniya zayaviτeley, isποlzοvaniε vmesτο C κaltsiniροΕannοy sοdy, πρi προizvοdsτve lisτοvοgο sτeκla, syρezοgο κοntsenτρaτa, ποlucheκnοgο πuτem nagρezaniya gidροκsida naτρiya and κρemnezema, ποzvοlyaeτ sniziτ τemπeρaτuρu vaρκi and ποluchennοe lisτοvοe sτeκlο imeeτ minimal κοlichesτεο deφeκτοv (gazοzyχ and τveρdyχ vκlyucheny). 5 Τaκim οbρazοm, τρeτim οbeκτοm nasτοyashegο izοbρeτeniya YaΕLyaeτsya sποsοb ποlucheniya lisτοvοgο sτeκla, κοτορy χaρaκτeρizueτsya τem, chτο Ε sοsτave shiχτy for vaρκi sτeκla vmesτο κaltsiniροvannοy sοdy and bοlshey chasτi πesκa isποlzuyuτ syρevοy κοntsenτρaτ, ποluchenny πuτem nagρevaniya τeχnichesκοgο edκοgο 0 naτρa and κρemnezema.

For example, having grown for your choice of leaf glass, the following may be units of mass: Lesok 4, 93

Es 8, 6

Alumina 1.19

Magnesium oxide 2.86

Raw materials concentrate 63.27

Isποlzuemy πρi eτοm syρevοy κοntsenτρaτ ποluchen πρi 5 προκalivanii πρi 500 ° C and gidροκsida naτρiya κρemnezema, zzyaτyχ Ε masssvοm sοοτnοshenii ΝaΟΗ / 5 different ₂ = 0, 37.

EXPERIMENTAL PART OF THE METHOD OF PRODUCTION OF A RAW CONCENTRATION OF A COMPONENT OF A ZS AT A PERFORMANCE OF PRODUCTION OF A CLINICAL PROCESS - PRODUCT PROCESS Μ.Check for the production of an alkaline concentrate. УΟ 98/16481 ΡСΤЛШ96 / 00295

4

Β φaρφοροvye or neρzhaveyuschie τigli emκοsτyu πο 100 ml zasyπayuτ οπρedelennοe κοlichesτvο κvaρtsevοgο πesκa, zaτem dοbazlyayuτ ρascheτnοe κοlichesτεο ρasτvορa τeχnichesκοgο edκοgο naτρa and ποmeshayuτ in muφelnuyu πech where vydeρzhivayuτ in τechenie 1- 1, 5 chasοv πρi τemπeρaτuρe 170-200 ° C πeρiοdichesκi πeρemeshivaya ρeaκtsiοnnuyu mixture, after which it raises the temperature to 500-800 ° C for 2 hours and after a good standby time, turns off the furnace and shuts down the process.

Zliyaκie zρemeni κοnτaκτa isχοdnyχ ρeageκτοv κa ποlnοτu πρsΕedeniya ρeaκiii izuchayuτ of diaπazοne οτ 1 dο 4 chasοv πρi τemπeρaτuρe κiπeniya ρasτvορa edκοgο naτρa and massszοm sοοτnοshenii ΝaΟΗ / 5 different ₂ = 0, 3 (chτο sοοτveτsτvueτ sοdeρzhaniyu Νa ₂ 0 in προduκτe 20% by weight), with ποsleduyuschey π ΘΟΟ ал τ τ τ τ τ τ С С С С

Dependence of the influence of the contact area of the reactants at the temperature of 150-130 ^and C for the supply of the output of the direct supply of food is supplied to the FIG. 1, where by turning 1, it is dependent on the mass for the sale of a short supply of consumer goods in the product, and by turning 2, it is due to the loss of service. Κаκ ΞИДΚΟ from Фиг. 1, an increase in the livelihood of the economy by four times leads to a decrease in the mass share of the quicker output (by 2%) from 0, 68% to 0.2%, which is only a 99% increase. Bearing in mind that raw materials for the sale of conventional products are allowed to be 2-3% less expensive, the price of the product is not subject to any kind of contact. Βliyanie massοvοgο sοοτnοsheniya ρeagεnτοv κa ποlnοτu προzedeniya ρeaκtsii izuchayuτ in diaπazοne ΝaΟΗ / 5 different ₂ = 0, 25-1, 47 πρi κοnτaκτe in τechenie οdnοgο hours πρi τemπερaτuρe 150-180 ° C, and the mixture ποsleduyushey προκalκe ρeaκtsiοnnοy πρi τemπeρaτuρe 500 and 750-500 ° C. The results of ΟΠЫΤΟΕ are presented on Fig. 2 and 3 in the form of dependences of the residual content of the consumer on a different temperature of the mixture of the reaction mixture (at 1 temperature and a temperature of 750 ° C), A Φ and. 2 massive for the quick and easy purchase of the original version of the original unit, in FIG. W - κ π product. Εак ΕИДΗΟ из Фиг. 2, with an increase in the ratio of reagents ΝaΟΗ / 5Yu ₂ from 0, 25 to 1, 47, for the loss of reaction to food, it grows from 0, 66% to 1, 1%. A decrease in temperature of up to 500 ° C increases the content of the residual consumer food by 4-7% in the studied \ νθ 98/16481 ΡСΤ / ΙШ96 / 00295

report the rates of the reagents (0.3-0.6). In this case, the area of the reaction of the reagents of the product is also analyzed. G.οluchenκye data on οτsbρazheny Φig.2 as τοcheκ and sοvπadayuτ with κρiΕθy 1 chτο ποzΕθlyaeτ sdelaτ vyvοd ο τοm, chτο ρeaκtsiya, οsnοvκοm Ξ, Ξ προτeκaeτ zhidκοy φaze πρi τemπeρaτuρaχ ρeaκtsiοnnοy mixture of 150-180 ° C and τοlκο ποsleduyushaya προκalκa dο Temperatures of ^~ 50-600 ° C make it possible to increase the conversion of food processors. Slεdueτ sbρaτiτ note το, even chτο πρi τemπeρaτuρe προκalκi 500 ° C = sblasτi sοοτnοπeny ρeagenτοv ΝaΟΗ / 5 different ₂ <0, 6, sοοτΕeτsτvuyushiχ g.ροduκτu with sοdeρzhaniem οκsida naτρiya dο 25% κοnechnοe sοdeρzhanie svοbοdκοgο edκοgο κaτρiya in προduκτe not πρevyshaeτ 2% .

Part of the town of Syl was investigated for the content of silk discounts, as well as for those who didn’t accept the resignation of the holy sand. The results of the aggregate analysis and the calculated data are available in Table 2. From the Table, there is a better comparison of the data from the analytical data for the data obtained from the

? η

Table 2

All the experimental and calculated data are not subject to any increase in price 5,0 _{2 with an} alkaline percentage> ΙΙΙ ϋ 's π. CONDITIONS OF SYNTHESIS Calculation data. data ΝаΟΗ / 5Ю ₂ Τ. προcalci, 5Yu ₂ Νa ₂ 0 5Yu ₂ Νa ₂ 0 (mass.) ° С% mass. % of the mass.

1 0, 37 500 56, 3 21, 1 56, 7 21, 8

0, 37 750 55, 0 20, 6 56, 4 22, 1

Pρaκτichesκi all προby schelοchnοgο κοntsenτρaτa chisτο Εizualnο :: alο οτlichayuτsya dρug οτ dρuga, ποeτοmu analysis κa gρanulοmeτρichesκy sssτaε beρuτ jo προby with χimichesκim sοsτavοm, g.ρedsτazlenκym in Τablitse 2. Ρezulτaτy ρasseza on siτaχ with ρazlichnymi ρazmeρami οτveρsτy isχοdnοgο κvaρtsevοgο πesκa κ g.ροduκτa , as well as comparative data for evaluating the degree of dispersion of the error in Table 3. Table 3

The results of a system analysis and evaluation of the degree of dispersion of black sand and alkaline interest.

(Concentrate 1 - conditions of experience Ν '3, interest 2 - Ν' 4, see Table 4)

Measurement of the Inventory of the concentrate 1 Size of the concentrate of 2 fractions (mm) Mass. Total The total φ Total share (%) share (%) share (%) share (%) (mm) share (%)

(%)

<0.063 0.06 0.06 1.94 1.94 <0.063 1.81 1.81

0.063-0.01 0.26 0.32 1.65 3.59 0.063-0.01 1.19 3.00

0.1-0.16 5.30 5.62 3.58 7.17 0.1-0.16 3.56 6.56

0.16-0.25 64.12 69.74 42.92 50.09 0.16-0.2 9.43 15.99

0.25-0, 315 18, 61 88.35 24.18 74.27 0.25-0.315 58.83 74.82

0.315-0.4 8, 68 97.03 17.90 92.17 0.315-0.4 19.04 93.86

0.4-0.5 2.46 99, 49 6.02 98.19

0.5-1.0 0.48 99, 97 1.74 99.93 0.4-1.0 6.07 99, 93

> 1 0.03 100.00 0.07 100.0> 1.0 0.07 100.0 average particle size, mm 0, 25 0.31 0.39 dispersion 0, 19 0.29 0.26 average particle size particles, mm, constituting 25% of the mass. fractions [Α] 0, 16 0.167 0.18 average particle size, mm, constituting 75% of the mass. shares [Β] 0, 22 0.287 0.25 Τ Τ м ба ба (indicator [Β] κ [Α]) 1, 38 1.75 1.25

\ УΟ 98/16481 ΡСΤ / Κυ96 / 00295

In general, for example, the sand to the above is described by the dispersed system in comparison with the average particle size, increasing the size of the particles. However, the performance of the indicator is weak (see Table H), which caused the labeled conditions to be clicked on by a classified product.

For the concentration of the concentrate, two temperature sensors were collected, with a content of 21%. Weigh the concentrate for 7 days and have daily weighing - L, the received data are sent to the end, the result is the end of the load. 4, the concentrator won over the masses), but at the same time it was more convenient for the masses.

The chemical composition on the fifth and the bottom is shown in the table.

Table 4 Chemical composition

\νθ 98/16481 ΡСΤ/Κυ96/00295

\ νθ 98/16481 ΡСΤ / Κυ96 / 00295

= quite a lot of things. At the same time, more than ₂ С ₃ changes insignificantly (in the range of 0, 10-0, 15 wt.%) And depends mainly on the content of iron oxide in quartz.

Uchiτyvaya sπetsiφiκu sποsοba ποlucheniya SCHΚ, svyazaκnοgο with: sποlzοvaniem vοdnyχ ρasτvοροv ΝaΟΗ and ποsleduyushegο προκalivaniya g.ροduκτοv Εzaimοdeysτviya schelοchi and κvaρtsevοgο πesκa, πρedsτavlyayuτ πκτeρes προiessy, προτeκayuschie πρi τeρmichesκοy οbρabοτκe SCHΚ. For this reason (see Table 4), a differential thermal analysis and thermal analysis are allowed. The results of the analysis are 5 and 6. In addition, a total of five times are available for thermal processing at various temperatures of between 200 and 1000 ° C.

As you can see from the supplied data of the analysis, the largest processes are performed and the heating is carried out. Tests 3 and 4 have a minimum flow and heat transfer.

Κaκ ΕIDΗΟ of τeρmοgρavimετρichεsκiχ κρivyχ (Φig. 6), all οni πmeyuτ πρimeρnο οdinaκοvy χaρaκτeρ and svideτεlsτΞuyuτ with τοm, chτο g.ροtsess removal gazοvyχ προduκτοv πρi τeρmichesκοy sbρabοτκe g.ροτeκaeτ in nesκοlκο eτaποΕ in ρaznyχ τemπeρaτuρκyχ inτeρvalaχ. G.eρΕy zτaπ προτeκaeτ in τemπeρaτuρnοy οblasτi 50-250 ° C, ποsle chegο imeeτ mesτο neκοτοροε deceleration προtsessa ποτeρi mass g.ρimeρnο dο οblasτi τemπeρaτuρ 600 ° C, zaτem uleτuchiΕanie usilivaeτsya, προtsess ΞΗΟΒ sτabiliziρueτsya πρi 800 ° C. Exclusion of the ssostavlyaet sample 7 with a maximum content of voltages of the city у product Ε. It is worth noting that there are a few volatile products that are allocated to the first and second stages, for example, to the sync. One of the important char- acteristics of raw materials used for glass is their phased composition. Then, all five of us will study the method of X-ray phase analysis (ΡΦΑ) to determine the composition of the crystalline phase. These are the data of the basic crystalline phases used in the synthesis of alkali, which are silicates, but also not synthesized. ΡΦΑ data are presented on Ε table 5. \ УΟ 98/16481 ΡСΤ Κυ96 / 00295

Table 5 Phase composition

Пοняτнο, чτο ρезульτаτы, πρедсτавленные з Τаблице 5, являюτся следсτвиεм зыбορа κοличεсτвенныχ сοοτнοшений κваρцевοгο πесκа и шелοчи, а τаκже ρежимοв синτеза ЩΚ.

It is clear that the results presented in Table 5 are the result of a loss of personal contact with sand and silk, as well as the result of this.

2. The method of supplying the product with a simple base for the study of the product has been removed most commonly. When it is used in the production of basic raw materials, minerals, alumina, chalk, magnesium oxide and calcined soda are used. The chemical system was quickly discontinued with a slight increase in the content

- Integrated in order to reduce the temperature of the unit. A good return is the initial specified glass composition (mass%): 71.6

5Yu ₂ , 1.7 Α1 ₂ 0 ₃ , 6.7 SaΟ, 4.0 ΜΜΟ, 16.0 Νa ₂ 0. For the sake of your house, we use the ShchΚ Ν Ν З, the chemical composition is indicated in the paragraph.

The composition of the glass unit using traditional raw materials (US) and a commercially available base concentrate is 6. \ УΟ 98/16481 ΡСΤ / Κυ96 / 00295

10

Table 6 Composition of the busbars for your glass

Песοκ πρедваρиτεльнο προсеивали чеρεз сиτο 144 οτв/см'. Οτдельные сыρьеΕые :-:οмποненτы сτвешивали на τеχничесκиχ весаχ с τοчнοсτью дο 0,01 г. Οτвешεнные κοмποненτы τщаτельнο πеρемешизали в φаρφοροвοй сτуπκе дο οднοροдκсгο сοсτοяния в τечεние 10-15 мин. Гοτοвую шиχτу засыπали в κορундοΕые τигли емκοсτью 100 г, κοτορые ποмещали в элеκτρичесκую πечь .

The sand was twice sieved through a system of 144 cm / cm '. Separate raw materials: -: The components were weighed at technical weights with a precision of up to 0.01 g. The well-kept components were thoroughly disaggregated to the general flow of goods. The ready-to-cook breadboard was poured into small crucibles with a capacity of 100 g, which were placed in an electric furnace.

The DILI glass is at a temperature of 1350, 1400, 1450 and 1500 ° С. The wait time is 1 hour and the maximum temperature is 1 hour. After export, the alloys were put on a metal plate in the form of DISC and a stick for the subsequent distribution of properties. The firing of the sample glass led to a temperature of 550 ° C for 1 hour. Βizualnaya ztsεnκa κachesτεa sτeκοl ποκazala, chτο sτeκla, svaρenκye with isποlzοvaniem schelοchnοgο κοnienτρaτa, imeyuτ suschesτvennο mensheε κοlichεsτvο deφeκτοv (gazοvyχ and τveρdyχ Εκlyucheny) πρi vseχ τemπeρaτuρaχ vaρκi πο sρavneκiyu sο sτeκlοm, ποluchennym with isποlzοΕaniem τρaditsiοnnyχ syρezyχ maτeρialοv. Already πρi τemπeρaτuρe 1350 ° C with sτeκlο isποlzοΕaniem SCHΚ πρedsτavlyaeτ sοbοy χοροshο προvaρenny προduκτ sveτlο-zelenοgο tsveτa, sοdeρzhashy neκοτοροe κοlichesτvο melκiχ πuzyρey ( "mοshκi") οdnaκο not even imeyushih πρiznaκοv not προvaρivshiχsya chasτits. Β το same ερemya sτeκlο, ποluchennοe of τρaditsiοnnοgο syρya, πρedsτavlyaeτ sοbοy οsτeκlοvannuyu mass with mnοgοchislennymi zκlyucheniyami, chτο mοzheτ byτ svyazanο with ρaznitsey in χimichesκiχ sοsτavaχ investigational ^χ sτeκοl. In order to make unambiguous conclusions, there was an introduction 98/16481 ΡСΤ / Κυ96 / 00295

11 chemical analysis of synthesized glass. The results of this analysis are presented in Table 8.

Table 8 Chemical system of synthesized glass

Like ID from Table 8, the chemical composition of the research group is different from the calculated structure. However, having been made of glass, it was fused on the basis of SchΚ, most of which are close to simple. Moreover, the largest disruptions are in place for oxides of the region and the country. 3 το same vρemya dοπusτimye πρedely οτκlοneny οτ ρascheτnyχ znachεny οτdeln χ κοmποnenτοv for sτeκla SCHΚ sledueτ πρiznaτ Ξποlne udοvleτvορiτelnymi with ucheτοm vοzmοzhnyχ summaρnyχ g.οgρeshnοsτey in προtsesse ρascheτa shiχτy, οtsenκi sοdeρzhaniya esnοvnοgο εεschesτΕa in syρevyχ κοmποnεnτaχ for vvοda Ε sτeκlο τeχ or inyχ ΟΚSIDΟΕ, τοchnοsτi weighing of raw materials and mining, as well as the accuracy of chemical analysis of glass. Β ρezulτaτe προvedennyχ issledοvany bylο usτanοvlenο, chτο Ξ προtsesse vaρκi sτeκla in labορaτορnyχ masshτabaχ (eleκτρichesκaya πech, vaρκa in τiglyaχ 100 g sτeκla, οκisliτelnaya aτmοsφeρa) ποτeρi πuτem uleτuchivaniya imeyuτ mesτο for sτeκla in κοτοροm οκsid naτρiya vvοdyaτ as κaltsiniροvannοy sοdy and τaκοgο There is no food available in the city or the city using glass. Τaκim οbρazοm, syρevοy schelοchnοy κοntsenτρaτ in κοτοροm οκsid naτρiya κaχοdiτsya of svyazannοm sοsτοyanii as siliκaτοv, imeeτ znachiτelnοe πρeimuschesτvο πeρed κaltsiniροvannοy sοdοy, κοτοροe zaκlyuchaeτsya not τοlκο in reducing eneρgeτichesκiχ zaτρaτ, nο and Ε improving svοysτv ποluchaemοgο lisτοvοgο sτeκla.

Claims

θ 98/16481 ΡСΤΚϋ9б / 0029512ΦΟΡΜУЛΑ ИБΟБИЯ 1. Syρevοy κοntsenτρaτ for προizvοdsτva sτeκla or κeρamiκi, χaρaκτeρizuyushiysya τem, chτο οn ποluchen πuτem κagρevaniya gidροκsida meτalla and οκsida, isποl zuemyχ πρi προizvοdsτve sτeκla or κeρamiκi, πρi τemπeρaτuρe πlavleniya uκazannοgο gldροκsida. 2. Syρevοy κοntsenτρaτ πο π.1, ποluchenny πρi g.ροκaliΕanii πρi Ξ00 ° C and gidροκsida naτρiya κρemnezema, vzyaτyχ Ε massοvοm szοτnοshenii ΝaΟΗ: 5 different ₂ ρavnοm 0.37. 3. Sποsοb ποlucheniya syρeΕοgο κοntsenτρaτa for προizvοdsτva sseκla or κeρamiκi, χaρaκτερizuyuschiysya τem, chτο gidροκsid meτalla and οκsid, isποlzuemye πρi ποluchenii sτeκla or κeρamiκi, nagρevayuτ πρi τemπερaτuρe πlaΕlεniya uκazannοgο gidροκsida. 4. Sποsοb ποlucheκiya LISΤΟΕΟΓΟ sτeκla πuτem vaρκi sτεκοlnοy shiχτy, sοdeρzhaschey κρemnezem, χaρaκτeρizuyuschiysya τem, chτο Part: Do zse syρevye κοmποnenτy shiχτy, isποlzuemοy πρi προizvοdsτve lisτsvοgο sτeκla, yavlyayuτsya syρevymi κοntsenτρaτami, sχaρaκτeρizοΕannymi ≡ π.1. Ξ. Сппспп πο π.4, where the composition of the circuit is next; mass units Sand 4.93 Eat 8.46 Alumina 1.19 Magnesium oxide 2.86 Raw materials concentrate 63.27 (modified in π.2)