【摘要】 <正> 离子注入技术用于提高耐水溶液腐蚀的研究近年来正在蓬勃开展。研究表明,在一定的原子/基材组合和较好的注入条件下,可以在金属表面获得耐蚀性优异的非晶态层。 Moute等指出,低碳钢上注入P~+以后,使孔蚀电位提高900mV左右;胡兆民等在0Cr15钢上注入Dy~+,孔蚀电位提高400mV。美国已有成功地用于防止飞机轴承孔蚀的实更多还原

【Abstract】 Multiple ion implantation is used to improve the resistance of 410 stainless steel（SS）to localized corrosion. Potentiodynamic polarization curves show that the passivity of P⁺-B⁺ implanted 410 SS is better than that of unimplanted 304 SS in 0.1NH₂SO₄ solution at 30℃; the pitting potential(E_h=E₁₀μA/cm²)of P⁺-B⁺ implanted 410 SS is about 500mV more noble than that of unimplanted 304 and 316L （urea grade）SS in 1NHAc/NaAc+0.5％/NaCl solution at 30℃. The passivity of P⁺-B⁺-Mo⁺-N⁺ implanted 410 SS is better than that of unimplanted 316L（U.G.）and 25Cr-22Ni-2Mo-N SS, and the pitting potential of P⁺-B⁺-Mo⁺-N⁺ implanted 410 SS is about 600mV more noble than that of unimplanted 316L （U. G. ）and 25Cr-22Ni-2Mo-N SS, both in HAc/NaAc+0.1 NNaCl solution with pH 4 at 30℃. All those results illustrate that the multiple ion implantation improves the passivity and pitting resistance notably. This conclusion is supported by the results of corrosion weight loss test in 0.1NH₂SO₄ solution at 45℃ for72 hours and the results of pitting corrosion test in 0.1N NaCl+0.07％H₂O₂ solution at 20℃ for 24 hours. Both electron diffraction and micromorphology observation demonstrate that surface layers of 410 SS modified by multiple ion implantation are amorphous. Therefore it is thought that notable improvement of corrosion resistance of implanted 410 SS results from amorphous surface layer containing such benificial elements as Cr, Mo, N and so on.更多还原