Effect of mechanical activation on TiC synthesis reaction in Al-Ti-C powder mixture

After milling in a high energy ball miller for various times, the synthesis reaction process of the Al Ti C powder mixture were investigated by difference thermal analysis (DTA) and X ray diffractometry (XRD). According to the patterns of reaction peaks on the DTA curves, the activation energy of each reaction was calculated. The experimental results of DTA show that the synthesis reaction of Al Ti C powder mixture can be enhanced after high energy milling. The longer the milling time, the lower the reaction temperature. The synthesis reaction of TiC is transformed from Ti+C→TiC to Al 3Ti+C→TiC+3Al with long period milling. Meanwhile, the activation energy of the reaction reduces with increasing milling time. The effect of milling time on reduced activation energy for low temperature region is more significant than that for high temperature region.

DIELECTRIC PROPERTIES OF NANO Si/C/N COMPOSITE POWDER AND NANO SiC POWDER AT HIGH FREQUENCIES AND MICROSTRUCTURE CHARACTERIZATION

The dielectric properties of nano Si/C/N composite powder and nano SiC powder at high frequencies have been studied. The nano Si/C/N composite powder and nano SiC powder were synthesized from hexamethyldisilazane ((Me 3Si) 2NH) (Me:CH 3) and SiH 4 C 2H 2 respectively by a laser induced gas phase reaction. The complex permittivities of the nano Si/C/N composite powder and nano SiC powder were measured between 8 2GHz and 12 4GHz. The real and imaginary parts of the complex permittivities of nano Si/C/N composite powder are much higher than those of nano SiC powder. The SiC microcrystalline in the nano Si/C/N composite powder dissolved a great deal of nitrogen. The local structure around Si atoms changed by introducing N into SiC. Carbon atoms around Si were substituted by N atoms. So charged defects and quasi free electrons moved in response to the electric field, diffusion or polarization current resulted from the field propagation. The high ε″and loss factor tgδ(ε″/ε′) of Si/C/N composite powder were due to the dielectric relaxation.

SELF- PROPAGATING HIGH TEMPERATURE SYNTHESIS OF (W,Ti)C POWDERS

The effects of preheating temperature and W powder size on the Self propagating High temperature Synthesis(SHS) of Ti W C system were studied. Preheated mixtures and the decrease of W powder size can accelerate the formation of (W,Ti)C powders. The uniphase (W,Ti)C (WC∶TiC=5∶5) powders with 0.32% free carbon were synthesized from Ti, W, C powders by SHS. The powder size of the product was 3～5 μm.

一锅法制备MgO/蓝藻基碳介孔复合材料及CO_(2)吸附性能研究

采用一锅法,以KOH活化后的蓝藻粉为碳源,以六水硝酸镁为镁源,通过简单研磨固相反应,成功制备了MgO/C复合材料,并探究了镁源和碳源的投料比对介孔MgO/C复合材料结构的影响,同时采用X-射线衍射法、N_(2)等温吸脱附曲线法、扫描电镜法、红外光谱法、拉曼光谱法等现代技术对复合材料的组织结构进行表征。结果表明,MgO/C复合材料具有介孔结构,随着MgO负载量的增加,复合材料的比表面积和孔容下降;CO_(2)等温吸附性能研究表明,氧化镁与碳复合后对CO_(2)吸附能力有明显的改善,样品的孔结构对CO_(2)吸附能力有一定程度影响。

Thermal behavior of B_4 Cparticles under plasma arc powder surfacing condition

The effect of plasma arc powder surfacing process on the amount of B4C particles in the coating and the thermal behavior of B4C particles in different surfacing stages has been investigated.The results showed that the feeding rate of B4C partiles is the most important factor affecting the amount of B4C particles in the surfacing coating among all the surfacing parameters,and the most part of B4C Particles in the coating is nto the remainders of original solid B4C particles,but the consolidation products of the unmelted liquid B4C globules in the pool.The results also showed that the B4C particles would not be melted in the plasma arc column, their melting process mainly takes place in the anode spot region on the surface of the pool when surfacing current is less than 200A.

Effect of Powder Particle Size on the Properties and Microstructure of Ti(C,N)-Based Cermet

The influence of raw powder particle size on the properties and microstructures of Ti (C, N)-based cermets has been studied. The conclusions are as follows: The microstructures of cermets were composed of two kinds of grains, the one with black cores surrounded by obvious rim structures, and the other whose cores were white with unconspicuous rim structures and adhesive phase. In the cermet made from fine powders, the amount of grains with white cores was much more than that in cermet made from coarse powders. In addition, their properties were also much better.

Carbon and oxygen behavior in the RH degasser with carbon powder addition

For ultra-low-carbon(ULC)steel production,the higher oxygen content before Ruhrstahl-Heraeus(RH)decarburization(de-C)treatment could shorten the de-C time in the RH degasser.However,this would lead to oxidation rates being exceeded by molten steel production,affecting ULC steel surface quality.In this work,a carbon powder addition(CPA)process was proposed to reduce the dissolved oxygen content at the end of RH de-C through addition of carbon powder to molten steel in the vacuum vessel.Carbon and oxygen behavior during the CPA and conventional process was then studied.The results demonstrated that the de-C rate with CPA was lower compared to the conventional process,but the carbon content at the end of de-C presented no difference.The de-C reaction for CPA process took place in the four reaction sites:(1)within the bulk steel where the spontaneous CO bubbles form;(2)splashing area on the liquid steel surface;(3)Ar bubble surface;(4)molten steel surface.The CPA process could significantly reduce the dissolved oxygen content at the end of de-C,the sum content of FeO and MnO in the slag,the aluminum consumption,and the defect rate of rolled products.This was beneficial in improving ULC steel cleanliness.

原位生成陶瓷相结合Ti(C,N)复合材料及其性能研究

以TiO_(2)粉、鳞片石墨和Si粉为原料,采用碳热还原氮化法在1450℃保温2 h制备了陶瓷相结合Ti(C,N)复合材料。研究了Si粉加入量(加入质量分数分别为0、5%、15%、25%)对材料物相组成、显微结构、物理性能及抗氧化性的影响。结果表明:适量Si粉的引入有利于细化Ti(C,N)晶粒,提高Ti(C,N)复合材料的常温力学性能与抗氧化性。当Si粉加入量为5%(w)时,原位生成陶瓷相结合Ti(C,N)复合材料的综合性能较优,其显气孔率、常温抗折强度和常温弹性模量分别约为(38.8±1.6)%、(62.5±2.4)MPa及(59.6±2.2)GPa。随Si粉加入量(w)进一步增加至15%或25%,复合材料的体积密度和力学性能下降。

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。

(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)。

Preparation of Ni/C core-shell composite powders by electroless plating method

Ni/C core-shell composite powders were prepared by electroless nickel-plating. The effects of concentration of NiSO4,bathing temperature,ratio of hydrazine hydrate to NiSO4,pH of the solution,amounts of complexing reagent and surfactant,bath load of activated carbon and reaction time,and so on,on the preparation of Ni/C core-shell composite powders were studied. The results show that the principal factors for Ni/C composite powders preparation are bathing temperature,ratio of hydrazine hydrate to NiSO4 and pH of the solution. The optimum conditions are plating at 90 ℃ with pH10.7 and molar ratio of N2H4·H2O to Ni2+of 3.0. The plated nickel powders are observed to be sphere-like in morphology with size about 100 nm. The maximum dielectric loss of Ni/C core-shell composite powders is about 0.35,and its magnetic loss was low with value about 0 in 2-16 GHz.

Synthesis and microwave dielectric properties of Si/C/B powder

Si/C/B powders were synthesized by carbothermal reduction of xerogels containing boride. Colorless, transparent and monolithic gel was obtained by using tetraethoxysilane, saccharose, tributyl borate, ethanol and distilled water as starting materials. When the xerogel was fired at 1 600℃in the static argon atmosphere, the XRD pattern commences to show the crystallite peak corresponding with C.β-SiC was synthesized at 1 700℃, but amorphous remainders could not be eliminated completely. The XRD results show that the boron possibly enters into the silica network, leading to the formation of borosiloxane. Microstructure ofβ-SiC powders consists of agglomerated particles with diameters ranging from 30 to 100 nm. Though the samples prepared at 1 600℃and 1 700℃have better dielectric loss tangent than the sample at 1 500℃due to exiting crystalline material, the dielectric constant and dielectric loss tangent of three samples reveal lower values.

Effect of sintering parameters on powder injection molded Ti(C, N)-based cermets

Effect of two-stage sintering parameters such as heating rate, top sintering temperature and holding time, sintering temperature and holding time at the second stage on relative density, transverse rupture strength(TRS) and microstructures of powder injection molded Ti(C, N)-based cermets were investigated, by means of Archimedes’s method, three-point bending test and micrographic analysis. The results show that the optimum sintering cycle for powder injection molded Ti(C, N)-based cermets comprises rapid heating (10℃/min) at low temperatures, slow heating (5℃/min) at intermediate temperatures, holding at the highest sintering temperature (1420℃) for a short time (10min), and holding at the second stage (1360℃) for a longer time (6h) to avoid grain coarsening, and that its TRS reaches 624MPa, and there are little pores in their microstructures.

焦粉基Fe_(3)O_(4)/C诱导铜盐还原耦合化学沉淀法脱除废水硫氰酸盐

煤焦化过程中产生大量酚-氰-硫氰酸盐等组分复杂的工业废水,对水体生态环境具有潜在危害,研究高效的含硫氰酸盐废水处理技术具有积极的经济、环保意义。以焦粉固废为碳源,采用等体积浸渍,结合限热碳还原法制备磁性Fe_(3)O_(4)/C材料,采用XRD和N 2吸附-脱附技术进行物质结构表征,并应用于诱导铜盐化学沉淀法脱除模拟焦化废水中硫氰酸盐。XRD结果表明,负载的Fe_(3)O_(4)平均晶粒尺寸为10.8 nm,Fe_(3)O_(4)/C材料比表面积6.8 m^(2)·g^(-1)。模拟焦化硫氰酸盐废水(浓度为2.5 g·L^(-1))处理实验结果显示,在铜盐浓度为0.03 mol·L^(-1)时,采用铁质量分数20%Fe_(3)O_(4)/C催化剂(投加量1.25 g),废水初始pH=5.6,45℃下反应2 h,硫氰酸盐脱除率可达99.84%,催化剂稳定性良好;动力学模拟显示反应遵循准二级动力学模型,主要吸附过程受化学作用控制。该研究以焦粉固废为载体,制备了Fe_(3)O_(4)/C材料,通过铁铜物种协同作用,利用化学沉淀法实现了模拟废水硫氰酸盐的高效脱除,为工业化焦化废水处理提供理论支持。

纳米ZrO_(2)/Zn-Al-C涂层在模拟地热水中的防腐性能

为提升环氧涂层的防腐性能,采用γ-氨丙基三乙氧基硅烷(KH-550)改善纳米二氧化锆(ZrO_(2))颗粒的团聚,联合Zn-Al-C合金粉,制备改性纳米ZrO_(2)/Zn-Al-C环氧树脂复合涂层。利用X-射线衍射(XRD)、傅里叶红外光谱(FT-IR)和扫描电镜(SEM)表征纳米ZrO_(2)改性前后的结构变化。结合电化学交流阻抗谱(EIS)和极化曲线(Tafel)分析复合涂层在模拟地热水环境中的腐蚀行为。结果表明:纳米ZrO_(2)表面成功接枝KH-550;复合涂层在模拟地热水中全浸泡720 h,其表面腐蚀结垢产物数量较原片明显减少;自腐蚀电流密度为6.113×10-10(A·cm-2),电化学性能良好。经改性后的环氧复合涂层,有效利用了纳米材料及金属材料的优越性能,其硬度及耐蚀性均得到显著提升,为环氧涂层在地热水环境中长期使用提供借鉴。

CVI处理对浸渍裂解法制备C/C-SiC复合材料弯曲性能的影响

以2D叠层炭布为增强体,以掺加硅粉、炭粉和碳化硅粉3种无机粉体的糠酮树脂为前驱体,经浸渍、热压固化、炭化裂解和高温热处理过程制备出炭/炭-碳化硅(C/C-SiC)复合材料。采用多功能密度测试仪、扫描电子显微镜(SEM)、X射线衍射仪(XRD)和力学万能试验机,研究了硅粉、炭粉和碳化硅粉的掺加量以及后续化学气相渗透(CVI)处理对C/C-SiC复合材料致密度、微观结构及抗弯强度的影响。结果表明:硅粉、炭粉和碳化硅粉掺加后所形成的碳化硅颗粒对复合材料起到颗粒弥散增强的作用。具体而言,粉体掺加量越多,C/C-SiC复合材料越致密,抗弯强度越大;在三点弯曲载荷作用下,C/C-SiC复合材料呈假塑性断裂模式,并且出现层间开裂现象。对C/C-SiC复合材料进行10 h CVI处理后发现,形成的热解炭可以作为炭纤维与树脂炭基体之间的界面,弥补了树脂炭的微孔,相比于未进行CVI处理的C/C-SiC复合材料,密度最大提高了4.98%,抗弯强度最大提高了38.86%。

Synthesis of ZrO_2-SiC composite powder and effect of its addition on properties of Al_2O_3-C refractories

ZrO2-SiC composite powder was synthesized by carbothermal reduction of zircon in argon atmosphere, and it was used as the additive to prepare Al2O3-C refractories. The effects of heating temperature on the synthesis process and the addition of the synthesized composite powder on the properties of the Al2O3-C refractories were investigated. The results show that the synthesized composite powder can be easily obtained by heating the mixture of zircon and carbon black at 1 873 K for 4 h in argon atmosphere, and the relative contents of ZrO2 and SiC in sample reach about 83.7% and 16.3%, respectively. The bulk density, crushing strength and thermal shock resistance of the Al2O3-C refractories can be improved obviously by the addition of the synthesized ZrO2-SiC composite powder.

高分散Co-N-C涂层电极制备及其产H_(2)O_(2)效能

为了研究电极表面Co-N-C催化剂的分散性和电化学工艺参数对产H_(2)O_(2)机制与效能的影响,以石墨板为基底,Co-N-C催化剂为涂层制备石墨基高分散Co-N-C涂层电极。通过扫描电子显微镜、X线衍射、循环伏安扫描和X线光电子能谱等手段对制备的Co-N-C催化剂及涂层电极进行微观结构和电化学表征,改变石墨粉与Co-N-C的质量比来控制负载量,考察不同Co-N-C负载量涂层电极对O_(2)的催化还原活性和不同工艺条件下的产H_(2)O_(2)效能,并对影响机制进行深入探究。结果表明:Co-N-C催化剂被均匀负载到石墨板表面,其中Co-N-C-20(Co-N-C与石墨粉的质量比为1∶20)涂层电极具有较好的分散性和最高O_(2)的二电子还原催化活性。酸性条件、合适的电流密度和O_(2)曝气量有助于O_(2)的二电子还原反应生成H_(2)O_(2),减少H2O_(2)继续被还原和分解。在优化工艺条件下反应80 min,Co-N-C-20电极产H_(2)O_(2)的累积浓度达到291.3 mg/L,电流效率为52.66%。

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。

Combustion Synthesis of C/MgAl_(2)O_(4)Composite Powders and Their Microstructure Evolution

This work aims at solving the problems of difficult dispersion,easy oxidation and high cost of nano carbon during application,carbon/magnesium aluminate spinel(C/MgAl_(2)O_(4))composite powders were prepared using MgC2O4·2H2O,MgO2,Al2O3 powder,and Al powder as raw materials by combustion synthesis.The results indicate that with the maximum MgC2O4·2H2O addition of 33.34 mass%,the prepared powder contains 1.17 mass%of carbon and carbon distributes among spinel grains.The MgAl_(2)O_(4)spinel shows both granular and rod-like morphologies.The granular MgAl_(2)O_(4)spinel is generated from mutual diffusion between MgO and Al2O3;while the rod-like MgAl_(2)O_(4)spinel is mainly formed by the vapor-solid growth mechanism from Mg vapor and Al2O3.