Effect of Heat Treatment on Microstructure and Microhardness of Directionally Solidified NiAl-Cr(Mo)-Hf Intermetallic Alloy

The effect of heat treatment on microstmcture and microhardness of directionally solidified (DS)NiAl-Cr(Mo)-Hf alloy is investigated. The results indicate that there is little change in the morphology of NiAl and Cr(Mo) phases after heat treatment. However, the semicontinuous Heusler phase which is originally located at grain boundaries is partially reduced and fine Heusler particles re-precipitate within NiAl matrix. Furthermore, NiAl precipitates coarsen in Cr(Mo) phase and dislocations appear in Cr(Mo) phase. Microhardness of as-grown (DS)NiAl-28Cr-5Mo-lHf alloy is much higher than that of (DS)NiAl-28Cr-6Mo and basically has no change after heat treatment.

Effects of heat treatment on microstructure and microhardness of linear friction welded dissimilar Ti alloys

A detailed investigation for the influence of post weld heat treatment （PWHT） on the microstructure of TC4 and TC17 dissimilar joints was analyzed. The fully transformed microstructure in the as-welded zone indicated that the peak temperature exceeded theβ-transus temperature at the weld interface during linear friction welding. TC4 side was mainly composed of martensiteα′phase with random distribution and it was singleβfor that of TC17. In the thermomechanically affected zones of TC4 and TC17, the structure undergoes severe plastic deformation and re-orientation, yet without altering the phase fractions. After PWHT, in the weld zone of TC4 alloy, the phase transformationα′→α＋βoccurred and the acicularαwas coarsened, which resulted in a decrease in hardness. In the weld zone of TC17 alloy, fineαphase precipitated at the grain boundary and withinβgrains, which resulted in a sharp increase in hardness.

Effect of vacuum heat treatment on microstructure and microhardness of cold sprayed Cu-4Cr-2Nb alloy coating

The effect of vacuum heat treatment on the microstructure and microhardness of cold-sprayed Cu-4%Cr-2%Nb alloy coating was investigated. The heat treatment was conducted under the temperatures from 250 ℃ to 950 ℃ with a step of 100 ℃ for 2 h. It was found that a dense thick Cu-4Cr-2Nb coating could be formed by cold spraying. After heat treatment, a Cr2Nb phase was uniformly distributed in the matrix, which was transferred from the gas-atomized feedstock. A little grain growth of Cr2Nb phase was observed accompanying with the healing-up of the incomplete interfaces between the deposited particles at the elevated temperatures. The coating microhardness increases a little with increasing the temperature to 350 ℃, and then decreases with further increasing temperature up to 950 ℃. This fact can be attributed to the microstructure evolution during the heat treatment.

Influence of heat treatment on microstructure and mechanical properties of FeCrNi coating produced by laser cladding

The FeCrNi alloy powders were used on the dovetail groove of FV520B steel to fabricate the multilayer laser cladding layers. The effects of heat treatment on the microstructure and mechanical properties of FeCrNi layers were investigated. The results showed that the heat treatment at the temperature ranged from 1073 to 1273 K refined the grains of the substrate materials and removed the soft zone of hardness between the fused zone (FZ) and base material (BM) effectively mainly due to a secondary quench of heat treatment. When the temperature of heat treatment was 1073 K, the maximum ultimate tensile strength (UTS) values of the laser cladding component were obtained. However, the heat treatment at high temperature had a bad effect on wear resistance of coatings at some extent.

Influence of heat treatment on microstructures and micro-hardness of n-SiO2/Ni composite coating

The n-SiO2/Ni composite electro-brush plating coating was prepared on the 1045 steel substrate. SEM and TEM were utilized to analyze the surface and cross-section morphologies or the microstructures of the composite coating before and after heat treatment, as well as a micro-hardness tester was used to measure the micro-hardness before and after heat treatment. The results show that the entrance of nano SiO2 particles into composite coating makes the micro-hardness higher. After heat treatment, due to the obstruction to growth of Ni crystals from nano particles, the composite coating still possesses a higher micro-hardness than that of common Ni-base coating.

高温热处理对(DS)NiAl-Cr(Mo)-Hf共晶合金显微组织和显微硬度的影响

采用高温度梯度定向凝固装置制备NiAl-28cr-5Mo-1Hf(原子分数,％,下同)共晶合金,研究了高温热处理对合金显微组织和显微硬度的影响。结果表明,热处理后,NiAl和Cr(Mo)的层片状组织形貌基本没有变化,而合金中分布于胞界的半连续的Heusler(Ni_2AlHf)相部分或大部分消失,并以弥散的Heusler颗粒形式在NiAl基体中重新析出。此外,Cr(Mo)相中的NiAl微粒粗化,在Cr(Mo)相中出现了位错线,定向凝固NiAl-28Cr-5Mo-1Hf合金的显微硬度明显高于NiAl-28Cr-6Mo合金,热处理后,合金的硬度值基本保持不变。

850℃等温时效对高Nb-TiAl合金组织和力学性能的影响

采用光学显微镜、扫描电子显微镜、X射线衍射仪和显微硬度仪等手段,系统研究了850℃等温时效对高Nb-TiAl合金的显微组织及硬度的影响。结果表明:锻态高Nb-TiAl合金显微组织为近片层组织结构,片层团尺寸约为112μm,片层间距约为1.6μm,具有锯齿状晶界,主要由γ和α2相组成;合金在850℃等温时效分别为5 min、5 h、10 h、20 h的过程中,其显微组织主要由γ相、α2相和少量β相形成的片层组织结构组成,随着等温时间的延长,合金片层团和片层间距均存在明显的粗化现象;在不同的等温时效过程中,合金的表面皆表现出比较高的硬度值(420~460 HV),其显微硬度随保温时间的延长呈下降趋势。

热处理对Mg-5wt%Sn合金组织与显微硬度的影响

研究了固溶处理(460-500℃保温1-96h)加人工时效处理(210-290℃保温1-160h)对Mg-5wt%Sn合金组织演变的影响及组织与显微硬度之间的关系。结果表明,经480℃过固溶处理后,合金中的Mg2Sn相基本溶解,随后的时效处理过程中Mg2Sn相以弥散形式析出。Mg-5wt%Sn合金具有明显的时效硬化特征:经480℃固溶处理后,时效温度采用210℃时,保温96h后显微硬度达到峰值为77.4 HV0.01;时效温度为250℃时,保温16h后显微硬度达到峰值为76.6 HV0.01;时效温度采用290℃时,保温4h后达到峰值为60.2 HV0.01。合适的时效处理制度能明显提高合金的显微硬度。

梯度热处理对Ti_3Al/TC11双合金焊接界面组织和显微硬度的影响(英文)

研究经近等温变形的Ti3Al/TC11双合金在梯度热处理前后,焊接界面显微组织和显微硬度的变化。结果表明,Ti3Al侧热影响区的显微组织在梯度热处理前后变化较小是因为晶界α2相较稳定;焊缝区显微组织变化较大,究其原因是近等温变形造成的晶粒破碎和Ti、Al、Nb等原子的扩散,造成α、α2相互制衡,致使不能形成连续晶界α2或晶界α;TC11合金基体经过梯度热处理后从网篮组织转变成等轴组织;显微硬度的提高是因为Ti、Al、Nb扩散,造成α、α2尺寸小、弥散分布所致。

固溶处理对Mg-Dy-Zn合金显微组织和腐蚀性能的影响

采用光学显微镜(OM)、扫描电镜(SEM)、X-射线衍射仪(XRD)、显微硬度计及电化学工作站等设备,研究了固溶处理对Mg-2Dy-0.5Zn(at%)合金显微组织及腐蚀性能的影响。结果表明,铸态合金的显微组织由α-Mg枝晶和分布在枝晶间的析出相组成,其中析出相由片层状Mg12Zn Dy相、蜂窝状Mg8Zn Dy相和少量立方体颗粒状Mg24Dy5相组成。随着固溶温度(500~540℃)和固溶时间(0~12 h)的增加,合金的析出相逐渐溶解,同时有少量颗粒状的(Mg,Zn)xDy相沿晶界析出。合金在530℃固溶8 h,析出相几乎完全固溶到α-Mg基体中,合金基体的显微硬度增加,其值达到74.74 HV0.1。此外,电化学测试结果表明,固溶态(530℃固溶8 h)合金显示出优异的耐蚀性能,其腐蚀电流和腐蚀电位分别为8.650×10-4A和-1.159 V。该优异的耐蚀性主要来自于合金元素的均匀分布,低的析出相体积分数和细小的晶粒尺寸。

热处理制度对2519铝合金晶间腐蚀性能的影响

通过拉伸测试、显微硬度测试、透射电镜 (TEM)及扫描电镜 (SEM)分析等手段研究了不同热处理制度对 2 5 19铝合金组织、力学性能及抗晶间腐蚀性能的影响。结果表明 ,与T6状态相比 ,2 5 19合金经T8处理后 ,合金的强度、硬度提高 ,合金峰值时效时间提前 ,但塑性降低 ,同时 ,晶内沉淀析出的θ′相数目增加、尺寸减小、分布均匀 ,沿晶界析出的θ′(θ)相数量减少 ,且不连续分布 ,无沉淀带变窄。T8处理提高了合金峰值时效态抗晶间腐蚀的能力。

定量分析热处理对Ti_2AlNb合金显微组织及硬度的影响

对B2相区等温锻造后的Ti-22Al-25Nb合金在热处理中的显微组织特征参数进行定量分析。用图像分析软件Image-Pro Plus测量了各个相的体积分数、初生粗板条O相以及次生细板条O相的宽度及长度,采用多元线性回归的方法建立了显微组织特征参数与显微硬度的定量关系模型。结果表明:合金的显微组织主要取决于热处理制度。粗板条状O相通过固溶处理得到,较细的次生针状O相通过时效处理调节。初生粗板条O相的宽度和体积分数通过固溶处理控制;而二次析出的针状O相通过时效处理来调节。实验结果与统计分析表明,显微组织特征参数与显微硬度之间满足线性关系。

热处理对冷喷涂Fe涂层组织与性能影响研究

冷喷涂作为一种新型的涂层技术,在制备大部分金属涂层、金属陶瓷复合涂层方面有着巨大的潜力。本文采用冷喷涂在Al基体上制备了Fe涂层,并结合喷涂后热处理研究了涂层组织与性能特点。结果表明,所得Fe涂层的内部组织比较致密;受到喷涂过程中空气的影响,喷涂射流呈现亮流,所制备涂层表面有较大、较深气孔。在较低温度下热处理后Fe涂层的显微组织变化不明显,显微硬度明显降低;Fe涂层与Al基体之间形成约10μm厚度的金属间化合物层。

快速凝固过共晶铝硅合金粉末的形貌与显微组织

采用快速凝固气体雾化工艺制备Al-27%Si合金粉末,研究合金粉末形貌和热处理对组织的影响,利用X射线衍射仪和显微硬度计等对Al-27%Si合金粉末中硅相的析出与长大进行表征。结果表明:快速凝固Al-27%Si合金粉末由基体α(Al)相、块状β-Si相和枝晶状共晶硅相组成;经热处理后,β-Si相发生粗化,共晶硅相逐渐转变为块状相且发生粗化;在500℃下加热保温后,α(Al)相和β-Si相的衍射峰强度随时间延长而增大,α(Al)相衍射峰向低角度偏移;合金粉末显微硬度在500℃下加热,初期有下降趋势,但随时间延长,不再下降,而是维持相对稳定。

热处理对等离子熔覆钴基涂层组织及性能的影响

以Stellite6钻基合金粉末为原料,采用等离子熔覆技术在Q235基体上制备冶金结合良好的合金涂层,研究Stellite6钻基合金熔覆层热处理前后的组织及性能。结果表明:熔覆层的组织主要为树枝晶,经热处理后,组织变得均匀粗大;经热处理后熔覆层的横向硬度平均值由440 HV上升为505 HV。

热处理对AZ31B镁合金搅拌摩擦焊焊接接头显微组织和显微硬度的影响

对AZ31B镁合金进行搅拌摩擦焊接及焊后热处理,研究了热处理前后焊接接头显微组织及显微硬度的变化规律。结果表明:随着退火温度的升高,AZ31B镁合金搅拌摩擦焊接接头前进侧和后退侧的分界线逐渐消失;在热处理过程中,由于焊核区所吸收的能量主要用于晶粒的长大,而热影响区和热机影响区结合区域在再结晶时消耗了较多的能量,导致了焊核区晶粒的长大速率大于热影响区和热机影响区结合区域的;当退火温度低于200℃时,热机影响区的显微硬度高于焊核区,并且前进侧热机影响区的显微硬度略高于后退侧的;当退火温度高于250℃后,热机影响区的显微硬度显著下降;随着退火温度的升高,热影响区的显微硬度略有下降。

用循环热处理细化铸造TiAl基合金的显微组织

设计了一种新的循环热处理工艺，并用正交设计试验（Ｌ１６（４５））研究了各热处理工艺参数，即加热速度、保温温度、保温时间、冷却速度和循环次数对铸造ＴｉＡｌ基合金显微组织和显微硬度（ＨＶ５）的影响．结果表明：循环热处理工艺均能不同程度地提高显微硬度，提高的最大幅度达４０％；各因素的影响按大小排列依次为加热速度，保温时间、保温温度、冷却速度、循环次数．利用循环热处理可获得不同类型的显微组织．在正交试验的基础上确定了优化的热处理工艺，并用它获得了细小的显微组织．

纳米Al_2O_3粒子增强化学镀Ni-P复合镀层的组织结构

通过化学复合镀制备纳米Al2O3粒子增强Ni-P复合镀层,并对所得纳米复合材料的组织结构进行了深入研究.场发射扫描电镜分析(FESEM)和透射电镜分析(TEM)结果表明,纳米粒子在复合镀层中含量较高且分布均匀;X射线衍射分析(XRD)和差示扫描量热分析(DSC)结果表明,粒子没有改变复合镀层镀态结构(非晶态),但使得复合镀层晶化温度降低.根据等速升温和等温的DSC曲线对化学复合镀层的晶化过程做了动力学分析,晶化表观活化能和Avrami指数均有降低.在230°C热处理24h后,化学复合镀层发生晶化析出Ni3P,而同样条件下的Ni-P合金保持非晶态.复合镀层显微硬度值比化学镀Ni-P镀层明显提高,热处理后镀层晶化硬度值大幅提高,400°C热处理1h后达到最高值(HV50超过1150).

2Cr13钢的全方位离子注入与离子束增强沉积复合表面强化处理

对2Cr13不锈钢表面进行了等离子体浸没离子注入(PIII)与离子束增强沉积(IBED)复合强化处理.对强化后的试样进行了俄歇电子能谱(AES)、X光电子能谱(XPS)分析及显微硬度、摩擦磨损和耐腐蚀性能测试.结果表明,处理后的试样表面层中含有强化相TiN和CrN;与基体相比,被处理试样的显微硬度显著增大,最大增幅达80.4%;摩擦系数降至0.2～0.3,磨痕宽度最大减少了近4倍;腐蚀电位最大提高了5倍,腐蚀电流密度减少了26倍.磨损中粘着现象大大减轻,耐磨耐蚀性能得到了显著改善.

热处理对一种碳钢电阻焊管组织和性能的影响

采用光学显微分析、显微硬度测试和腐蚀试验方法研究了一种碳钢电阻焊管焊接区的显微组织和性能。结果表明:电阻焊后焊接区因冷却速率快形成马氏体组织,硬度高,焊接区存在明显的选择性腐蚀,沿焊缝方向形成腐蚀沟槽,沟槽腐蚀的敏感性高。焊后的相变热处理可消除焊接区的马氏体组织,得到与母材相近的组织,但熔合线主要以铁素体为主,其显微硬度比母材偏低,选择性腐蚀集中在熔合线,其沟槽腐蚀敏感性明显降低。