SU638557A1 - Method of protecting optical components from microbiological damage - Google Patents

Description

The invention relates to optical production technology, and specifically, to the creation of thin optical coatings with fungicidal properties. In the manufacture of optical parts of devices operating in a humid tropical climate, they must be protected from mold damage and damage. A known method of protecting optical components from microbiological fouling and damage by forming a fungicidal film on their surface. With this method, the parts are first treated with vinyl trichloroClano and then with a solution of mercury acetic acid in methanol fl. The closest in technical essence and the achieved result to the invention is a method of protecting optical components from microbiological damage by treating their surface, freshly polished or treated with alkali, in O, 1-10% aqueous or organic solution of methyethyl mercurcate or methoxy ethyl ethylcurcyl chloride at 20 -100 C 2 |. The disadvantage of this method is the need for pretreatment of the surface: polishing or alkali treatment. The purpose of the invention is to simplify the manufacturing technology. This is achieved by the fact that in a known method of protecting optical components from microbiological damage by treating their surface with a fungicide solution and heat treatment. the treatment is carried out in a 0.3-0 / 6% solution (fennylmerkur) phenoxymethyl-trimethoxysilane in an organic solvent, and the heat treatment at a temperature of pe is 140-150 C for 1-1.5 hours. In this case, a molecular film of polyphenylmercurphenoxymethylsiloxane is formed on the surface of optical components, which has hydrophobic and fungicidal properties and does not change the optical properties of glasses. The formation of a fungicidal film on the surface of optical parts can be represented by the following scheme: -Ol V. 0-Si-OH-CHO-St-CH, 0 -O CH, 0 /., -Och-O-S-i-0-S-CH

To obtain a fungicidal film, a 0.3-0.6% solution (fiilmvrkur) -phenoxymethyl J of trimethoxysilane in an organic solvent, for example, in methylene chloride, is used. After the sentence has passed, the solution is filtered. and after a day it is suitable for obtaining a fungicide coating.

Below is a specific example. Achre neni the proposed method. Optical parts, enlightened and unenlightened, are immersed in a special stand in a 0.3% solution. (Phenylmercur}} Phenoxymethyl 3 trimethoxysilane in methylene chloride, prepared according to the above recipe. Were flown in this solution for one hour and washed with pure toluene. After this part is subjected to heat treatment in a thermostat, raising the temperature at a rate of TO-VO C per hour up to. At this temperature, the parts are held for 1.5 hours, after which the thermostat is turned off and cooled to 35-20 C. water workpiece surface thus treated is 73-75,

The test for mushroom resistance of parts treated according to the example was carried out according to GOST 9.048-75 using five cultures of mold fungi under conditions of + 29 ± and at 98-100% relative humidity of air for 3 months. All parts with protective film have passed the test. In the same conditions on the control details.

not treated with a fungicidal solution, the development of mold fungi begins already after the start of the test.

The light transmission of parts with a fungicidal film in the region of 400-700. is 99.8%. This indicates that the optical properties of the glass are practically unchanged.

The proposed method of protection improves the reliability and durability of the optical parts of devices when operating them in the tropics. This one. the method simplifies the technological process of protecting optical parts,

Claims (2)

1. Authors certificate of the USSR 116493, cl. From 03 to 17/32, 1958. 2. USSR author's certificate number 106455, cl. C 03 C 17/28, 1956,