SU1416459A1 - Glass composition - Google Patents

Abstract

The invention relates to silicate glass compositions and can be used in instrumentation, quantum electronics, in particular as a material for the manufacture of elements of pass-through optics in high-intensity radiation devices, in the visible and near IR range, with the aim of increasing the optical strength while maintaining photo stability glass contains % by weight: SiO 39.5-47.5; ZrOj 3.4-4.8; CeO 1.5-7.6; Al.O, 20.2-24.4; CaO 12.6-20.6; TiOj 1.5-7.6; ZnO 1.0-5.7; SbjO 0.2-1.0 Cooking temperature 1560-1580 ° C, cooking time 3 hours, softening start temperature 800-820 ° C; TCLE

Description

ABOUT)

4 SP

WITH

The invention relates to silicate glass compositions and can be used in instrument making, quantum electronics, in particular as a material for the manufacture of elements of pass-through optics in devices of high and low intensity radiation in the visible and near infrared.

The purpose of the invention is to increase the optical strength while maintaining photo-stability.

Specific compositions of the glasses are given in table 1.

The main properties of glasses are presented in tabLo 20

The synthesis of glass is carried out in a gas-flame furnace of periodic action in an oxidizing atmosphere in order to ensure the production of titanium and cerium ions in a highly oxidized state.

4-Ii as Ti 5 Ce

Annealing of glasses is carried out in a muffle electric furnace at a temperature 40-50 ° C below the temperature of the onset of softening.

Photo stability is determined by the action of radiation from the 4th harmonic of a YAe: Nd crystal laser (D 0.266 µm). The 10-ns output power per pulse was 100 MW / cm.

pulse frequency 5 Hz, pulse energy up to 5 mJ, After

ten

j

20

25

with about

developed glasses (the appearance of color centers) were not noticed with the error of spectral measurements not exceeding 5%,

The developed glasses are technological, have good cooking and working properties.

The proposed formulations are characterized by elevated physico-thermal, radiation, and optical characteristics.

The use of the developed glasses allows to increase the reliability and service life of optical elements, assemblies and systems using high-intensity optical radiation.

Claims (1)

Invention Formula Glass, including SiOj, ZrOj, CeO, j, AljOj, CaO, characterized in that, in order to increase optical strength while maintaining photo-stability, it additionally contains TiOj, ZnO, SbjO, with the following ratio of ingredients, wt.%: SiO, 39 , 5-47,5 ZrOj3,4-4,8 CeO., 1,5-7,6 Al Oj20,2-24,4 CaO12,6-20,6 TiO, 1,5-7.6 Cooking temperature, ° C Duration of cooking, h. Temperature of softening, ° С 1560-1580 1560-1580 1560-1580 333 810 .800820 Chemical resistance to water according to GOST 10134-62 to i-h. NaOH to 1no HC1 Heat Resistance Optical STRENGTH, MW / cm at tT 10 s at t 5-10 s Continuation of table 2 0.12 0.24 2.09 170 2.65 1.09 0.11 0.19 1.97 170 2.6 1.07