热处理工艺对15-5PH沉淀硬化不锈钢的力学性能与耐蚀性的影响

 研究了热处理工艺对15-5PH沉淀硬化不锈钢力学性能与耐蚀性的影响,并观察了钢中的强化相。结果表明,随着时效温度的升高和保温时间的延长钢的强度逐渐下降,塑性及冲击吸收功逐渐升高,这是由于逆转变奥氏体体积分数随温度升高而增加所造成的;随着时效温度升高钢的耐点腐蚀性能逐渐下降,在580和600 ℃时耐蚀性最差,在480 ℃时效钢的耐点腐蚀性能最佳且具有最高的强度,钢中主要的强化相是具有面心立方结构的富铜相。     

17-4PH马氏体沉淀硬化不锈钢表面防护技术研究进展

17-4PH马氏体沉淀硬化不锈钢具有良好抗衰减性能、抗腐蚀和抗空蚀性能以及优异的力学性能,在核能、海洋和航天等工业领域有广泛应用。由于长期服役于高温、腐蚀、冲击和摩擦的复杂环境中,17-4PH零部件表面受到水蚀、空蚀、腐蚀和摩擦磨损等严重破坏,亟需开展针对性防护研究。为此综述了目前17-4PH不锈钢表面防护的研究进展,主要从表面强化、表面改性和表面涂敷3个角度分析其优缺点、应用现状,并对其未来发展趋势进行展望。     

17-4PH马氏体沉淀硬化不锈钢表面防护技术研究进展

17-4PH马氏体沉淀硬化不锈钢具有良好抗衰减性能、抗腐蚀和抗空蚀性能以及优异的力学性能,在核能、海洋和航天等工业领域有广泛应用。由于长期服役于高温、腐蚀、冲击和摩擦的复杂环境中,17-4PH零部件表面受到水蚀、空蚀、腐蚀和摩擦磨损等严重破坏,亟需开展针对性防护研究。为此综述了目前17-4PH不锈钢表面防护的研究进展,主要从表面强化、表面改性和表面涂敷3个角度分析其优缺点、应用现状,并对其未来发展趋势进行展望。     

Effect of plasma nitriding parameters on corrosion performance of 17-4 PH stainless steel

This study investigates the effect of plasma nitriding parameters on corrosion susceptibility of 17-4 PH stainless steel in 3.5?wt-% NaCl solution. In this regard, 17-4 PH stainless steel was plasma nitrided at 400°C for 5 and 10?h, 450°C for 5?h and 500°C for 5?h. Cross-sectional images after nitriding process showed that a uniform nitrided layer has been formed on steel substrate. Depending on the temperature and time of the nitriding process, different phases were formed in the nitrided layer. This affected general corrosion and pitting corrosion performance of 17-4 PH stainless steel in 3.5?wt-% NaCl solution. While precipitation of chromium nitrides for nitrided specimens at 450°C and higher increased the susceptibility to pitting and general corrosion, formation of expanded martensite (EM) in nitriding at 400°C improved the pitting corrosion resistance of 17-4 PH stainless steel. This is believed to be due to the release of nitrogen atoms from EM phase to form ammonium ions and increase the pH of the solution, supressing pit growth.     

海洋大气环境下17-7PH不锈钢的接触腐蚀研究

 为了研究17-7PH不锈钢在海洋大气环境下接触腐蚀的防护问题,将不同表面状态的17-7PH不锈钢板状试样在青岛团岛和海南万宁进行1年的大气暴晒试验,对其宏观腐蚀形貌对比,并测定其疲劳寿命,采用扫描电子显微镜(SEM)观察暴晒试样表面腐蚀形貌,用光学显微镜比较腐蚀坑深度,分析海洋大气腐蚀对17-7PH不锈钢疲劳性能的影响,最后得出了17-7PH不锈钢的腐蚀防护措施。结果表明：在青岛暴晒的不涂漆17-7PH不锈钢试样表面色泽变暗,有均匀的细小点蚀,而海南的试样表面有大面积较均匀的褐色锈层,特别是17-7PH不锈钢与TC18钛合金连接处腐蚀较为集中,但腐蚀并没有降低其疲劳寿命;从暴晒试样的表面微观腐蚀形貌比较,无论涂漆与否,17-7PH不锈钢表面都有轻微腐蚀,但只局限于表层,点蚀不深,并且趋向均匀腐蚀;17-7PH不锈钢抗大气腐蚀性能很好,经钝化后可不涂漆直接在海洋大气环境中使用1年,而不会对其疲劳性能产生明显影响。     

选择性激光熔化成形17–4PH不锈钢研究

选择性激光熔化技术具有一次成形、节省原材料、可成形任意复杂结构工件及性能优良等特点，是17–4PH不锈钢成形研究的新方向。本文综述了近几年选择性激光熔化制备17–4PH不锈钢研究现状，包括工艺参数对17–4PH不锈钢性能的影响，热处理和热等静压对17–4PH不锈钢力学性能的改善，不同成形方式和不同后处理17–4PH不锈钢的显微组织变化，以及在选择性激光熔化成形17–4PH不锈钢过程中出现的问题和发展趋势。     

长期热老化后核电站主管道材料的力学行为

大型压水堆核电站主管道多采用综合性能优良的铸造奥氏体不锈钢,但该材料在中温下长期服役会发生热老化脆化现象。总结了国内外的最新研究成果,主要综述了长期热老化过程中主管道材料的相变规律及其影响因素,以及长期热老化后材料的纳米硬度、拉伸、冲击和疲劳行为。     

双相不锈钢475℃脆性及其形成特点对性能的影响

详细总结了双相不锈钢中475℃脆性的主要特征、影响因素以及其对性能的影响,包括:α′相的析出机制、动力学特征;合金元素、热加工工艺对α′相析出动力学的影响;475℃脆性对力学性能、腐蚀性能和居里温度的影响。     

High temperature ductility and corrosion resistance property of novel tin-bearing economic 17Cr–xSn ferritic stainless steel

Abstract

A new family of resource-saving ferritic stainless steels, with the composition of 17Cr–xSn (x?=?0.1–0.4 wt-%) have been developed by examining the effect of Sn on high temperature ductility, the corrosion resistance properties and the passivation film structure. The results show that tin-bearing stainless steel obtains superb plasticity and there is no evidence of tin-containing precipitation in the fracture facets. High temperature brittleness at about 900°C is caused by the carbide or nitride precipitation along the grain boundary or inside. The precipitation in the grain boundary hinders the free movement of dislocation, thus increasing the strength and decreasing the toughness of steel. The polarisation curves and weight loss measurement indicate that the corrosion resistance of stainless steel is improved by adding small amount of Sn. The existence of Sn in passivation film suppresses the anodic dissolution of steels during long exposure to the aggressive solution, and the dense rust layer is thick enough to protect the steel and strongly inhabit the ingress of the solution.     

High-temperature fatigue crack growth behavior of 17-4 PH stainless steels

The fatigue crack growth (FCG) behavior was investigated for 17-4 PH stainless steels in three heat-treated conditions, i.e., unaged (condition A), peak-aged (condition H900), and overaged (condition H1150), at temperatures ranging from 300 °C to 500 °C. The high-temperature fatigue crack growth rates (FCGRs) of condition H1150 were increased with an increase in temperature. However, for conditions A and H900 tested at 500 °C, the FCGRs were lower than the lower temperature ones. At 300 °C and 400 °C, H1150 and H900 generally showed the lowest and highest FCGRs, respectively, with condition A demonstrating behavior between the two. At 500 °C, the FCGR curves for all material conditions merged together. The anomalous FCG behavior of 17-4 PH stainless steels at 500 °C was mainly caused by an in-situ precipitate-coarsening effect during test. This work was funded by the National Science Council of the Republic of China (Taiwan) under Contract Nos. NSC-90-2216-E-008-007 and NSC-91-2216-E-008-007.     

Investigation on the strengthening mechanism of S30432 austenitic heat-resistant steel

From the viewpoint of energy-saving and environment protection,it is necessary to develop Ultra Super Critical（USC） fossil-fired power plants.In order to ensure the reliable operation of power plants under high steam conditions,good mechanical properties（particularly high creep strength）,corrosion resistance and fabricability are generally required for the heat resistant steels used in USC boilers.Among these heat-resistant steels,S30432 austenitic heat-resistant steels are of interest due to high creep strength,excellent oxidation and corrosion resistance at temperatures up to 650 -700℃.In this paper,the strengthening mechanism of S30432 austenitic heat-resistant steel was investigated based on the precipitation behavior of S30432 during aging and creep at 650℃.Results show that the microstructure of as-supplied S30432 steel is austenite,the main precipitation consists of only Nb（C,N）.After aged for 10 000 h or crept for 10 712 h,there is a slight increase in the size of fine Nb（C,N）,but the transformation from Nb（C,N） to NbCrN does not occur.Aging and creep results in the precipitation ofε-Cu and M₂₃C₆.The coarsening velocity ofε-Cu particles diminishes greatly and they are still very fine in the long-term creep range.With the increase of aging and creep time M₂₃C₆ carbides tend to coarsen gradually.The size of M₂₃C₆ is larger and the coarsening is easier in contrast toε-Cu and Nb（C,N）.Nb（C,N） precipitates in the as-supplied microstructure,while aging and creep result in the precipitation ofε-Cu and M₂₃C₆.High creep rupture strength of S30432 steel is attributed to the precipitation hardening ofε-Cu,Nb（C,N） and M₂₃C₆.Extremely,ε-Cu plays an important role in improving the creep rupture strength of S30432,and at least 61%of the creep rupture strength of S30432 at 650℃results from the precipitation hardening ofε-Cu particles.     

碳含量对Cr17Mo型耐蚀塑料模具钢组织和性能的影响

试验研究了成分(％)为:0．39C,0．70Ni,16．73Cr,1．07Mo和0．53C,1．05Ni,16．87Cr,0．96Mo两种Cr17Mo型耐蚀塑料模具钢的淬回火组织、力学性能和耐蚀性能。试验结果表明,当Cr17Mo型钢中碳含量由0．39％提高至0．53％时,经1 060℃淬火,475℃回火后该钢的峰值硬度HRC值由46．5提高到53．4;两种试验钢在弱酸、氧化性酸和1％盐酸中均有较高的耐腐蚀性能。     

新型汽车排气系统用铁素体不锈钢的冷凝液腐蚀

为了开发既经济又具有良好耐冷凝液腐蚀性能的汽车排气系统用不锈钢,采用冷凝液腐蚀试验方法,对一系列的铁素体不锈钢进行了10周期的腐蚀评价研究。研究结果表明:Cr当量高于17%的铁素体不锈钢与Cr的质量分数为17%的铁素体不锈钢耐冷凝液腐蚀性能相当,且平均腐蚀失重量均小于6 g/m2,平均最大腐蚀深度均小于0.03 mm。在此试验结果的基础上,对新开发的439M型铁素体不锈钢和409L型铁素体不锈钢进一步开展5、10、20周期的冷凝液腐蚀试验,并使用极值分析方法对三种周期冷凝液腐蚀试验后样品的最大点蚀深度进行统计分析,研究结果表明,新开发的439M型铁素体不锈钢的预测寿命是409L的1.6倍。     

核电站设备制造中双相不锈钢的应用

奥氏体-铁素体双相不锈钢中稳定存在奥氏体相和铁素体相,该钢具有较高的机械性能和优异的耐点蚀、晶间腐蚀和应力腐蚀性能,在核电站设备制备中被广泛应用。一般双相不锈钢铸件中铁素体相的体积分数≤20%,服役温度≤425℃,双相不锈钢锻件中铁素体相约占50%,服役温度≤250℃。文中介绍了核电站设备中应用的双相不锈钢铸、锻件的化学成分、制造和焊接工艺要求及组织和性能。     

马氏体不锈钢成分、工艺和耐蚀性的进展

介绍了马氏体铬不锈钢、马氏体铬镍不锈钢和马氏体时效不锈钢的进展和发展动态,讨论了化学成分、热加工、热处理工艺对马氏体不锈钢组织和耐蚀性的影响。当前国内开发的新型马氏体不锈钢主要为符合给定服役条件的专用钢类。优化化学成分,提高钢的纯净度,通过热加工和热处理工艺控制钢的组织,进行表面处理是提高马氏体不锈钢耐蚀性的有效途径。     

Effect of Sn on Corrosion Behavior of Ultra-pure 17 mass% Cr Ferritic Stainless Steels in Sulphuric Acid

The effect of Sn on corrosion behavior of ferritic stainless steels in 20mass% H_2SO_4 was investigated by alternating current and direct current electrochemical methods and gravimetric tests at 25 ℃.The results show that Sn can effectively improve general corrosion resistance of ferritic stainless steels in H_2SO_4,mainly due to highly raised hydrogen evolution overpotential which is in favour of strong suppression of hydrogen evolution reaction,and inhibitive effect of dissolved Sn~(2+)on elementary anodic reactions.With increasing Sn content,the better corrosion resistance can be reached.The Electrochemical Impedance Spectroscopy(EIS)includes four time constants and can be perfectly fitted by equivalent circuit:R_s(C_(dl)R_(ct))(Q_(ads)R_(ads)(R_(L1)(L_1(R_(L2)L_2)))).     

双相不锈钢成分、性能及析出相分析

叙述了常用的超级双相不锈钢的成分、耐蚀性和应用,分析了不同种析出相、有害相、点蚀当量值(PRE)及焊接对双相不锈钢组织和性能的影响,得出通过控制合金化成分,调整点蚀当量值,编制合理的热处理工艺,严格控制有害相析出,使两相比含量比值接近1,可获得良好耐蚀性、高强度和耐磨性的双相不锈钢。     

Hot Compression Behavior of AsCast Precipitation Hardening Stainless Steel

 High temperature deformation characteristics of a semiaustenitic grade of precipitation hardening stainless steels were investigated by conducting hot compression tests at temperatures of 900-1 100 ℃ and strain rates of 0001-1 s-1. Flow behavior of this alloy was investigated and it was realized that dynamic recrystallization (DRX) was responsible for flow softening. The correlation between critical strain for initiation of DRX and deformation parameters including temperature and strain rate, and therefore, Zener Hollomon parameter (Z) was studied. Metallographic observation was performed to determine the as deformed microstructure. Microstructural observation shows that recrystallized grain size increases with increasing the temperature and decreasing the strain rate. The activation energy required for DRX of the investigated steel was determined using correlations of flow stress versus temperature and strain rate. The calculated value of activation energy, 460 kJ/mol, is in accordance with other studies on stainless steels. The relationship between peak strain and Z parameter is proposed.     

中温时效对022Cr21Ni2Mn5N钢析出行为及冲击韧性的影响

采用Thermo-Calc软件对022Cr21Ni2Mn5N双相不锈钢的近平衡态析出相进行了计算分析。采用光学显微镜、透射电镜、物理化学相分析方法对经中温时效处理后试验钢第二相的析出温度、种类、数量和位置进行了观察和研究,并分析了第二相析出行为对钢的冲击韧性的影响机理。结果表明:022Cr21Ni2Mn5N双相不锈钢在600~700℃中温时效时的析出相主要为六方结构的Cr_2N相和面心立方结构的M_(23)C_6相,未见σ相析出。中温时效时,受制于该钢较低的C含量,M_(23)C_6相析出位置仅局限于相界、晶界处。该钢较高的N含量促进钢中Cr_2N相析出,并在相界、晶界和铁素体晶内均有发现。时效初期M_(23)C_6和Cr_2N均具有较高的析出速度,时效时间继续延长析出量增长放缓。时效处理时间和温度直接影响钢的冲击性能:时效初期第二相的快速析出导致钢的冲击功急剧下降;时效足够长时间,第二相析出量达到饱和,钢的冲击功趋于稳定值;并且600℃长时时效时,钢的冲击功值达到最小。