SU1018923A1 - Glass - Google Patents

Abstract

GLASS, including SiO-, А1 „0, NdhOj, which means that, in order to increase the absorption index, it contains the indicated x« 1% in the following ratio, wt.%: Si029-11 ABOA19-21 Nd O 68-72

Description

The invention relates to optical materials used in optical instrumentation, in particular, to glassy optical filters with a high absorption rate.

. Known stained glass with the following ratio of components, wt.% CaO 6-8, MgO 1-3, 1-16 K2.0 1-4, Pr.O 1.2-3.5, Nd-O- 0.10 , 3, SiOi else (; 1.

The disadvantages of glass are a small value of the Logosation index (which is determined by the content of praseodymium and neodymium ions), which makes it impossible to use it in the form of thin plates, noticeable light scattering due to the large amount of components and insufficient water resistance due to the relatively high content of alkali oxides. .

The closest to the invention in composition is glass, comprising, in wt.%: SiOh 31-36, ADVO. 6-7, Nd-Oj 58-62 C2J.

However, the known glass has, firstly, an insufficiently high value of the absorption index, as it contains in 1 cm® no more than

(70-80} 10 2o of neodymium ions, which determine the amount of absorption. This limits the possibilities of using glass in cases when it is required to manufacture optical filters in the form of thin plates. Secondly, the known glass has insufficient resistance to crystallization due to small content that prevents its use 0 at high temperatures 1 glass loses transparency).

The aim of the invention is to increase the absorption rate.

The goal is achieved by the fact that glass 5 includes SiO, AljO |,, and contains these components in the following ratio, weight. %: SiO 9-11, A120Z 19-21, 68-72.

The mixture is prepared by mixing the starting components in the form of oxides in the appropriate ratio. Glasses are synthesized by direct high-frequency melting in a water-cooled copper container at a temperature of about 4-6 hours in air, annealed at VOO-BOO C and. for 10 hours

The table presents examples of the composition of the proposed glass.

Note and e. P N (Nd) density - volume concentration of neodymium ions} H - microhardness; N. - the coefficient of thermal i. refractive index; E is Young's modulus; thermal conductivity.

In the drawing of the isobrgene dependence of the absorption index of the proposed glass on the wavelength. In the limits of the boundary values of the components of xc components, the spectral position of the absorption bands does not change. The change in the intensity of half-life absorption does not exceed 5%.

Thus, the proposed glass, as compared with the known, has a higher absorption rate (due to an increase in the content of neolshma ions per unit volume) and has a lower tendency to crystallization (due to an increase in the MO content).

: It does not crystallize upon heating to TailOOO C.

In addition, glass is characterized by a low content of ions.

hydroxyl, which leads to a decrease in the intensity of the absorption band in the region of 3600 cm; 4 times compared with the known.

The high absorption rate makes it possible to fabricate thin and at the same time optically dense filters from the glass offered, which is useful in those

when using large-sized (| with a large thickness of fi filters is undesirable. Preserving the optical properties of the proposed glass when it is heated to a weak crystallization capacity and high thermal and mechanical properties makes it promising for use in high temperature conditions.

Claims (1)

GLASS, including SiOg, Al „Oj, and so on with the fact that, in order to increase the absorption index, it contains these components in the following ratio, wt.%: SiO ₂ 9-11 SU U018923