SU559578A1 - Heat-repulsion steel - Google Patents

Abstract

HEAT-REFLECTING ENAMEL, containing a binder, pigment, n'applicant and solvent, characterized in that, in order to increase its heat-reflecting properties, as a binder, it contains smilyu, selected from the group containing the alkyd resin, epoxyether resin. resin based on rosin, modified with formalin and diphenylolpropean, and additionally contains the product of thermal interaction 100 wt.h. titanium dioxide or metatitanic acid in terms of TiO ^, 22-32 wt.h. nickel sulfate or carbonate in terms of NiO, 20-35 wt. antimony trioxide and 2-3.5 ma.ch. Ammonium dichromate in terms of Cr ^ O ^ in the following ratio of components, mA.h: Binder 100Pigment56-80Filling agent22-34'Solvent130-150Product of thermal interaction of titanium dioxide or metatitanic acid, nickel sulfate or nickel carbonate, antimony trioxide and biromamate 26-38 (L01elsoel- < J00

Description

The invention relates to heat-absorbing enamels for coloring the outer surface of gasoline aircraft and other tanks, stationary and jelly road storage tanks, transporting liquid volatile materials, as well as decks of tankers carrying liquid fuels, to keep them as low as possible. temperatures resulting in loss of petroleum products due to evaporation. Such enamels should have maximum reflectivity with respect to the rays of the visible, especially infrared, regions of the spectrum. Enamels using aluminum powder and white enamels based on anatase or rutile forms of titanium dioxide, zinc oxide, lead sulfate, lead carbonate, magnesium oxide, barium sulfate and other white pigments are usually used for this purpose. Acrylic resins ll will be used as a binder in such enamels. In some cases, it is possible to use white or silver coatings, for example, such coated 5 is not suitable for tanker decks, since in bright sunlight they blinded workers on the deck and reduce their serviceability. Therefore, it becomes necessary to create heat-reflecting enamels of dark color. The heat-reflecting enamel of dark tones containing binder, pigments, filler, solvent and other targeted additives is the closest to the technical essence of the invention, and pigment mixtures are used as pigments, for example, a mixture of 56.4 mas. lead chromate, 6.5 m.ch. hinakrvdonovogo red, 25.2 ma.ch. molybdate orazhevogo, 4.4 mache.ch. phthalocyanine blue and 7.4 wt.h. titanium dioxide 2. However, this composition has insufficient heat-retaining properties. The purpose of the invention is to obtain a dark-colored heat-reflecting enamel with enhanced heat-reflecting properties. For this purpose, a dark-colored heat-reflecting enamel containing binder, pigments, filler, solvent is additionally introduced into the product of thermal interaction 100 wt.h. titanium dioxide or metatitanic acid in terms of TiOg, 22-32 wt.h, nickel sulfate or nickel carbonate in terms of NiO, 20-35 wt.h. antimony trioxide and 23, 5 ma.ch. Ammonium bichromate in terms of, and as a binder contains a resin selected from the group containing an alkyd resin, an epoxy ester resin and a rosin-based resin modified with formalin and diphenylolpropane in the following ratio of components, by weight: Binders 100 Pigment 56-80 Filling 22- 34 Solvent 130-150 The product of the thermal interaction of titanium dioxide or metatitanic acid, nickel sulfate or carbonate, antimony trioxide and ammonium dichromate -26-38 The thermal interaction product is obtained as follows. A mixture consisting, for example, of 100 kg of titanium dioxide, 30 kg (in terms of Ni O) of nickel carbonate, 35 kg of antimony trioxide, 3.3 kg (in terms of Cr 0) of ammonium dichromate and 25 liters of water is ground, dried and calcined at 1150s, grind and dry. The crawled product meets the requirements of TU 6-10-2-322-73. Different alkaline resins, resinous oil resin 326 based on rosin, formalin and diphenylolpropane, epoxy ester resin based on epoxy resin and drying oils are used as a binder. Below are the compositions of enamels of various colors on the basis of the invention, mac.h., Composition 1. Epoxy ether resin EE-42-3100 Chromium oxide 38 White zinc 1 8 Microtal22 Thermal product in 3 months and. d in uk and titanium, sulfate, nickel.

antimony trioxide and ammonium bichromate

Xylene

Composition 2..

Epoxyether resin

EE-42-3 /

Pmgment red

zooxide jelly

Zinc white

Microbarite

Thermal product

dioxide interactions

titanium, nickel triphosphate, antimony and ammonium dichlormate

Ethyl cellosolve

Xylene

Composition 3.

Alkyd resin PF-064

Zinc white

Chrome oxide

Talc and microtalc

Thermal product

interaction of metatitanic acid, carbonate

nickel, antioxide trioxide

and ammonium dichromate

White Spirit

Composition 4.

Oil Resin Pitch

326

Crown zinc primer

595784

Phthalocyanine blue pigment8

Microbarit28

The thermal product of the interaction of metatitanic acid, nickel sulphate, antimony trioxide and ammonium dichromate 32 10 Solvent (whitespiritg xylene 1: 1) 135 Enamels are made in the usual way in a ball or bead mill, where the binder solutions are loaded and all the other components are added simultaneously. The dispersion of pigments is carried out to a milling degree of 7080 µm according to the Klin device.

The table shows the physicomechanical properties of the known and proposed enamel formulations.

Thus, enamels on the basis of the proposed composition compared

25 with lime heat-reflecting enamels have a lower heating temperature on the back side of the painted samples and have a higher reflectance in the infrared region of the spectrum, i.e. have high heat-reflecting properties and, in addition, by reducing the loss of oil products, they provide a large economic effect.

The temperature of the back side of the painted sample, ° C (TU 6-10-1419-74)

70-71

65-67

Claims (2)

HEAT-REFLECTING ENAMEL containing a binder, pigment, filler and solvent, which is related to the fact that, in order to increase the heat-reflecting properties, it contains a resin selected from the group consisting of alkyd resin, epoxy ester resin, resin on based on rosin modified with formalin and diphenylolpropan, and additionally contains a thermal interaction product of 100 parts by weight titanium dioxide or metatitanic acid in terms of T10 _g , 22-32 parts by weight nickel sulfate or carbonate, calculated as NiO, 20-35 parts by weight trioxide 2-3.5 parts by weight dichromate in terms of Cr ₂ 0 ₅ when the ratio of the components Binder Pigment Filler Antimony and ammonium solvent in the following som.ch: 100 56-80 22-34 130-150 The product of thermal interaction of titanium dioxide or metatitanic acid, nickel sulfate or carbonate, antimony trioxide and ammonium dichromate 26-38