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热压制备的Al2O3颗粒增强铝基复合材料的研究魏建锋,宋余九西北工业大学西安交通大学摘 要:探讨了大气下用普通粉末冶金法热压制备Al_2O_3颗粒增强铝基复合材料的制备工艺研究了不同Al_2O_3含量铝基复合材料的显微组织,力学性能和磨损特性.结束表明:热压制备的Al_2O_3颗粒增强铝基复合材料的组织致密,颗粒分布均匀;随Al_2O_3体积百分含量的增加,复合材料的强度,硬度,弹性模量,磨损阻力均增加.还对其强化机制进行了讨论.关键词:Al_2O_3颗粒;复合材料;粉末冶金;......
从碳分母液回收化工用碳酸铝魏旭华山东铝业公司研究院摘 要:我厂烧结法生产氧化铝,返回配料的碳分母液携带Al2O3量高达7万吨/年,实际作用仅限于替代铝矿石配制生料.以市场需求为导向,追踪技术发展动态,开发出碳分母液生产化工用含CO2的氢氧化铝(国外称碳酸铝).该品平均含Al2O358.9%,CO22.94%,Na2O3.11%,SiO20.64%,所含CO2遇酸逸出,将Al(OH)3颗粒崩裂细化,使酸溶性为工业氢氧化铝的3-5倍.鉴于SiO2不溶于酸,故特别适作硫酸铝,聚氯化铝,磷酸铝等铝盐化工原料.关键词:碳酸铝;聚氯化铝;碳母液Al_2O_3回收;......
foams by powder metallurgy route 图2 不同Mg含量的泡沫铝宏观照片(发泡温度为1 073 K) Fig.2 Macrographs of Al foams with different mass fractions of Mg at foaming temperature of 1 073 K: (a) Without Mg; (b) 0.2% Mg; (c) 0.6% Mg; (d) 1.0% Mg; (e) 1.4% Mg; (f) 1.8% Mg 图3 不同Mg含量的泡沫铝的泡孔表面形貌 Fig.3 Surface morphologies of cell walls of Al foams with different mass fractions of Mg: (a) Without Mg......
Trans. Nonferrous Met. Soc. China 26(2016) 1176-1182 Low frequency damping behavior associated with sintering process in Al powder compact Gang-ling HAO, Xian-yu LI, Wei-guo WANG College of Physics... can be interpreted as the viscous sliding of grain boundaries. The similar phenomena are also found in the Mg green powder compact. Key words: Al powder compact; internal friction; sintering; grain......
School of Materials Science and Engineering, Hefei University of Technology, Hefei 230009, China Received 8 May 2013; accepted 3 September 2013 Abstract: Consolidation of pure Al powder was conducted.... Key words: refinement; consolidation; equal channel angular pressing and torsion; Al powder 1 Introduction The mechanical properties of powder materials can be improved qualitatively when......
石墨表面包覆Al(OH)3的研究 田金星1 (1.武汉理工大学资环学院,武汉,430070) 摘要:采用非均匀成核法,使硫酸铝在石墨悬浮液中水解,在石墨表面包覆一层Al(OH)3.以角度法测量接触角,用差热失重检测石墨的抗氧化性.通过试验探讨了pH值,硫酸铝浓度等包覆条件对石墨表面改性的影响.结果表明:改性后石墨对水的润湿性和抗氧化性都有所提高. 关键词:表面改性; Al(OH)3包覆; 影响因素; 石墨; 润湿性; [全文内容正在添加中] ......
can be controlled via SiCp oxidation technical parameters. 3) Powder metallurgy method. According to the reactivity between SiC particles and molten Al, powder metallurgy becomes an effective way...; accepted 13 July 2014 Abstract: 35% SiCp/2024 Al (volume fraction) composite was prepared by powder metallurgy method. The microstructures of SiCp/Al interfaces and precipitate phase/Al interfaces......
由除杂铝渣碱溶碳分制备高纯Al(OH)3申晓毅,常龙娇,王佳东,翟玉春东北大学材料与冶金学院摘 要:以红土镍矿酸浸液的除杂铝渣为原料,经碱溶,分步碳分制备高纯Al(OH)3粉体,实验考察了除杂铝渣碱溶温度,碱溶pH值与除杂铝渣中铝溶出率的关系及碳分终点pH值,碳分温度与沉铝率之间的关系.实验得到的适宜碱溶条件为pH值14,温度90℃,时间10 min;碳分条件为碳分终点pH值9,碳分温度75℃.采用XRD,SEM,化学成分分析对所得Al(OH)3粉体进行了表征.结果表明Al(OH)3粉体晶型发育良好,颗粒不规则,表面粗糙,结构松散,多孔.关键词:除杂铝渣;碱溶;分步碳分;高纯Al(OH)3粉体;......
难度,导致含铝高的稀土精矿无法有效开发[7-8]. 目前国内外从稀土料液中除铝主要采用中和水解法,碱沉淀法,草酸沉淀法和萃取法等几种方法.中和水解法除铝分离效果较差,应用于高浓稀土料液时稀土损失量大,且所得Al(OH)3沉淀呈胶体状,不易过滤[9];碱法(氢氧化钠)和酸法(草酸)除铝的工艺效果较好,但草酸沉淀法适用范围小,碱沉淀法除铝效果低,并且成本较高,对环境有一定污染[10];萃取法应用普遍...知,在pH=2~3.5的范围内,随着pH值的增加,吸附后溶液中Al3+浓度不断减小,而La3+基本不出现损失.当溶液pH值为3.5时,Al3+去除率超过90%,而La3+几乎不损失.由于继续增大溶液的 pH值至4或4以上将导致Al(OH)3的生成,因此3,5-二硝基水杨酸化学键合硅胶吸附除铝的pH值选择3.5较为适宜. 图11 pH值对3,5-二硝基水杨酸硅胶吸附分离稀土与铝的影响......
in ferrous powder metallurgy alloys[J]. Int J Powder Metall, 1994, 30(2): 157-162. [3]Rutz H G, Hanejko F G. High density processing of high performance ferrous materials[J]. Int J Powder Metall, 1995, 31(1): 9-17. [4]NI Guan-cao. Demands on iron powders for automobile P/M parts[J]. Powder Metallurgy Industry, 2003, 13(2): 26-28. (in Chinese) [5]Fujiki A, Kojima H, Maekawa Y, et al. Development......
