Increasing the efficiency of flat glass production by the debiteuse method K. T. BondarevF. G. SolinovV. B. Terman OriginalPaper Pages: 212 - 214
Reserves for increasing the productivity of flat-glass furnaces V. D. DoskovaV. G. MoiseevN. A. Pankova OriginalPaper Pages: 215 - 218
The effect of the preparation conditions of the melt on the optical distortion of flat glass V. A. ZheleztsovD. L. OrlovYu. A. Knyazev OriginalPaper Pages: 220 - 222
Thyristorized transformers for electric drives on vertical drawing and nondebiteuse glass machinery E. V. PaushkinA. E. GrichevskiiB. V. Zhbanov OriginalPaper Pages: 223 - 227
Increasing the productivity of vertical glass-drawing systems F. E. Zabkov OriginalPaper Pages: 228 - 231
The production conditions of glass melting and the operational stability of vertical drawing glass machines V. M. Budov OriginalPaper Pages: 232 - 236
The effect of variations in the level of the melt on glass production A. A. ByalikV. K. EgorovT. V. Aizina OriginalPaper Pages: 237 - 239
Automation of the thermal regime of glass-melting tank furnaces operating on mazut V. A. GordeevYu. M. StepanovN. I. Malyaev OriginalPaper Pages: 240 - 242
Melting conditions for silicate glasses containing tin N. I. Min'koB. F. KislitsynL. T. Konik OriginalPaper Pages: 243 - 246
Electromagnetic treatment of water and the structure-formation of clay materials L. P. ChernyakI. P. NesterenkoS. P. Nichiporenko OriginalPaper Pages: 251 - 253
Determination of the microhardness of ceramic materials F. A. MatveevaA. A. Kulikova OriginalPaper Pages: 254 - 257
Improving product quality in the building ceramics industry A. V. YakovlevaB. M. Gartsman OriginalPaper Pages: 264 - 265
Melting intensely colored glasses in continuous-action furnaces N. F. GerasimovichP. V. TrubachA. K. Sinevich OriginalPaper Pages: 269 - 271
Use of the differential spectrophotometric method for analyzing ceramic materials L. A. ZhechkovaT. I. Sennikova OriginalPaper Pages: 276 - 277
Rationalization and inventions at the Lobnensk Building Porcelain Plant L. S. Nikulina OriginalPaper Pages: 280 - 281