RO105945B1 - Preparation process for a white hovse-keeping glass - Google Patents

Abstract

The invention relates to a process of obtaining a white household bottle that has a high light transmission in the 400 ... 800 range nm, glass used in houseware glassware. For the discoloration of the glass is added to a mixture of quartz sand, calcined soda, barium carbonates and potassium, sodium nitrate, borax, sodium chloride, alabaster and arsenic trioxide, oxides discolored by antimony trioxide or antimony trioxide and cobalt oxide in predetermined weight ratio. The mixture is subjected melting at 1470-1480 ° C. Melting is followed by bottle formation and annealing of products shaped at a temperature of 500 ... 520 ° C.

Description

The invention relates to a process for obtaining a white household bottle, a glass having a high light transmission in the range 400 ... 800 mm and which is used in fine household glassware.

Glass color is one of the most complex problems in the field of household glass, due to the multitude of factors that contribute to obtaining a colorless glass and with a high light transmission coefficient.

Usually, mechanical discoloration procedures are practiced, with the objective of removing the dyes from the raw materials and preventing the contamination of the glass in the process of its elaboration. Also, processes of chemical discoloration are known, by which an oxidizing environment is created in the glass and in the atmosphere of the furnace, a medium that allows the passage of bivalent iron (strong dye, blue-green) into trivalent iron (weaker dye, yellow). Also known are processes of physical discoloration, by means of coloring oxides, which optically compensate for the color of the unwanted oxide. For example, the compensation of the green blue color (Fe ² *) with the red color (Se), respectively yellow (Fe ³ *), with the blue color (CaO).

The main compounds used for discoloration are: Appetite of Na, K, or Ca, sulphates of Na, Ca or Ba, permanganates of Na, or K, arsenic trioxide, cerium dioxide, selenium and selenium compounds.

The refinement and discoloration of lead crystal bottles with arsenic dioxide and stibium is known (V. Carbol et al., Glass, November 1980, p. 408). The bottles studied have oxide compositions composed of 55 ... 59% S1O2, 9 ... 10% K ₂ O, 4.5 ... 8.7% Na ₂ O,

2.5 ... 8% CaO, 5 ... 24% PbO. 3 ... 4.5% BaO, 1.1 ... 2% ZnO, 1 ... 1.5% BnOr and 0.5% Sb ₂ O3.

A process for obtaining a household silicocalcosodic bottle, consisting of 70 ... 75%, is known.

SiO ₂ , 7 ... 12% CaO, maximum 3% Aî ₂ O3, maximum 3% MgO and 13 ... 16% Na ₂ O (A.Iuhasz, Light Industry, no. 6, 1970, p. 352) .

For 100 kg melt, containing 0.02 ... 0.03% iron, the following refinements and bleaches are used under optimum conditions: 0.5 ... 5 kg sodium or potassium nitrate, 0.03 .. .0.5 kg arsenic trioxide, 0.75 ... 1.5 kg calcium or sodium sulphate, 0.80 ... 1.3 g selenium and 0.05 ... 0.2 g cobalt oxide .

In another process (VA Fedorova, Steldo: keramika no. 8, 1979, page 27) for 100 kg of molten glass, having the oxide composition of 72% SiO ₂ , 2.24% MgO, 0.6% BaO, 1 , 6% AI2O3, 14.9% Na ₂ O, 6.8% CaO and 1.5% K ₂ O, an optimum amount of bleaches are used, as follows: 60 g arsenic trioxide, 1.7 g selenium and 0 , 08 g cobalt oxide dc.

Other processes for obtaining household glass, bleached with cerium oxides, neodymium, erbium, are known, but for technological reasons (instability, low yields) it is not applied industrially.

The problem solved by the invention is to establish an optimum bleaching composition for a silico-calcium-sodium household glass, in order to ensure the glass with a high transparency of over 90%, without color shades.

The process according to the invention consists in melting at

1470 .. .1480 ° C of a mixture of quartz sand, calcined soda, calcium carbonate, potassium carbonate, sodium nitrate, borax, sodium chloride, alabaster and arsenic trioxide in weight ratio of 73 ... 78 : 21 ... 24.5:

12 .. .16 ... 2.5 ... 3.5: 23 ... 25: 0.5 ... 1.25: 0.4 ... 0.5: 0.75 ... 1.0: 0,2 ... 0,25, to which is added for the discoloration of styrene trioxide or stibium sodium and cobalt oxide in the weight ratio of 0,1 ... 0,35: 0,006 ... 0,007.

The obtained glass composition has a high light transmission coefficient of over 90%, the glass being colorless. The bleaches used in the process are accessible.

An example of carrying out the process according to the invention is given below.

Mix quartz sand, soda, calcium carbonate, potassium carbonate, sodium nitrate, borax, sodium chloride, alabaster and arsenic trioxide in a weight ratio of 73 ... 78: 21 ... 24.5: 12 ... 16: 2.5 ... 3.5: 23 ... 25: 0.5 ... 1.25: 0.4 ... 0.5: 0.75 ... 1.0 : 0.2 ... 0.25.

Add to the discoloration of stibium trioxide and cobalt oxide in a weight ratio of 0.1 ... 0.15: 0.006 ... 0.007 or a stibble of sodium and cobalt oxide and a weight of 0.2 ... 0, 35: 0.006 ... 0.007.

The content in useful substances and impurities is within the limits provided by the quality standards and norms in force for fine household glassware.

Melt the mixture at 1470 ... 1480 ° C in special crucibles or oven valves.

After molding, the obtained products are subjected to annealing at a temperature of 500 ... 520 ° C, depending on the composition of the glass and the thickness of the products.

In the table below are presented some glass compositions obtained.

Oxide% mass 1 2 3 SiO2 76.5 76.2 74.5 A12O3 0.30 0.35 0.31 Fe2O3 0.04 0045 0.04 As a 8.53 8.46 8.60 Na2O 12.93 13.47 14.47 K2O 1JŞ 1.6 1.7 T% 550 nm 91.63 90.80 89,00

The glass obtained with styrene oxide or sodium and cobalt oxide, as bleaches, has the following oxide composition: 72 ... 76% S1O2,

0.2 ... 0.3% AI2O3, 0.02 ... 0.04% Fe2 <> 3,

7.5 .. .9.0% CaO, 13.5 ... 15.5% Na2O,

1.5 .. .3.5 K2O and 0.2 ... 0.4% B2O3.

This composition has high values of the T transmission, respectively over 89 ... 91% at 550 nm.

Claims (1)

Claim Process for obtaining a household white bottle, having an oxide composition consisting of 72 ... 76% SiO2, 0.2 ... 0.3% AI2O3, 0.02 ... 0.04% Fe2O3, 7.5 .. .9.0% CaO, 13.5 ... 15.5% Na2O, 1.5 .. .3.5% K2O and 0.2 ... 0.4% B2O3, by melting raw materials at the appropriate temperature, molding the molten glass and annealing the molded products at 5OO ... 52O ° C, characterized by that that it mixes quartz sand, calcined soda, carbonate, de 25 calcium, potassium carbonate, sodium nitrate, borax, sodium chloride, alabaster and arsenic trioxide, in a weight ratio of 73 ... 78: 21 ... 24.5: 12 ... 16: 2, 5 ... 3,5: 23 ... 25: 0,5 ... 1,25: 30 0.4 ... 0.5: 0.75 ... 1.0: 0.2 ... 0.25, add to the discoloration of styrene trioxide or stibium sodium and cobalt oxide, according to weight of 0.1 ... 0.35: 0.006 ... 0.007, after which the homogenized mixture is melted at 1470 ... 1480 ° C.