RU2765965C1 - Method of applying l63 brass on glass products - Google Patents

Abstract

FIELD: technological processes; glass industry.

SUBSTANCE: invention relates to decoration of glass and articles made from it, and namely to a method of applying L63 brass on glass articles, and can be used in the glass industry at the technological stage of applying decorative coatings on glass household goods. Air is evacuated from the sputtering chamber to vacuum of 0.007 Pa and the basket with glass articles is rotated at a rotation speed of basket of 2 rpm. Then, argon gas is fed at pressure of 0.06 Pa and a source of ion cleaning of the surface of glass articles is switched on at the following parameters: anode voltage of 3 kV, anode current of 200 mA and cleaning time of 20 minutes. Surface layer of glass articles is cleaned by bombardment in high vacuum with argon ions with energy of 100–100,000 eV, which spray the surface layer with removal of adsorbed atoms and oxides. Then, magnetron sputtering sources with L63 brass targets are switched on, and at pressure of injected argon gas of 0.05 Pa, an opaque layer of L63 brass is applied for 30 minutes at the following parameters: source current of 12 A and voltage of 400–450 V. Layer of L63 brass is applied with a layer of preserved epoxy varnish. Then the glass products are placed in a muffle furnace for annealing and held at temperature of 200 °C for 15 minutes.

EFFECT: higher strength of decorative coating.

1 cl

Description

The invention relates to the field of decorating glass and glass products and can be used in the glass industry at the technological stage of applying decorative coatings on glass household goods (glasses, wine glasses, goblets, glasses, vases, mugs, plates, etc.). [IPC C23C14/00, C23C16/00, C23C18/18].

A METHOD FOR PREPARING TITANIUM COATINGS [WO0022187 (A1) - 2000-04-20] is known from the prior art, containing at least one layer selected from layers consisting of titanium nitride TiN, layers consisting of titanium carbonitride TiCN, layers consisting of titanium nitride and another metal M (Ti, M) N or Til-xMxN and layers consisting of titanium carbonitride and another metal M (Ti, M) NC or Til-xMxNC /, in which the specified coating is applied continuously and one at a time an operation by plasma-assisted chemical vapor deposition (PACVD) from a gas mixture containing a reducing gas, hydrogen, titanium chloride.

The disadvantage of analogue is the insufficient strength of the coating

Also known from the prior art is a METHOD FOR OBTAINING A TITANIUM NITRIDE NANOPHILM ON THE SURFACE OF A SUBSTRATE, A SUBSTRATE WITH A FILM AND THEIR APPLICATION [CN108546929 (A) - 2018-09-18], which contains the following steps: the chamber is evacuated to vacuum; pass an inert gas into the reaction chamber and apply a coating using ammonia plasma and a gaseous source of titanium, after which several cycles of gas washing of the reaction chamber are performed, the temperature of the reaction chamber is maintained at 150-220 ° C, and a plasma-enhanced titanium nitride atomic layer deposition reaction is performed to obtaining a substrate with a titanium nitride nanofilm on the surface.

The disadvantage of this analogue is the need to maintain a high temperature for the deposition of the atomic layer of titanium.

The closest in technical essence is the METHOD OF APPLYING PROTECTIVE AND DECORATIVE COATINGS ON PRODUCTS [RU2039844C1, publ. 07/20/1995], mainly coatings based on oxides of titanium, chromium, tungsten, zirconium, hafnium or vanadium, as well as interstitial phases selected from a number of carbides, nitrides and carbonitrides of these metals, including coating the surface of a metallic or non-metallic material by sputtering targets from active metals, their alloys or composite materials by ion bombardment in a glow discharge in a mixture of inert and reaction gases when they are separately supplied to the reaction volume, pre-filled with an inert gas to a pressure of (3.0 3.5) 10-3 mm Hg. Art. followed by deposition of sprayed particles on the surface of the product, characterized in that the reaction gas is fed into the near-surface zone of the product, heated to 300 360 ° C until a pressure of (6.0 10) 10 -3 mm Hg is established in the reaction volume. Art. spraying time is controlled within the limits necessary to obtain a decorative effect of a given intensity and range of color shades, and water vapor, carbon dioxide, air or a mixture of oxygen-containing gases are used as the reaction gas.

The main technical problem of the prototype is the need to heat products to a temperature of 300-360 ° C before coating them, which complicates the coating technology, limits the use of materials for coating them with a low melting point, and also increases the time required for the technological operation. for application during heating and cooling of the product.

The objective of the invention is to eliminate the disadvantages of the prototype.

The technical result of the invention is to increase the strength of the decorative coating.

The specified technical result is achieved due to the fact that the method of applying brass of the L63 brand on glass products, characterized in that air is pumped out of the spraying chamber to a vacuum of 0.007 Pa and the basket with glass products is started rotating at a basket rotation speed of 2 revolutions per minute, then argon gas at a pressure of 0.06 Pa and include a source of ion cleaning of the surface of glass products with the following parameters: anode voltage 3 kV, anode current 200 mA, cleaning time 20 minutes, while cleaning the surface layer of glass products by bombarding in high vacuum with argon ions with an energy of 100 - 100000 eV, which spray the surface layer with the removal of adsorbed atoms and oxides, then turn on the sources of magnetron sputtering with installed targets made of L63 brand brass and, at an argon gas pressure of 0.05 Pa, apply an opaque layer of metal for 30 minutes , with the following parameters: source current 12 A, voltage 400-450 V, then a layer of canning epoxy varnish is applied to the applied brass, after which the dishes are placed in a muffle annealing furnace and kept at a temperature of 200 ° C for 15 minutes.

Implementation of the invention

Initially, the input control of high-quality glassware is carried out for the rejection of products due to chips, geometry violations, and breakage. Then the products go to the engraving shop, where the engraved pattern is applied in an automated way on CNC machines. The engraved dishes enter the washing shop, where the products go through the stages of washing, rinsing and drying in a tunnel-type sectional machine, for example, MPS-1600, for which water is prepared using the installed OSMOS cleaning system.

The utensils that have undergone surface cleaning enter the masking section, where a masked layer 2-3 cm wide is applied to the outer surface of each product manually, using winding machines, from a polyethylene tape, which provides a clear boundary between the surface areas of the product subject to and not to be decorated by spraying. The rest of the outer surface of the products, which is not subject to decoration by spraying, is masked by plastic molds made individually for each range of products. The prepared dishes are delivered to the spraying shop, where they are installed in cylindrical stainless steel baskets made according to the planetary rotation scheme, while the baskets can be made in various versions and contain from one to eight carriers each, depending on the size of the products. The assembled baskets, in the amount of 10 pieces inclusive, are installed in the seats of the carousel of the deposition chamber of the vacuum installation.

For deposition, a vacuum deposition unit VTT-1200-V2-IS1_ARC1 is used, which includes: an exhaust station, a deposition chamber, a control rack, a rack of inverter power supplies for an ion cleaning source and two magnetrons, and a control unit for three arc evaporator inverters.

The pumping station includes: Pfeiffer HENA 300 oil rotary vane pump, Pfeiffer OKTA 500 Roots rotary pump, NVDM-630 steam oil diffusion pump. Working fluids: Pfeiffer 3 vacuum oil for HENA 300 pump, VM-1C vacuum oil for NVDM-630.

The sputtering chamber contains: a carousel with planetary rotation of the substrate, with the ability to control the speed of rotation of the carousel, a slot-type ion cleaning source, two planar-type magnetrons, and a planar-type arc evaporator. The unit provides process control via a graphical user interface, both in automatic and manual modes.

Let's consider the technological processes of applying brass grade L63 on glassware.

The dishes arriving at the enterprise, at the first stage, pass the input control for the rejection of products due to chips, geometry violations, breakage. Then the products go to the engraving shop, where the engraved pattern is applied in an automated way on CNC machines. The engraved dishes go to the washing shop. Here, the products go through the stages of washing, rinsing and drying in a sectional tunnel-type machine MPS-1600. Washing water is prepared using the installed OSMOS purification system. The utensils that have been surface cleaned enter the masking section, where on the outer surface of each product is applied manually, using winding machines, a masked layer, 2-3 cm wide, from a polyethylene tape, which provides a clear boundary between the surface areas of the product subject to and not to be decorated by spraying. The rest of the outer surface of the products, which is not subject to decoration by spraying, is masked by plastic molds made individually for each range of products. Prepared dishes enter the spraying shop. Here, the masked dishes are installed in cylindrical stainless steel baskets made according to the planetary rotation pattern. Baskets are available in different variants, from one to eight carriers each, and are assembled depending on the size of the product range. The assembled baskets, in the amount of ten pieces, are installed in the seats of the carousel of the spraying chamber of the vacuum unit. After the spraying cycle, the dishes enter the area for applying and fixing the protective layer of the applied metal film.

For brass deposition, a VTT-1200-V2-IS1_ARC1 vacuum deposition unit is used. The installation includes: a pumping station, a sputtering chamber, a control rack, a rack of inverter power supplies for an ion cleaning source and two magnetrons, and a control unit for three arc evaporator inverters. The pumping station includes: Pfeiffer HENA 300 oil rotary vane pump, Pfeiffer OKTA 500 Roots rotary pump, NVDM-630 steam oil diffusion pump. Working fluids: Pfeiffer 3 vacuum oil for HENA 300 pump, VM-1C vacuum oil for NVDM-630. The sputtering chamber contains: a carousel with planetary rotation of the substrate, with the ability to control the speed of rotation of the carousel, a slot-type ion cleaning source, two planar-type magnetrons, and a planar-type arc evaporator. The unit provides process control via a graphical user interface, both in automatic and manual modes.

Technology of deposition of brass brand L63 for the formation of a coating of the "Golden" type.

Baskets loaded with masked dishes are loaded into the sputtering chamber, then air is pumped out of the chamber to a vacuum of 0.007 Pa, the carousel is rotated at a speed of 2 rpm, the argon gas supply is turned on in the pressure stabilization mode of 0.06 Pa, and the source of ion cleaning of the substrate surface is turned on at following parameters: anode voltage 3 kV, anode current 200 mA, cleaning time 20 minutes. When the glass surface is bombarded in high vacuum with argon ions with an energy of 100–100,000 eV, the surface layer is sputtered, which removes adsorbed atoms and film oxides from it, and thereby creates conditions for increasing the adhesion of the sprayed coating. Next, sources of magnetron sputtering with installed targets made of brass grade L63 are turned on and, with stabilization of the pressure of the injected argon gas of 0.05 Pa, an opaque layer of metal is applied for 30 minutes with the following parameters: source current 12 A, voltage 400-450 V. At the end During the spraying process, atmospheric pressure is released into the spraying chamber, then the chamber is opened and baskets are unloaded, carriers with dishes are disassembled, camouflage molds and polyethylene tape are removed. Further, the products are sent to the site for applying and fixing the protective layer on the brass film. This operation is necessary to protect brass from the corrosive effects of the external atmosphere, chemical exposure during washing, and mechanical damage. Here, in manual mode, a layer of canning epoxy varnish is applied to the brass, after which the dishes are placed in muffle annealing furnaces and kept at a temperature of 200 ° C for 15 minutes, then the finished product passes the final control for defects and is sent to the packaging shop.

The specified technical result of the invention is achieved due to uniform ion cleaning of the substrate surface of the glass product from adsorbed atoms and oxides of the film by rotating the carousel at a speed of 2 revolutions per minute and bombarding the glass surface in high vacuum with argon ions with an energy of 100-100000 eV in a single vacuum cycle with deposition coating layers, in addition, the technical result is achieved by intensifying the process by applying metal with an arc evaporator at the highest possible speed; simplification of technology, in contrast to magnetron sputtering, by eliminating the need to control and maintain at a certain level the percentage of argon and nitrogen (oxygen) in the gas mixture during the formation of the coating.

Claims (1)

A method for applying brass of the L63 brand on glass products, characterized in that air is pumped out of the spraying chamber to a vacuum of 0.007 Pa and the basket with glass products is rotated at a basket rotation speed of 2 revolutions per minute, then argon gas is supplied at a pressure of 0.06 Pa and the source of ion cleaning of the surface of glass products with the following parameters: anode voltage 3 kV, anode current 200 mA and cleaning time 20 min. layer with the removal of adsorbed atoms and oxides, then turn on the sources of magnetron sputtering with installed targets made of L63 brand brass and, at a pressure of 0.05 Pa of argon gas, apply an opaque layer of L63 brand brass for 30 min with the following parameters: source current 12 A and voltage 400-450 V, then a layer is applied to the applied layer of brass brand L63 to canned epoxy varnish, after which the glass products are placed in a muffle furnace for annealing and kept at a temperature of 200 ° C for 15 minutes.