导流管参数对真空紧耦合气雾化法制备Fe-Cr合金粉末的影响

采用真空紧耦合气雾化法制备Fe–Cr合金粉末,研究了导流管直径与导流管伸出长度对Fe–Cr合金粉末粒度分布、收得率、中位粒径(D_(50))的影响。结果表明,在其他工艺参数不变的情况下,当导流管直径从4.5 mm增大到6.0 mm时,Fe–Cr合金粉末累积粒度分布曲线右移,中位粒径增大,细粉收得率减小,粉末流动性减小,松装密度减小;当导流管伸出长度由2.0 mm增加到2.5 mm时,Fe–Cr合金粉末累积粒度分布曲线左移,中位粒径减小,细粉收得率增加,粉末流动性增加,松装密度升高。综上所述,雾化压力3.8 MPa,过热度250℃,导流管直径4.5 mm,导流管伸出长度2.5 mm,制备得到的Fe–Cr合金粉末综合性能最优。

B含量对Fe-Cr-C系堆焊合金组织结构及耐磨性的影响

为了进一步提高Fe-Cr-C系堆焊合金的耐磨性,采用等离子粉末堆焊技术,通过调整堆焊合金粉体中硼铁粉的添加量,在Q235钢表面制备不同B含量的Fe-Cr-C耐磨堆焊合金层,并采用X射线衍射(XRD)、扫描电镜(SEM)、能谱(EDS)及磨粒磨损试验等分析测试方法,探究B添加量对Fe-Cr-C系堆焊合金组织结构、物相组成及耐磨性的影响。结果表明:当B添加量(以硼铁粉计,下同)为0时,堆焊合金的组织由树枝晶状Fe和菊花状(Fe,Cr)_(7)C_(3)+Fe共晶组织组成。随着B添加量的增加,堆焊层中(Fe,Cr)_(7)(C,B)_(3)硬质相的体积分数增加。(Fe,Cr)_(7)(C,B)_(3)相的析出量达到一定值后,初晶B_(0.7)Fe_(3)C_(0.3)相生成。当B添加量为20.0%时,(Fe,Cr)_(2)B硬质相大量析出。堆焊层的硬度整体呈现上升-陡降-上升的趋势,B-10试样的硬度达到63.1 HRC。磨粒磨损试验结果显示,堆焊合金层耐磨性呈现上升-平缓-上升的趋势,B-20试样的耐磨性增至B-0试样的2.8倍。

Characteristics of Cr and Al Powders by High Energy Ball Milling

The variation of microstucture and phase structure of metal Cr and Al powders prepared by high energy mechanical milling was analyzed and investigated.The results show that with the continuous balling the average grain sizes of the brittle Cr powders are gradually decreased,and the diffraction peaks are widened and the peak values lower owing to the interrelation caused by both cold welding and breaking;the tough Al powders exhibit intense cold welding,and most of powders lead to adhesion to ball surface and pot wall,meanwhile,the Al powders subjected to intense deformation have led to many dislocation rings with non dislocation wind up found in the microstructure.

Magnetic Properties of Nanocrystalline Fe_(60)Cr_(40) Powders Prepared by Mechanical Alloying in Vacuum and Air

Magnetic properties of nanocrystalline Fe_~60 Cr_~40 powders prepared by mechanical alloying in vacuum and air were investigated by utilizing the measurements of magnetization, X-ray diffraction, and ~ ~57 Fe Mssbauer spectrum. The results show that the Fe_~60 Cr_~40 powders keep the bcc structure during milling in air and vacuum. The saturation magnetization of the Fe_~60 Cr_~40 powders milled in vacuum and air decreases with the increase of the milling time up to 45 h. The decrease of saturation magnetization of the Fe_~60 Cr_~40 powders milled in vacuum is due to the formation of Fe-Cr solid solution, while in air it is due to the formation of paramagnetic disorder structure and solid solution.

Fe-Cr-B-C系耐磨堆焊合金组织与性能

为了探讨合金元素Cr,C对高硼铁基堆焊合金组织结构的影响,采用气体保护焊堆焊技术,通过调整金属粉芯焊丝中高碳铬铁的添加量,在Q235钢板表面制备不同高碳铬铁含量的Fe-Cr-B-C堆焊合金,采用金相显微镜、扫描电镜、能谱(energy dispersive spectrometer,EDS)及X射线衍射(X-ray diffraction,XRD)等分析测试方法,分析不同合金元素Cr,C含量对堆焊合金组织和性能的影响。结果表明,堆焊合金的组织为马氏体+网状(Fe,Cr)_(3)(B,C)及少量的微量M_(7)C_(3);随着高碳铬铁粉添加量的增加,网状(Fe,Cr)_(3)(B,C)体积分数增加,堆焊合金中的马氏体具有较高的硬度,合金元素Cr能够使基体组织固溶强化,网状碳化物(Fe,Cr)_(3)(B,C)作为耐磨骨架,阻碍磨料在磨损过程中的挤压与切削作用,使堆焊层耐磨性均高于65Mn钢3~4倍,其磨损机理为微犁沟。

Quantitative Analysis of Cr in Milk Powder by Laser Induced Breakdown Spectroscopy( LIBS)

At present, heavy metal pollution in food occurs frequently, which requires a novel method for rapid detection. Laser induced breakdown spectroscopy （LIBS） is a new technique for rapid and environmental friendly detection, but it lacks high sensitivity and stability which restrict its development. In this study, Cr-polluted infant milk powder was used as experimental material to explore the feasibility of the application of LIBS technique in food safety detection. Aiming at improving the precision and accuracy of Cr detection by LIBS technique, LIBS spectra of samples were collected by a spectrometer with an intensified charge-cou- pled device （ICCD） using three gratings with different resolutions to comprehensively compare and analyze the stability, sensitivity and quantitative analysis accura- cy of LIBS detection. The results showed that average relative standard deviation （RSD） of LIBS spectral intensity was below 10%, indicating good stability. LIBS signals were collected by three gratings for quantitative analysis, and the results demonstrated that the linear correlation coefficient R2 of fitting curves was 0. 248 87, 0.903 12 and 0.992 81, respectively; the relative errors between actual and predicted concentrations were 38.23%, 8.84% and 7.43%, respectively, indicating that gratings with higher resolutions could lead to higher linear correlation coefficient and better detection accuracy. According to the results, high-resolu- tion spectrometer could significantly improve the accuracy of LIBS detection of Cr concentration in milk powder, suggesting that it is feasible to detect heavy metals in food by LIBS technique with the improvement of core device performance.

Studies on induction hardening of powder-metallurgy-processed Fe–Cr/Mo alloys

Induction hardening of dense Fe–Cr/Mo alloys processed via the powder-metallurgy route was studied. The Fe-3Cr-0.5Mo, Fe-1.5Cr-0.2Mo, and Fe-0.85 Mo pre-alloyed powders were mixed with 0.4wt%, 0.6wt%, and 0.8wt% C and compacted at 500, 600, and 700 MPa, respectively. The compacts were sintered at 1473 K for 1 h and then cooled at 6 K/min. Ferrite with pearlite was mostly observed in the sintered alloys with 0.4wt% C, whereas a carbide network was also present in the alloys with 0.8wt% C. Graphite at prior particle boundaries led to deterioration of the mechanical properties of alloys with 0.8wt% C, whereas no significant induction hardening was achieved in alloys with 0.4wt% C. Among the investigated samples, alloys with 0.6wt% C exhibited the highest strength and ductility and were found to be suitable for induction hardening. The hardening was carried out at a frequency of 2.0 kHz for 2–3 s. A case depth of 2.5 mm was achieved while maintaining the bulk(interior) hardness of approximately HV 230. A martensitic structure was observed on the outer periphery of the samples. The hardness varied from HV 600 to HV 375 from the sample surface to the interior of the case hardened region. The best combination of properties and hardening depth was achieved in case of the Fe-1.5Cr-0.2Mo alloy with 0.6wt% C.

(V,Cr,W)C复合粉末对WC-11Ni硬质合金微观组织及力学性能的影响

以Cr_(2)O_(3)、WO_(3)、V_(2)O_(5)和炭黑为原料,采用碳热还原法在1500℃下反应2 h制备了(V,Cr,W)C复合粉末。采用XRD和SEM对(V,Cr,W)C复合粉末的相成分和显微组织进行了表征,研究了复合粉末的添加方式及含量对WC-11Ni硬质合金组织及力学性能的影响。结果表明,添加(V,Cr,W)C复合粉末的合金力学性能获得了显著提升,其抗弯强度、维氏硬度以及断裂韧性比未添加复合粉末的试样分别提高了19.97%、19.61%、12.18%。同时,添加(V,Cr,W)C复合粉末的合金性能优于添加(V,Cr)C复合粉末和添加WC+Cr_(3)C_(2)混合粉末的合金试样。另外,随着(V,Cr,W)C复合粉末添加量的增加,合金的抗弯强度、维氏硬度及断裂韧性均呈先增大后减小的变化趋势;当(V,Cr,W)C复合粉末的添加量为0.6%时,合金的抗弯强度、维氏硬度和断裂韧性达到最大值,分别为2835 MPa、1671 MPa、15.1 MPa·m^(1/2)。

C与Cr含量对粉末锻造Fe-Cu-C-Cr合金组织和物理性能影响

通过改变粉末锻造Fe-Cu-C-Cr合金中C、Cr的质量分数,研究C、Cr含量对合金组织和物理性能的影响。结果表明:在不添加Cr的情况下,合金的组织主要为铁素体和渗碳体,合金硬度和抗拉强度随C含量的增加小幅增加,C含量对合金最终摩擦系数的影响不大;添加Cr元素后,合金密度降低,组织也较为复杂,合金硬度随Cr含量的增加而增加,最高可达HRA68.6。C和Cr共同影响合金高温抗拉强度,Fe-2Cu-0.5C-5Cr抗拉强度最高,为378 MPa。合金摩擦系数随Cr含量的增加而减小,当Cr质量分数为10%时,合金最终摩擦系数为0.195,磨损方式为氧化磨损和少量的磨粒磨损。

玉米芯粉固定枯草芽孢杆菌对废水中Cr^(6+)的吸附性能研究

用玉米芯和枯草芽孢杆菌两种材料,制备了一种微生物吸附剂。以废水中Cr^(6+)的吸附率为指标,探究了在不同温度、时间、投加量和pH的条件下,玉米芯粉固定枯草芽孢杆菌对废水中Cr^(6+)的吸附产生的影响。通过响应面法确定了玉米芯粉固定枯草芽孢杆菌对废水中Cr^(6+)吸附的最佳条件。实验结果表明:玉米芯粉固定枯草芽孢杆菌在温度35℃、pH=4.7、振荡时间63 min时,对废水中Cr^(6+)的吸附效果更好,其去除率达到89.64%。

机械合金化Cu-Cr粉末的制备及性质研究

采用机械合金化法制备铜铬粉末,研究了不同球磨时间对粉末颗粒结构、晶粒粒度、显微硬度和表面形貌的影响,用XRD、SEM方法表征Cu-15wt%Cr粉末在不同球磨时间下形成固溶体的结构和表面形貌。结果表明:高能球磨形成了铬固溶于铜的过饱和固溶体,随球磨时间的延长,晶粒逐渐细化,点阵畸变愈来愈大,球磨60h后,粉末呈近球形,畸变率为0.271%,显微硬度为349.18HV。

机械合金化诱导难互溶系Cu-Cr合金固溶度扩展的研究

采用机械合金化工艺制备Cu-4%Cr和Cu-7%Cr(原子分数)二元合金粉末,利用XRD,SEM和TEM研究机械合金化过程中粉末的微观形貌和显微组织结构,测量了不同球磨时间粉末的氧含量以及显微硬度。结果表明:在一定的球磨时间内,Cu-Cr合金粉末随着高能球磨的进行,晶粒逐渐细化至纳米尺寸,晶格畸变增加,但进一步球磨会导致铜的晶格常数有所增加,畸变降低。实验证明,在固态下几乎不互溶的Cu-Cr合金,经球磨40 h的机械合金化,Cr在Cu中的固溶度明显提高。

机械合金化法制备不同Cr含量的W-Cr纳米合金粉末

采用机械合金化法制备Cr含量为8%、12.5%、20%(质量分数)的纳米W-Cr合金粉,对不同球磨时间粉末进行X射线衍射分析,以确定物相、晶粒尺寸及微应变,并采用扫描电子显微镜观察粉末形貌及粒度的变化。结果表明,采用机械合金化法可以制备不同Cr含量的纳米W-Cr合金粉。随着Cr含量的增加,制备纳米W-Cr合金粉所需球磨时间越长,其中W-8%Cr、W-12.5%Cr和W-20%Cr粉末的最佳球磨时间分别为72、84和96 h,晶粒尺寸小于30 nm。随着球磨时间的增加,晶粒尺寸不断减小,微应变逐渐增加,使常温下Cr在W中的固溶度增加,形成W的过饱和固溶体。Cr含量不同的W-Cr粉末完全合金化均经过4个阶段。

EA4T钢表面激光熔覆Fe-Cr-Ni涂层的组织与性能

通过激光熔覆技术对损伤车轴EA4T钢表面进行修复,利用光学显微镜、扫描电镜和X线衍射方法分析修复层的显微组织结构,利用万能拉伸试验机和应力测试仪测试修复层和基体的结合性能及残余应力。研究结果表明:修复层显微组织主要由γ-Fe固溶体、BNi_3、M_7C_3和Fe_3C组成,热影响区为上贝氏体和呈网状分布的铁素体组织,修复层和基体的结合区主要由平面晶、柱状晶和树枝晶组成,修复层顶部区域其组织主要以交叉树枝晶为主;激光熔覆后的EA4T钢的抗拉强度升高,但屈服强度和常温U型缺口冲击性能降低;整个修复层中残余应力较大,呈拉应力状态分布,而基体区域呈压应力状态分布。

酸化松木粉对废水中重金属离子Cr(Ⅵ)和Zn(Ⅱ)吸附的动力学研究

【目的】利用生物吸附剂处理含铬和锌等重金属污染废水具有原料便宜,操作简单及吸附效率高等特点,本研究旨在从林木资源废弃物中筛选吸附效果优良的生物吸附剂。【方法】选用鱼鳞松松木粉为吸附剂原材料,使用硫酸对其表面进行酸化处理以提高其表面活性,然后研究溶液p H值、溶液温度、Cr(Ⅵ)及Zn(Ⅱ)初始浓度、吸附剂用量和吸附时间对酸化松木粉吸附重金属离子Cr(Ⅵ)及Zn(Ⅱ)的影响。【结果】酸化松木粉吸附重金属离子Cr(Ⅵ)及Zn(Ⅱ)的最优化条件为溶液p H 2.0,溶液温度40℃,铬和锌离子初始浓度20 mg/L,吸附剂用量1.0 g/L,吸附时间120 min。吸附动力学方程分析表明,酸化松木粉吸附重金属离子Cr(Ⅵ)和Zn(Ⅱ)能较好地符合准二级动力学方程。吸附等温模型分析表明,酸化松木粉吸附重金属离子Cr(Ⅵ)和Zn(Ⅱ)能较好地符合Langmuir吸附等温模型。【结论】酸化松木粉对废水中重金属离子Cr(Ⅵ)和Zn(Ⅱ)的吸附效果良好,其吸附过程主要是发生在酸化松木粉表面的单分子层化学吸附。

集成ICCD光谱仪LIBS检测奶粉中Cr元素的定量分析研究

以提高激光诱导击穿光谱(LIBS)检测奶粉中重金属Cr元素精确性为研究目的,采用集成ICCD光谱仪的LIBS系统对奶粉样品中等离子体信号进行采集。为了减小检测误差,首先用洛伦兹(Lorentz)拟合对光谱谱线轮廓进行预处理,提取光谱净强度值。在相同的试验条件下,以Cr I 425.43 nm作为分析线、Ca I 422.67 nm作为内标线,分别采用外标法和内标法对奶粉中的Cr元素进行了定量分析,两种定标曲线的线性系数分别为0.946 52和0.991。实验结果表明,选取奶粉中基体元素Ca作为内标物质能有效提高定标曲线的拟合效果,减少误差,为将来采用内标法建模应用于便携式LIBS技术检测食品提供了参考。

激光熔覆TiC／（Ni＋Cr）复合粉涂层的显微组织

用ＣＯ＿２连续激光在５ＣｒＮｉＭｏ钢表面熔覆（Ｎｉ＋Ｃｒ）包覆细颗粒ＴｉＣ复合粉末涂层．微观分析结果表明：ＴｉＣ颗粒周围优先被Ｃｒ相晶粒包覆；粘结金属在凝固应力作用下，Ｎｉ相晶粒形成滑移带，Ｃｒ相晶粒形成孪晶；ＴｉＣ不易溶解于液态（Ｎｉ＋Ｃｒ）中，而易溶于Ｆｅ基合金中；凝固过程中ＴｉＣ在涂层与基体的液相交互扩散区中析出，并发现碳化物（Ｆｅ，Ｃｒ）＿（２３）Ｃ＿６；同时还形成大量α和γ微晶。微晶的形成与高度弥散析出的ＴｉＣ晶核密切相关．

新型Te-Ni-Cr合金在Na_2SO_4-25%NaCl熔盐中的腐蚀行为

利用粉末冶金技术制备了新型Te-Ni-Cr合金材料。通过静态质量损失试验,X射线物相分析,扫描电镜形貌观察及微区成分分析等手段,研究了合金在750℃Na2SO4-25wt%NaCl熔盐中的热腐蚀行为及热腐蚀动力学规律。研究表明:稀有元素碲的加入,使合金的腐蚀速率较Ni-Cr合金有比较明显的下降;随时间的延长,合金表面的腐蚀程度不断增加;腐蚀产物主要为铁的氧化物、镍及铬的硫化物和氧化物;热腐蚀层主要由铁的氧化物和Cr2O3组成。

炭黑N330在非硫黄调节型粉末CR中的分散性研究

研究炭黑填充型非硫黄调节型粉末CR[简称P(CR/N330)]中炭黑N330 的分散性。结果表明,使用包覆剂和增大分散剂的用量可有效提高炭黑N330在P(CR/N330)中的分散性,减轻或消除P(CR/N330)的接触污染性;有接触污染性的P(CR/N330)粒子表面和内部存在游离的炭黑团粒,无接触污染性的P(CR/N330)粒子表面和内部均较为光滑,无游离的炭黑团粒存在。

合金元素Cr对粉末冶金凸轮材料摩擦学特性的影响

研究了不同Cr含量对3种状态下(烧结态、高频淬火和激光表面淬火)的粉末冶金凸轮材料的密度、硬度以及摩擦磨损特性的影响。研究结果表明,不同Cr含量的铁基粉末冶金凸轮材料经高频淬火和激光表面淬火后,材料的表面硬度和耐磨性得到了明显的提高,激光表面淬火比高频淬火提高得更多;随着Cr含量的增加,硬化层的硬度和深度都有所增加;随着Cr含量的增加,凸轮材料的磨损率和摩擦系数曲线均表现为先降后升,含Cr量1·0%(质量分数)处为最低点;随着Cr含量的增加,材料由马氏体+下贝氏体的复相组织逐渐变为单相马氏体组织,具有强韧性搭配的复相组织在较高载荷下表现出更好的耐磨性。