FIELD: machine building.
SUBSTANCE: method involves implantation into the steel surface of copper ions, and then lead ions. Prior to the implantation, the part surface shall be treated with a laser beam that is focused at the spot in the form of a circle with specific emission density of 260-800 W/mm2; after that, the spot is moved along the treated surface at the speed of 25-40 mm/s.
EFFECT: increasing wear resistance and reducing friction coefficient of the part surface at sliding friction.
3 dwg, 1 tbl
| Title | Year | Author | Number |
|---|---|---|---|
| METHOD OF IONIC IMPLANTATION OF SURFACES PARTS FROM TITANIUM ALLOYS | 2011 |
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| METHOD OF NANODIAMOND MATERIAL APPLICATION BY COMBINED ELECTROMECHANICAL PROCESSING | 2013 |
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| METHOD OF COPPER AND LEAD IONS IMPLANTATION INTO THE CONSTRUCTION STEEL | 2010 |
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| ION IMPLANTATION UNIT CATHODE | 2012 |
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| ION IMPLANTATION METHOD FOR SURFACES OF PART FROM STRUCTURAL STEEL | 2016 |
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| ION IMPLANTATION METHOD FOR SURFACES OF PARTS MADE FROM STRUCTURAL STEEL | 2014 |
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RU2581536C1 |
| METHOD OF IMPLANTING GAS IONS IN METALS AND IONS | 2012 |
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RU2509174C1 |
