1400℃放电等离子烧结制备MgO-B_(2)O_(3)增韧无金属黏结相WC硬质合金EI北大核心CSCD

为了降低无金属黏结相碳化钨(WC)硬质合金的烧结温度并获得较高的断裂韧度,采用MgO和B_(2)O_(3)协同增韧WC硬质合金。通过放电等离子烧结技术(SPS)在1400℃的较低温度下制备出致密的WC-MgO-B_(2)O_(3)硬质合金块体材料,研究MgO-B_(2)O_(3)对无金属黏结相WC硬质合金的烧结机理、微观组织演变以及力学性能的影响规律。结果表明:MgO-B_(2)O_(3)的添加促进了WC的烧结致密化,显著降低了无金属黏结相WC硬质合金的烧结温度。随着MgO-B_(2)O_(3)添加量的提高,组织中的部分第二相形貌发生显著改变,逐渐由短杆状转变为长杆状,再转变为聚集时的块状。当MgO-B_(2)O_(3)添加量达到8%(质量分数)时,块体材料具有较好的断裂韧度,为(9.45±0.37)MPa·m^(1/2),同时其硬度为(18.16±0.17)GPa。     

粉末短流程成形固结技术的研究及展望

针对粉末冶金行业最新发展的几种短流程成形固结新技术,结合华南理工大学近十多年来在粉末材料-工艺-装备-零件一体化方面开展的研究,重点阐述了粉末冶金温压成形、高速压制成形、喷射成形、多场作用下粉末成形与烧结一体化技术的研究进展及应用情况。指出在粉末冶金成形固结研究领域,合理拓展现有粉末冶金技术规范的空间,有望给传统粉末冶金成形固结技术注入新的活力。粉末冶金成形固结新技术的不断出现,必将促进先进制造业和高技术产业的快速发展,也必将给材料工程和制造业带来更加光明的前景。     

T型通道挤压变形ZK60镁合金的组织与力学性能

采用一种新型剧塑性变形工艺—T型通道挤压(TCP)对ZK60镁合金在673K下以A和Bc两种路径进行1～4道次挤压变形,通过光学显微镜观察变形镁合金的显微组织,并对TCP变形镁合金的不同部位在应变速率4×10-3s-1时进行室温拉伸性能测试.结果表明塑性变形最大的部位是试样中间部位的最底部,其组织特征为细小晶粒包围着大晶粒,大晶粒呈拉长的流线状;4道次变形后,A路径的平均晶粒尺寸由退火态时的88.5μm细化至2.4μm,Bc路径的平均晶粒尺寸则细化至4.6μm,但组织更均匀;同时,在相同道次TCP变形后,A路径变形合金的屈服强度都高于Bc路径变形合金的,但前者的抗拉强度和塑性却低于后者的;此外,试样最底部的抗拉强度和屈服强度均高于试样顶部的,经Bc路径2道次变形后试样底部与顶部的抗拉强度和屈服强度分别相差39.5和43.1Mpa,而经4道次变形后试样两个部位的抗拉强度和屈服强度分别只相差21.2和11.7Mpa.     

Mechanical Behaviors of Ultrafine-Grained Ti-6Al-4V Alloy During Compression at Various Strain Rates

Metallurgical and Materials Transactions A - Ultrafine-grained (UFG) Ti-6Al-4V alloy with average grain sizes of 305, 430, and 669 nm was fabricated by high-energy ball-milling and spark plasma...     

Effect of Grain Size on the Shear Banding Behavior of Ti-6Al-4V Alloy Under Quasi-Static Compression

Metallurgical and Materials Transactions A - Ti-6Al-4V alloys with average grain sizes of 0.3 to 1.5 μm were fabricated by high-energy ball milling (HEBM) and spark plasma sintering...     

转速对6061铝合金/纯铜异种金属搅拌摩擦焊接头组织与性能的影响

采用搅拌摩擦焊技术对4 mm厚6061-T6铝合金和纯铜进行连接,研究转速对铝铜异种金属接头组织与力学性能的影响。结果表明,当焊接速度为30 mm/min、搅拌头转速在1 200~1 800 r/min的范围内,可以获得表面成形良好、无缺陷的铝铜异种金属接头。大量破碎的铜被搅入焊核区,形成了组织结构复杂的区域。通过EDS和XRD分析,在焊核区内发现了Al_2Cu、Al_4Cu_9和Al Cu金属间化合物。在界面处,铝和铜发生相互扩散形成金属间化合物层,随着转速的提高,化合物层逐渐变厚。由于晶粒细化、固溶强化作用以及金属间化合物的生成,异种接头的焊核区平均显微硬度值高于铝铜两侧平均硬度,并且在焊核区出现硬度峰值点。随着转速的增加,接头抗拉强度呈现先增大后减小的趋势,所得最优接头抗拉强度为183 MPa,达到铜母材的71.8%,断裂位置位于铝侧热影响区,断裂方式为韧性断裂。     

粉末短流程成形固结技术的研究及展望

针对粉末冶金行业最新发展的几种短流程成形固结新技术,结合华南理工大学近十多年来在粉末材料-工艺-装备-零件一体化方面开展的研究,重点阐述了粉末冶金温压成形、高速压制成形、喷射成形、多场作用下粉末成形与烧结一体化技术的研究进展及应用情况。指出在粉末冶金成形固结研究领域,合理拓展现有粉末冶金技术规范的空间,有望给传统粉末冶金成形固结技术注入新的活力。粉末冶金成形固结新技术的不断出现,必将促进先进制造业和高技术产业的快速发展,也必将给材料工程和制造业带来更加光明的前景。     

Numerical Simulation of Deposit Shape Evolution During the Spray-Rolling Process

The sprayed deposit shape before feeding into the two roller wheels during the spray-rolling process was investigated using mathematical models, tracing the coordinates of a growing deposit with respect to time. Because two deposition surfaces are arranged closely next to each other as in the case of spraying onto two wheels, some important realistic scenarios, such as droplet rebounding and redeposition, and the geometrical features of deposition surface, were considered. Then, the calculated results of the shape evolution were utilized to predict the corresponding drag-in angle, deposit thickness, and the production rate. The calculated values agree well with the experimental data. The results show that the deposit shape and production rate are sensitive to processing parameters such as the roll gap, the roller diameter and rotational speed, the spray distance, and the mass flux distribution in the spray cone. The optimum spray-rolling processing parameters were determined and presented by using an orthogonal design method.     

On structure property correlation in high strength tungsten heavy alloys

Detailed structure-property correlation has been carried out in high strength tungsten heavy alloys. Alloys of compositions 90W-6Ni-2Fe-2Co, 89W-6Ni-2Fe-3Co, 89.5W-6Ni-2Fe-2Co-0.5Mo, 89.75W-6Ni-2Fe-2Co-0.25Mo, 90W-6Ni-1.5Fe-2.5Co and 90W-6Ni-1Fe-3Co have been prepared by liquid phase sintering followed by large deformation during thermo mechanical processing and studied for microstructure and mechanical properties. Despite differences in composition, higher volume fraction of matrix and lower W-W contiguity in the microstructure result in superior tensile strength and impact toughness. Increasing W content in the matrix enhances mechanical properties by imparting solid solution strengthening, increasing the matrix volume fraction and reducing W-W contiguity. The alloy 90W-6Ni-1Fe-3Co shows superior balance of properties with ultimate tensile strength of 1600 MPa and average impact toughness of 121 J/cm².     

放电等离子烧结-热变形技术制备NdFeB永磁材料

采用放电等离子烧结(SPS)方法烧结HDDRNdFeB粉末,研究烧结温度对制备NdFeB永磁材料密度和磁性能的影响。随着烧结温度在650～900℃范围内升高,剩磁、内禀矫顽力及最大磁能积均呈现先升后降的趋势。800℃烧结所获得磁体的磁性能最佳:Br=0.78T,Hcj=577kA/m,(BH)max=78kJ/m3,其致密度达到了99%。微观组织、XRD图谱及磁性能均表明800℃烧结的磁体出现了一定程度的各向异性。900℃烧结时,晶粒长大明显。进而选择具有最佳磁性能的磁体在800℃进行热变形(HD)处理,制备出各向异性磁体。热变形制备的磁体中,大部分晶粒为扁平片状且c轴取向与热压方向一致;少量异常长大晶粒会使细小Nd2Fe14B晶粒的c轴偏离压力方向。各向异性磁体沿c轴的磁性能为:Br=1.09T,Hcj=384kA/m,(BH)max=114kJ/m3。