Effect of Ni content on the weldability of middle-chromium hyperpure ferritic stainless steels 00Cr21Ti

Excellent weldability substantially contributes to the intrinsic quality of steels,while appropriate chemical composition plays a primary role in the essential weldability of steels.The poor weldability of ferritic stainless steels could be improved through modification with minor alloy elements while minimally increasing the cost.Therefore,studying the effect of minor alloy elements on the weldability of steels is of considerable importance.In this study,several steels of middle-chromium hyperpure ferritic stainless 00Cr21Ti with different Ni content(0.3%,0.5%,0.8%,and 1.0%)were developed,and their weldabilities of butt joint samples welded using the metal inert gas welding process,including the influence of welded joints on the microstructure,tensile performance,corrosion resistance,and fatigue property,were investigated.Results show that the steels with w(Ni)≥0.8%exhibit excellent mechanical properties compared with those with low-Ni content steels,further,their impact toughness at normal atmospheric temperature meets the industrial application standard and the fatigue property is similar to that of 304 austenitic stainless steel.Moreover,results show that the corrosion resistance of all the samples is almost at the same level.The results acquired in this study are supposed to be useful for the optimization of the chemical composition of stainless steels aiming to improve weldability.

15-15Ti奥氏体不锈钢热老化小尺寸试样单轴拉伸行为的GTN微观损伤模型研究

通过加速热老化试验模拟了15-15Ti奥氏体不锈钢的辐照效应,构建了Ramberg-Osgood力学本构模型和GTN(Gurson-Tvergaard-Needleman)微观损伤模型。结合有限元方法,探讨了热老化不同时间的15-15Ti奥氏体不锈钢小尺寸试样在不同温度拉伸试验过程中的应力-应变响应行为和损伤断裂过程。结果表明:热老化小尺寸试样中有少量碳化物析出和大量σ相形成,导致其抗拉强度和屈服强度显著下降;未热老化试样的拉伸断口中有大量韧窝,为韧性断裂,而热老化试样的拉伸断口中韧窝数量明显减少,析出相周围有撕裂棱,为脆性断裂;热老化试样标距段的应力集中和颈缩均延迟发生;热老化试样的断裂应变明显小于未热老化试样;热老化能促使小尺寸试样中孔洞的聚集和增多,从而加速失效。

Mg处理Nb-Ti微合金钢中非金属夹杂物演变机理研究

在工业生产条件下,对Nb-Ti微合金钢进行Mg处理试验,分析了Mg处理条件下,微合金钢中非金属夹杂物的演变规律。结果表明,微合金钢经过铝脱氧产物主要为Al_(2)O_(3)夹杂,进行Ca处理后,Al_(2)O_(3)夹杂减少,转变为CaO-Al_(2)O_(3)夹杂,且部分MnS夹杂转变为CaS夹杂;精炼阶段将Ca处理改为Mg处理后,可将铝脱氧产物Al_(2)O_(3)夹杂变性为MgO-Al_(2)O_(3)夹杂。Mg处理前,夹杂物在LF主要是Al_(2)O_(3)夹杂,进行Mg处理和Ti合金化后,钢中主要夹杂物变为MgO-Al_(2)O_(3)夹杂、MgO夹杂和TiN夹杂,最终在铸坯中的夹杂物为MgO-Al_(2)O_(3)外包裹CaS/MnS和(Nb、Ti)N复合夹杂。对Ca处理和Mg处理的夹杂物尺寸进行对比,夹杂物尺寸主要分布在5μm以内,Mg处理形成的2μm以内的夹杂物占比高于Ca处理工艺,表明镁处理可以较好地细化夹杂物,形成大量弥散分布的细小夹杂,有助于提升钢的综合力学性能。

Ti-Mg脱氧钢复合夹杂物诱导针状铁素体原位观察

以Ti-Mg脱氧钢为研究对象,采用热模拟和高温激光共聚焦显微镜(CLSM)研究了不同冷速对组织相变的影响以及连续冷却条件下原位观察晶内夹杂物诱导针状铁素(AF)体形成过程。结果表明:随着冷速的增加,AF含量先增加后降低,冷速为5℃/s时,AF含量最多;高温原位观察发现,614℃时AF开始在夹杂物处形核,553℃时形核长大结束。电子探针面扫夹杂物内层以MgO-Al_(2)O_(3)为主体,外层覆盖TiOx-MnO。贫Mn区的形成是诱导含Ti-Mg复合夹杂物诱导生成AF的主要原因。

Ti6321钛合金焊接接头高温-中应变率力学性能及微观组织

采用Gleeble热模拟试验机对焊接接头不同区域进行了高温-中应变率压缩试验,研究了焊接接头不同区域组织对其力学性能的影响,分析了温度和应变率对其变形过程的影响。结果表明,在高温-中应变率压缩时,热影响区强度最高,母材区较差,焊缝区强度最差。高温下(350℃和550℃),随应变率增加(1s^(-1)和10s^(-1)),变形主导因素由应变硬化效应转变为热软化效应。母材绝热剪切敏感性较低,在高温-中应变率压缩变形时沿剪应力最大方向发生大范围晶粒协调变形。由于热影响区组织均匀,应变率的增加相对于温度的增加,更能促进热影响区绝热剪切带的生成。焊缝区压缩时,应力易于在晶界处集中,此时温度对其压缩变形时绝热剪切带的生成更为有利。

15-15Ti ODS奥氏体钢晶粒组织与纳米粒子的透射电镜表征

15-15Ti奥氏体不锈钢由于其优异的耐腐蚀性能和高温力学性能成为钠冷快堆包壳的候选材料,其高温力学性能和抗辐照肿胀能力可以通过氧化物弥散强化(ODS)进行增强。本工作对通过机械合金化以及锻造工艺制备的15-15Ti ODS奥氏体钢和作为参比材料的15-15Ti奥氏体钢的微观结构进行研究,对ODS钢中氧化物颗粒的分布以及强化机制有了较为深入的认识。研究发现氧化物弥散粒子分布总体均匀但有成团聚集倾向。Y-Zr-O粒子的平均粒径为(9.97±0.04) nm,平均粒距为(17.25±0.68) nm,数密度约为4.49×10^(22)m^(-3)。在透射电镜明场像下观察到ODS样品中氧化物颗粒对位错的钉扎作用。扫描透射(STEM)结合能谱分析显示ODS样品中有两种氧化物,分别为占比较少的Al_(2)O_(3)以及占比较多的Y_(4)Zr_(3)O_(12)。高分辨电镜表征发现第二相粒子与基体之间出现共格或半共格界面的迹象,并且少数粒子周围出现非晶化界面。

汽车零部件用ADC12-0.25Ti铝合金的组织及铸造性能研究

采用不同浇注温度制备了汽车零部件用ADC12-0.25Ti铝合金,并进行了试样显微组织、流动性和抗热裂性的测试与分析。结果表明:随浇注温度从690℃逐步提高到750℃,合金显微组织先基本不变后急剧粗化,流动性逐渐提高,抗热裂性先提高后下降。当浇注温度为690℃时,铝液流程长度最短;当浇注温度为750℃时,铝液流程长度最长,较690℃浇注时增大71 mm。当浇注温度为720℃时,试样裂纹长度最短,较690℃浇注时减小2.9 mm;当浇注温度为750℃时,试样裂纹长度最长,较690℃浇注时增大3.4 mm。

再结晶区变形后冷却速率对Nb-V-Ti-N微合金钢组织演变及力学性能的影响

利用Gleeble-3800热/力模拟机研究了Nb-V-Ti-N微合金钢的动态连续冷却转变规律,并探讨了再结晶区变形后冷速对其组织及性能的影响。结果表明:当冷速由0.1℃/s增大至30℃/s时,实验钢发生铁素体、珠光体、贝氏体和马氏体相变,冷速区间分别为0.1~30℃/s、0.1~8℃/s、3~30℃/s和15~30℃/s;随着冷速的增大,铁素体、珠光体和贝氏体相变温度分别由785、682和498℃降低到625、553和415℃,而马氏体相变温度则由342℃升高为365℃。当冷速由3℃/s增大至8、20和30℃/s时,钢中大角度晶界占比由0.734不断减少到0.509;平均有效晶粒尺寸先由10.62μm减小到7.46μm后增大到9.61μm,最小值在20℃/s获得;平均KAM值先由0.419°略降低到0.407°后升高到0.691°,最小值在8℃/s获得。此外,当冷速由0.1℃/s增大至30℃/s,实验钢的显微硬度由(197±23.3)HV0.1逐渐增加到(316±11.8)HV0.1,屈服强度由(475±67.1)MPa增加到(818±33.9)MPa。分析可知,为了获得良好的强度-韧性配合,实验钢再结晶区变形后适宜的冷速为8℃/s。

Ti-Mo铁素体基微合金钢的连续冷却转变行为

利用Gleeble 3800热模拟实验机分别获得了Ti-Mo铁素体基微合金钢在静态和动态经不同速率冷却后的温度-膨胀量曲线,结合金相法绘制了Ti-Mo微合金钢的连续冷却转变(CCT)曲线。结果表明:无论是静态CCT还是动态CCT,随着冷却速率的增大,实验钢的珠光体与铁素体均减少,贝氏体体积分数增加,当冷却速率达到30℃/s时,组织全部为贝氏体。实验钢铁素体相变的开始温度为800℃,压缩变形扩大了珠光体相区使其向左扩张,缩小了贝氏体相区,并降低铁素体转变开始温度。在制定控轧控冷工艺时,为了使实验钢在卷取过程中获得铁素体+粒状贝氏体组织,从而进一步优化强韧性能,建议Ti-Mo铁素体基微合金钢终轧温度应高于800℃,轧后冷却速率应高于30℃/s,并且要在贝氏体相变高温区完成卷取。

初轧温度对Ti2AlNb钛合金环件径-轴向轧制过程的影响

基于Simufact Forming有限元软件对Ti2AlNb钛合金径-轴向环件轧制过程进行了数值模拟,研究了不同初轧温度对驱动辊径向轧制力能参数以及环件成形后的等效应变、温度的影响规律。结果表明:随着环件成形温度的升高,在环件轴向截面,等效应变标准差分布越来越均匀,而温度标准差分布差异却越来越大;在环件轧制初期,温度对轧制力影响显著,驱动辊轧制力增加速度及其峰值随环件成形温度的升高逐渐降低;在环件轧制后期,温度对轧制力的影响很小。

超低碳钢中Al-Ti-O夹杂物的形貌演变和生成机理

对超低碳IF钢钛合金化后的非金属夹杂物进行了分析,研究发现钛合金化后的夹杂物主要为Al_(2)O_(3)和Al-Ti-O夹杂物,没有发现纯TiO_(x)夹杂物.钢中生成的Al-Ti-O复合夹杂物从形貌上均可分为七种类型,四种具有Al_(2)O_(3)外层,另外三种无Al_(2)O_(3)外层.钛合金化后,钢中瞬态生成了大量无Al_(2)O_(3)外层的Al-Ti-O夹杂物,随后夹杂物表面生成Al_(2)O_(3)外层,导致有Al_(2)O_(3)外层的Al-Ti-O夹杂物数量比例逐渐增加至78.0%.热力学计算结果表明,随着钢中钛含量的增加,夹杂物的转变顺序为固态Al_(2)O_(3)→液态Al-Ti-O→固态Ti_(2)O_(3).确定了Al-Ti-O夹杂物的生成机理过程分为两步:精炼过程钛合金化后,当钢液局部区域的钛的质量分数高于0.42%时,[Ti]与钢液反应瞬态生成Al_(2)O_(3)-TiO_(x)或TiO_(x);随着精炼过程中钛元素的混匀,含TiO_(x)夹杂物被钢中[Al]还原,Al_(2)O_(3)-TiO_(x)和TiO_(x)夹杂物逐渐转变,在夹杂物表面生成Al_(2)O_(3).

变形工艺参数对Nb-Ti微合金钢再结晶的影响

通过热压缩实验研究了应变量及加热温度对Nb-Ti微合金钢的再结晶行为及变形后相变产物的影响。结果表明:当加热温度为1100℃时,奥氏体晶粒尺寸不均匀,导致压缩过程中各晶粒的应变累积不均匀,当总应变量为0.380时即发生了动态再结晶;奥氏体加热温度为1050和1000℃时,动态再结晶的临界应变量分别为0.668和0.552;当变形温度为850℃,应变量超过0.552时,试样在道次间隔发生静态再结晶;奥氏体化1100℃保温后压缩样品的冷却相变显微组织为贝氏体和准多边形铁素体,而1050℃和1000℃奥氏体化保温后压缩样品冷却相变后显微组织均为多边形铁素体,1000℃奥氏体化保温后压缩样品冷却相变后多边形铁素体晶粒尺寸更细小(2~5μm)。

Ti微合金化对高锰钢组织和性能的影响

研究了Ti微合金化对Mn18钢组织和力学性能的影响,并分析了Mn18钢锤头失效的原因。结果表明,Ti微合金化在Mn18钢中具有细化晶粒、提高冲击韧性、伸长率、强度和硬度等作用,在Mn18钢加入0.10%和0.30%的w[Ti]时,随着Ti含量增加,高锰钢的硬度增大、强度提高,冲击韧性和延伸性也均呈优化趋势,继续增加w[Ti]至0.51%时,除布氏硬度继续增大外,KU2数值及稳定性、强度稳定性、伸长率等指标均出现下降趋势,高锰钢属于高氮奥氏体钢,加入Ti后迅速析出大量TiN,作为异质核心,起到系列有益作用,加入量过大,则TiN类夹杂物的尺寸过大,且出现局部聚集,将对Mn18钢的性能稳定性造成不利影响,也易于导致Mn18锤头断裂失效。在Mn18钢中使用Ti微合金化,为保证其有益效果,其含量不应超过0.30%。

Effect of rare earths on mechanical properties of plasma nitrocarburized surface layer of 17-4PH steel

The aim of this investigation is to reveal the influence of rare earths(RE) addition on mechanical properties of plasma nitrocarburized 17-4PH steel.The nitrocarburized layers were characterized by optical microscope,scanning electron microscope equipped with energy dispersive X-ray analyzer,X-ray diffractometer,microhardness tester and pin-on-disc tribometer.The results showed that RE atoms could diffuse into the surface layer of 17-4PH steel plasma nitrocarburized at 500 °C for 4 h and did not change the ...

Relationship of microstructure transformation and hardening behavior of type 17-4 PH stainless steel

The relationship between the microstructure transformation of type 17-4 PH stainless steel and the aging hardening behavior was investigated. The results showed that, when 17-4 PH stainless steel aging at 595℃, the bulk hardness of samples attains its peak value （42.5 HRC） for about 20 min, and then decreases at all time. TEM revealed the microstructure corresponding with peak hardness is that the fine spheroid-shape copper with the fcc crystal structure and the fiber-shape secondary carbide M23C6 precipitated from the lath martensite matrix. Both precipitations of copper and M23C6 are the reasons for strengthening of the alloy at this temperature. With the extension of holding time at this temperature, the copper and secondary carbide grow and lose the coherent relationship with the matrix, so the bulk hardness of samples decreases.

A two-parameter model to predict fatigue life of high-strength steels in a very high cycle fatigue regime

In this paper, ultrasonic （20 kHz） fatigue tests were performed on specimens of a high-strength steel in very high cycle fatigue （VHCF） regime. Experimental results showed that for most tested specimens failed in a VHCF regime, a fatigue crack originated from the interior of specimen with a fish-eye pattern, which contained a fine granular area （FGA） centered by an inclusion as the crack origin. Then, a two-parameter model is proposed to predict the fatigue life of high-strength steels with fish-eye mode failure in a VHCF regime, which takes into account the inclusion size and the FGA size. The model was verified by the data of present experiments and those in the literature. Furthermore, an analytic formula was obtained for estimating the equivalent crack growth rate within the FGA. The results also indicated that the stress intensity factor range at the front of the FGA varies within a small range, which is irrespective of stress amplitude and fatigue life.

Microstructure and mechanical properties of similar and dissimilar metal gas tungsten constricted arc welds:Maraging steel to 13-8 Mo stainless steel

Maraging steel (250) and 13-8 Mo stainless steel plates were joined by gas tungsten constricted arc welding(GTCAW) process in similar and dissimilar metal combinations using 13-8 Mo stainless steel filler wire. The similar and dissimilar metal welds made in solutionized condition were subjected to standard post weld hardening treatments direct ageing at 485 ℃, soaking for 31/2 hours followed by air cooling(ageing treatment of maraging steel) and direct ageing at 510 ℃, soaking for 4 h followed by air cooling(ageing treatment of 13-8 Mo stainless steel). The joint characterization studies include microstructure examination, microhardness survey across the weldments and transverse weld tensile test.Similar and dissimilar metal weldments responded to both the post weld ageing treatment. After post weld aging, increase in yield strength, UTS and slight reduction in % elongation of similar and dissimilar metal were observed. The observed tensile properties were correlated with microstructure and hardness distribution across the welds.

Process for improving the ladle free- opening rate for high aluminum steel in continuous casting

Steel 20Mn23AlV is a type of high aluminum steel with a very low ladle free-opening rate. The aluminum composition of 20Mn23AlV ranges from 1.6% to 2.45% ,which is significantly higher than other types of steel. According to the real condition of 40 t ladle in steel-making plant of Baosteel Special Steel Company, previous works show that the key factors affecting the ladle free-opening rate of high aluminum steel in continuous casting are：sand material, accessories baking, ladle nozzle cleaning, the process and amount of adding sand, and the rate of argon stirring during refining. Therefore, improving the ladle filler sand quality, baking all of the raw materials, controlling the addition of ladle filler sand, cleaning the ladle nozzle, and optimizing argon stirring during the refining process can resolve the problem of a low ladle free-opening rate of high aluminum steel caused by the long ladle time of liquid steel.

EFFECT OF DYNAMIC STRAIN AGING ON LOW CYCLE FATIGUE BEHAVIOUR OF 18-8 AUSTENITIC STAINLESS STEEL

Studies were made of the symmetric tensile-compressive low cycle fatigue behaviour and the influence of dynamic strain aging(DSA)pre-treatment of 18-8 austenitic stainless steel. Within the testing amplitude range of strain.±0.5 % to±1.5 %,the three processes of cyclic hardening,cyclic saturation and cyclic softening were observed.In the same amplitude of strain,the peak stress of the samples pre-treated by DSA is higher than that of solid-solu- tion and cold working pre-treatment,but no remarkable differences of the fatigue lives of them were found.TEM observation shows that the uniform and stable dislocation networks with high density form after DSA pre-treatment,which increases the cyclic peak stress.The cyclic softening results from the low dislocation density and elongated cell structure with low energy.

Role of Rare Earth in Low Sulphur Nb-Ti-Bearing Steel

The effect of rare earth on the microstructures, mechanical properties and inclu sions in low sulphur Nb-Ti-bearing steel were investigated. It is shown that t h e transverse yield point, the traverse tensile strength and elongation of testin g steels decrease initially and then rise with increasing content of rare earth. The impact energy values of the testing steels exhibit a contrary trend. Proper amount of rare earth in the steels can improve the anisotropy of impact toughne ss above -20 ℃ and it does not affect the type of microstructures which ar e st ill composed of ferrites and pearlites, but the pearlite amount increases. On one hand, rare earth cleans the molten steel and reduces the amount of inclusions; on the other hand, rare earth makes the inclusions spheroidizd, refi ned and dispersed, and thus improves the distribution of inclusions.