The surface treatment of materials by plating under vacuum has a wide spectrum of uses. Components and components finalized by vacuum coating are used in the following industries:
The surface treatment of materials by plating under vacuum has a wide spectrum of uses. Components and components finalized by vacuum coating are used in the following industries:
The surface treatment of materials by plating under vacuum has a wide spectrum of uses. Components and components finalized by vacuum coating are used in the following industries:
Various small plastic parts | active, Passive layers of sensors - piezokeramic, resistive, magnetic and others | Electronic disks | The outer surface and the internal reflector surfaces of the battery-lamp reflectors | Reflective surfaces of bicycle, motorcycle and automobile reflectors | Electrodes and contacts of electronic components | Electromagnetic shielding of electrical device covers
Various small plastic parts | active, Passive layers of sensors - piezokeramic, resistive, magnetic and others | Electronic disks | The outer surface and the internal reflector surfaces of the battery-lamp reflectors | Reflective surfaces of bicycle, motorcycle and automobile reflectors | Electrodes and contacts of electronic components | Electromagnetic shielding of electrical device covers
Various small plastic parts | active, Passive layers of sensors - piezokeramic, resistive, magnetic and others | Electronic disks | The outer surface and the internal reflector surfaces of the battery-lamp reflectors | Reflective surfaces of bicycle, motorcycle and automobile reflectors | Electrodes and contacts of electronic components | Electromagnetic shielding of electrical device covers
Decorative reflective layers for decorative ceramics | Decorative reflective layers on glass beads, MC chatons | Decorative signs and shapes on cover devices | Richly shaped components of ceiling lights
Decorative reflective layers for decorative ceramics | Decorative reflective layers on glass beads, MC chatons | Decorative signs and shapes on cover devices | Richly shaped components of ceiling lights
Decorative reflective layers for decorative ceramics | Decorative reflective layers on glass beads, MC chatons | Decorative signs and shapes on cover devices | Richly shaped components of ceiling lights
Decorative reflective layers for sanitary tiles and glass sheets
Decorative reflective layers for sanitary tiles and glass sheets
Decorative reflective layers for sanitary tiles and glass sheets
Optical layers | Tinting cellophane foils
Optical layers | Tinting cellophane foils
Optical layers | Tinting cellophane foils
Vacuum plating works on the principle of evaporation of metals in high vacuum and their subsequent condensation on a cold surface. The most commonly used metals are Al, Ag, Rh, Cr, Ti, Zn, Mg, which are applied in thicknesses 1-3 μm.As this process does not immerse the product in the medium, its surface temperature does not increase or the electric current flows through it, it can be as conductive as non-conductive materials. In this way, metals, glass and also plastics can be treated.
Vacuum plating works on the principle of evaporation of metals in high vacuum and their subsequent condensation on a cold surface. The most commonly used metals are Al, Ag, Rh, Cr, Ti, Zn, Mg, which are applied in thicknesses 1-3 μm. As this process does not immerse the product in the medium, its surface temperature does not increase or the electric current flows through it, it can be as conductive as non-conductive materials. In this way, metals, glass and also plastics can be treated.
Vacuum plating works on the principle of evaporation of metals in high vacuum and their subsequent condensation on a cold surface. The most commonly used metals are Al, Ag, Rh, Cr, Ti, Zn, Mg, which are applied in thicknesses 1-3 μm. As this process does not immerse the product in the medium, its surface temperature does not increase or the electric current flows through it, it can be as conductive as non-conductive materials. In this way, metals, glass and also plastics can be treated.
Preparatory phase:
Preparatory phase:
Preparatory phase:
Plating process:
Plating process:
Plating process:
Preparing the surface of the material
Preparing the surface of the material
Preparing the surface of the material
Before inserting objects into the vacuum, it is necessary to remove all impurities and grease by grinding, polishing and degreasing.
Before inserting objects into the vacuum, it is necessary to remove all impurities and grease by grinding, polishing and degreasing.
Before inserting objects into the vacuum, it is necessary to remove all impurities and grease by grinding, polishing and degreasing.
Vacuum formation in the chamber
Vacuum formation in the chamber
Vacuum formation in the chamber
storage of components and evaporating metal
storage of components and evaporating metal
storage of components and evaporating metal
Elimination of impurities
Elimination of impurities
Elimination of impurities
by means of a high-voltage discharge
by means of a high-voltage discharge
by means of a high-voltage discharge
Evaporation of the metal
Evaporation of the metal
Evaporation of the metal
using wires, belts, powders whose evaporated particles move directly to the target substrate.
using wires, belts, powders whose evaporated particles move directly to the target substrate.
using wires, belts, powders whose evaporated particles move directly to the target substrate.
Condensation on the substrate
Condensation on the substrate
Condensation on the substrate
the condensed layer adheres and accurately copies the surface of the component.
the condensed layer adheres and accurately copies the surface of the component.
the condensed layer adheres and accurately copies the surface of the component.
