A method for surface modification of metal materials with high strength and toughness
A metal material and surface modification technology, which is applied in the field of high-strength and toughened surface modification of metal materials, can solve the problems of inability to achieve a good match between strength and plasticity, and achieve the goal of improving the surface quality of materials, reducing quenching deformation, and improving strength and toughness. Effect
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Embodiment 1
[0023] 1) Grinding, polishing, cleaning and drying the surface of the metal material aluminum alloy;
[0024] 2) The surface of the pretreated material is subjected to laser peening treatment, and the laser power density is 10GW / cm 2 , the laser pulse width is 40ns, the spot diameter is 8mm, and the overlap rate is 20%;
[0025] 3) Carry out magnetic field nitriding on the surface treated by laser peening under 0.1T AC magnetic field;
[0026] 4) The surface after nitriding is subjected to magnetic field quenching under a constant magnetic field of 15T, and the quenching medium is water;
[0027] 5) The surface after magnetic field quenching is subjected to low-energy laser shot peening treatment, and the laser power density is 4GW / cm 2 , the spot diameter is 5mm;
[0028] 6) The surface treated by low-energy laser shot peening is subjected to magnetic field quenching again under a constant and stable magnetic field of 10T, and the quenching medium is water to obtain a flat...
Embodiment 2
[0031] 1) Grinding, polishing, cleaning and drying the surface of the metal material high-alloy steel;
[0032] 2) The surface of the pretreated material is subjected to laser peening treatment, and the laser power density is 1GW / cm 2 , the laser pulse width is 5ns, the spot diameter is 1mm, and the overlap rate is 40%;
[0033] 3) Carry out magnetic field nitriding on the surface treated by laser peening under a constant magnetic field of 15T;
[0034] 4) The surface after nitriding is subjected to magnetic field quenching under a 2T pulsed magnetic field, and the quenching medium is ice water;
[0035] 5) The surface after magnetic field quenching is subjected to low-energy laser peening treatment, and the laser power density is 0.8GW / cm 2 , the spot diameter is 0.5mm;
[0036] 6) The surface treated by low-energy laser shot peening is subjected to magnetic field quenching again under a 0.7T AC magnetic field, and the quenching medium is water to obtain a flat, high-stren...
Embodiment 3
[0039] 1) Grinding, polishing, cleaning and drying the surface of the metal material titanium alloy;
[0040] 2) The surface of the pretreated material is subjected to laser peening treatment, and the laser power density is 7GW / cm 2 , the laser pulse width is 25ns, the spot diameter is 10mm, and the overlap rate is 80%;
[0041] 3) Carry out magnetic field nitriding on the surface treated by laser shot peening under a constant magnetic field of 5T;
[0042] 4) The surface after nitriding is subjected to magnetic field quenching under a constant magnetic field of 10T, and the quenching medium is liquid nitrogen;
[0043] 5) The surface after magnetic field quenching is subjected to low-energy laser peening treatment, and the laser power density is 3GW / cm 2 , the spot diameter is 6mm;
[0044] 6) The surface treated by low-energy laser shot peening is subjected to magnetic field quenching again under a 5T constant magnetic field, and the quenching medium is ice water to obtain ...
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