复合添加MgO和La_(2)O_(3)对纳米微晶氧化铝陶瓷微观结构的影响

纳米微晶氧化铝磨料具有良好的通用性和高精度磨削能力,且性价比较高,在机械制造、轴承、模具、汽车等领域有广泛的应用潜力。本研究以勃姆石(γ-AlOOH)为原料,MgO、La_(2)O_(3)为添加剂,采用溶胶-凝胶工艺合成纳米微晶氧化铝。通过差示扫描量热仪、X射线衍射仪、扫描电子显微镜和从头算分子动力学方法模拟计算研究了添加剂对微晶氧化铝相转化、物相组成、微观结构及力学性能的影响。结果表明:复合添加MgO和La2O3可以使氧化铝中间相θ-Al_(2)O_(3)向α-Al_(2)O_(3)转化的温度从1257℃降低到1105℃,将致密化温度从1600℃降低到1350℃,将微晶氧化铝的晶粒尺寸从1.04 mm减小到120 nm,实现了低温致密烧结。

The Impact of the Inclusion of MgO Nano-Fillers in a Polyethylene Matrix on Dielectric Strength and Resistance to Partial Discharges

One commonly used strategy to enhance polymers specific properties such as the resistance to partial discharges erosion is the incorporation into the polymeric matrix of inorganic micro or nanoparticles. This study focused on the dielectric properties of Low-Density Polyethylene (LDPE) filled with nano-sized Magnesium Oxide (MgO) particles compounded by thermo-mechanical process and one of the purposes was to establish appropriate processing parameters in order to reach the desired dielectric properties. LDPE was used as a matrix and was reinforced by MgO particles having a nominal average size of 30 nm. The MgO nanoparticles were treated with a silane coupling agent (3-Glycidyloxypropyl Trimethoxysilane). The samples were initially prepared in a melt-mixing chamber with a MgO content of 1% wt. These pre-mixed samples were further treated by the means of thermo-mechanical mixing in a conical co-rotating twin-screw extruder in order to improve the dispersion and distribution of the MgO particles. In this report, both lifetime under a PD activity and AC dielectric strength of pure and nano-filled LDPE samples have been measured and compared. Nano-filled LDPE samples were found to exhibit an improve lifetime, without any detrimental impact on their short-term dielectric strength. This suggests that nano-filled LDPE may be for electric applications for which the dielectric materials may be exposed to partial discharge activities. This is significant result for the use of MgO-reinforced PE as an insulating material for HV cables since the resistance to PD is closely related to treeing resistance which is the main electrical degradation mechanism that leads to failure for shielded extruded power cables.

Insight into MgO promoter with low concentration for the carbon-deposition resistance of Ni-based catalysts in the CO_2 reforming of CH_4

The CO2reforming of CH4is studied over MgO‐promoted Ni catalysts,which were supported on alumina prepared from hydrotalcite.This presents an improved stability compared with non‐promoted catalysts.The introduction of the MgO promoter was achieved through the‘‘memory effect’’of the Ni‐Al hydrotalcite structure,and ICP‐MS confirmed that only0.42wt.%of Mg2+ions were added into the Ni‐Mg/Al catalyst.Although no differences in the Ni particle size and basicity strength were observed,the Ni‐Mg/Al catalyst showed a higher catalytic stability than the Ni/Al catalyst.A series of surface reaction experiments were used and showed that the addition of a MgO promoter with low concentration can promote CO2dissociation to form active surface oxygen arising from the formation of the Ni‐MgO interface sites.Therefore,the carbon‐resistance promotion by nature was suggested to contribute to an oxidative environment around Ni particles,which would increase the conversion of carbon residues from CH4cracking to yield CO on the Ni metal surface.?2018,Dalian Institute of Chemical Physics,Chinese Academy of Sciences.Published by Elsevier B.V.All rights reserved.

Effect of B_4C on Oxidation Resistance of Low-Carbon MgO-C Materials

B4C was added into the low-carbon MgO-C materials in order to improve the oxidation resistance. The results show adding 0. 3wt% B4C can get the best oxidation resistance and adding 0. 2 wt% B4C can get the highest hot modulus of rupture. Altogether, adding 0. 2wt% B,C into the low-carbon MgO-C materials can get better oxidation resistance and hot strength.

Effect of Ti(C,N) on Properties of Low-carbon MgO-C Bricks

The effect of Ti （ C, N） on properties of low-carbon MgO - C bricks was investigated. The phase composition and the microstructure of the matrix of low-carbon MgO - C brick containing Ti （ C, N） were studied by XRD and SEM analysis together with EDS. The results showed that Ti （ C, N） distributed in the matrix of lowcarbon MgO - C brick uniformly after being treated at 1 600 ~C for 3 h in coke powder bed, and Ti （C, N） and MgO formed a solid solution. After the treatment at 1 600 ℃ for 3 h in coke powder bed, the bulk density and cold crushing strength of low-carbon MgO - C brick with Ti （ C, N） decreased, and the apparent porosity and linear change rate of specimens increased. The oxidation resistance of low-carbon MgO - C brick with Ti（ C, N） was superior to that of low-carbon MgO - C brick with no additives, but inferior to that of low-car- bon MgO - C brick with Al powder. The slag resistance of the specimen with Ti （ C, N） was excellent as well.

添加Y_(2)O_(3)对CaO-MgO-SiO_(2)体系中CMS的影响

为了提高镁质耐火材料的高温性能,以分析纯化学试剂MgO、CaO、SiO_(2)、Y_(2)O_(3)等为主要原料,研究了添加Y_(2)O_(3)对CaO-MgO-SiO_(2)体系中钙镁橄榄石(CMS)的生成和转化的影响,以及转化生成物Ca_(4)Y_(6)O(SiO_(4))_(6)的耐火度。结果表明:1)Y_(2)O_(3)的添加不仅能够显著减少CaO-MgO-SiO_(2)体系中低熔点相CMS的生成量,而且能够从CMS中捕获CaO和SiO_(2)使CMS转化为高熔点相Ca_(4)Y_(6)O(SiO_(4))_(6)、MgO和Y_(2)Si_(2)O_(7),有利于提高镁质材料的高温性能。2)Ca_(4)Y_(6)O(SiO_(4))_(6)的耐火度>1800℃。

添加电熔MgO-ZrO_2共晶砂对低碳MgO-C砖性能的影响

在以电熔镁砂、鳞片石墨为原料、酚醛树脂为结合剂的低碳MgO-C砖中,分别添加10%,15%,20%的电熔MgO-ZrO2共晶砂替代镁砂,经200,1000,1500℃处理后,对材料的体积密度、显气孔率、耐压强度、线变化率、热膨胀率和抗氧化性进行了检测,并借助XRD研究了试样的物相组成和显微结构。结果表明,随着电熔MgO-ZrO2共晶砂加入量的增加,试样的体积密度逐渐增大,线变化率逐渐减小,耐压强度和抗氧化性均为先增大后减小,试样的热膨胀率逐渐减小,抗热震性得到提高。材料性能的变化主要与电熔MgO-ZrO2共晶砂的体积密度大、热膨胀系数小、氧化锆的相变、镁铝尖晶石和镁橄榄石等物相的生成相关。

Cu/MgO催化剂CO加氢低温甲醇合成研究

采用共沉淀法制备了Cu/MgO催化剂并经La和K修饰,研究了含CO2的CO原料气加氢低温甲醇合成性能.采用XRD,CO-TPD和CO2-TPD等手段对催化剂的物相结构和表面吸附行为进行了表征.结果表明,La的添加促进了Cu组分的分散,增强了CO和CO2低温吸附能力,CO2加氢活性提高;进一步经K修饰后,催化剂表面碱性明显增强,CO和CO2高温吸附能力增强,促使CO和CO2同步转化,催化活性和甲醇收率明显提高,但副产物甲酸乙酯含量增加;当n(Cu)∶n(K)为10∶1时,总碳转化率达29.7%,甲醇收率较高,且催化剂具有较好的稳定性.

低温燃烧法合成纳米MgO粉体工艺的研究

以硝酸镁、柠檬酸及氨水为原料,用低温燃烧法成功制备了纳米MgO粉体。以推进剂化学为理论依据,得出了硝酸镁与柠檬酸的最佳摩尔配比。考察了前驱体溶液的pH值、加水量、点火温度等工艺参数对反应过程及最终产物的影响。用X-ray衍射(XRD)及透射电镜(TEM)等分析方法对合成的粉体进行了表征。在优选的工艺条件下,获得了晶粒尺寸为9～25 nm的纳米MgO粉体。

SiC含量对ZrB_2-SiC/MgO-C低碳复合耐火材料性能的影响

以镁砂、鳞片石墨和ZrB_2-xSiC(x为0,20%,40%,60%,80%,100%,质量分数)复合粉为原料,经成型、干燥、固化和不同温度(1 373,1 673K)保温3h热处理后,制备得到ZrB_2-SiC/MgO-C低碳复合耐火材料,研究了SiC含量对该耐火材料物理和力学性能的影响.结果表明:随SiC含量的增加,固化后复合耐火材料的体积密度和常温抗折强度先增大后减小再略有增大,耐压强度则波动性降低,当SiC质量分数为20%时,复合耐火材料的常温性能最佳;在1 673K保温3h热处理后,复合耐火材料的抗折强度随温度的升高呈先增大后减小的变化趋势,当SiC质量分数为20%时,不同温度下的抗折强度均达到最大;SiC含量的改变对不同温度下的载荷和位移关系影响较小,复合耐火材料的塑性变形开始温度为873~1 073K,断裂温度均为1 673K.

以MnO_2-TiO_2-MgO为添加剂注浆成型低温烧结Al_2O_3陶瓷

采用注浆成型方法,通过加入MnO2-TiO2-MgO复相添加剂,在1350℃空气气氛中常压烧结,获得了相对密度最大为95.7%的氧化铝陶瓷。研究了MnO2-TiO2-MgO复相添加剂对氧化铝陶瓷显微结构与力学性能的影响。在添加质量分数为3%MnO2,0.5%MgO的情况下,比较添加不同质量分数的TiO2（1.0～3.0%）对氧化铝陶瓷烧结性能的影响。通过对比发现,该复相添加剂能有效降低氧化铝陶瓷的烧结温度,在同一温度下,随着TiO2的增加,烧结体密度也随之增加,强度也有明显差别。结果表明,1350℃下Al2O3＋0.5%MgO＋3%MnO2＋1.5%TiO2体系烧结效果最好,断口为沿晶断裂,无明显气孔,晶粒分布均匀,平均粒径为2μm,无晶粒异常长大现象。烧结体密度达到3.80g/cm^3,抗弯强度为243MPa。

低Cr_2O_3含量Al_2O_3-MgO浇注料物理性能及物相变化研究

本文研究了低Cr2O3含量Al2O3-MgO浇注料的物理性能,采用X射线衍射仪和扫描电子显微镜对浇注料的物相变化和显微结构进行了分析。结果发现:镁铝尖晶石含量可控制浇注料的显气孔率、体积密度、线变化率及强度。高温下Cr2O3消失是因为其固溶于新生成的MgAl2O4相中,固溶的存在提高了浇注料的物理性能。采用硅微粉结合时,高温下会产生一定的镁橄榄石相。

低温烧结MgO-PSZ泡沫陶瓷过滤器

采用新型MgO-PSZ材料进行了泡沫陶瓷过滤器的试制与研究。发现过滤器的性能受海绵影响较大；于1550℃烧成、经1100℃热处理后可得到耐压强度为0．49MPa、孔隙率为85％的过滤器；制备过程中试样的收缩率较大。

MgO/ZnO对锂铝硅系微晶玻璃性能的影响

采用MgO和ZnO作为复合助熔剂,结合高温粘度、SEM、XRD等测试手段,研究MgO和ZnO引入比例对锂铝硅系(LAS)微晶玻璃熔制和性能的影响。w(MgO)/w(ZnO)的升高,促进了微晶玻璃析晶,增大热膨胀系数,降低可见光透过率。结果表明:MgO和ZnO最佳引入比为3∶1,此时微晶玻璃具有较高的强度(98 MPa)、非常低的热膨胀系数(0.769×10-7/K)和较理想的透过率(可见光内70%)。

低硅高MgO烧结矿试验及生产

介绍了在安钢原料条件下低SiO2,高MgO烧结矿的试验及工业生产情况。以配用进口低硅高品位铁矿粉为主生产低硅高MgO烧结矿,不可避免地会引起烧结矿MgO含量的降低,从而使炼铁高炉炉渣MgO含量下降,性能变差。实验室试验和工业生产结果表明,选择适宜的烧结原料结构和工艺控制参数,可以在不影响烧结矿强度的情况下生产出SiO2较低的高品位、高MgO烧结矿,满足炼铁生产的需要。

CaO-MgO-SiO_2-H_2O体系的热力学基础研究

本文从热力学角度系统研究了CaO MgO SiO2 H2 O体系及钢渣中钙镁硅矿物在水热条件下的反应特性。结果表明 :在CaO MgO SiO2 H2 O系统中 ,CaO优先与SiO2 反应生成水化硅酸钙 ,MgO只能与剩余的SiO2 反应生成水化硅酸镁 ;MgO固溶时 ,可促进托勃莫来石向硬硅钙石转化 ,而对白钙沸石向白钙镁沸石的转化影响不大 ,不固溶MgO时 ,低温型水化硅酸钙向高温型转化温度提高。钢渣钙镁硅矿物中 ,镁蔷薇辉石活性最大 ,透辉石活性最差 。

MgO-TiO_2-La_2O_3系氧化铝陶瓷的力学性能及物相分析

采用MgO-TiO2-La2O3为烧结助剂,利用低温烧结技术制备95氧化铝瓷。研究了烧成温度和助剂含量对氧化铝陶瓷力学性能及物相组成的影响。结果表明:在MgO含量为1.5wt%,TiO2为1.0wt%,La2O3为2.5wt%,1500℃保温2h可得到抗弯强度和硬度分别为348.94MPa和79.6HRA的氧化铝陶瓷。

BST/MgO复相陶瓷的制备与性能

以溶胶低温燃烧合成法制备了BaSr Ti O3超细粉末,与商品MgO纳米粉体同为原料,按质量比1∶1的比例制备了BST/MgO复相陶瓷材料。分别在1 150,1 200,1250℃,利用SEM、XRD和LCR对制备出的BST/MgO复相陶瓷的显微结构与介电性能进行了测试分析。结果表明,BaSr Ti O3/MgO复相陶瓷可在1 250℃烧结致密,烧结温度比固相法低150℃左右。介电常数下降至160左右,介电常数对偏压的调谐性达到20%以上(1 kV/mm)。

湘钢120 t转炉终渣黏度控制实践

在低FeO、低温出钢条件下,湘钢120 t转炉终渣化不透,针对此情况,通过对当前条件下终渣MgO饱和溶解度进行计算,尝试降低渣中MgO含量,采取减少物料加入量、适当提高出钢温度、调整加料方式和氧枪枪位等控制措施,不仅促进钢渣分离,降低了钢铁料消耗,而且使磷内控合格率有所提升,达到了提升溅渣护炉效果、稳定炉况的目的。

Bi_2O_3-MgO掺杂对Z型六方铁氧体电磁性能的影响

采用固相反应法,制备了Ba3(Co0.4Zn0.6)2Fe24O4Z型六方铁氧体。研究了Bi2O3-MgO复合掺杂对低温烧结Ba3(Co0.4Zn0.6)2Fe24O4Z型六方铁氧体的显微结构和电磁性能的影响。结果表明:在固定w(Bi2O3)为3.0%的基础上,当掺入的w(MgO)为0.6%时,此Z型六方铁氧体可在900℃下低温烧结,高频电磁性能得到了显著的提高,材料在300MHz时的磁品质因数Q值从7.1提高到14.5,εr和tanδ分别从16.0和0.04100降低到10.8和0.00355,有望成为高频片式电感用材料。