The effectiveness of microwave (MW) sintering has been demonstrated on many ceramic systems, a number of metallic systems, and metal-ceramic composites, but remains ambiguous for Ti powder materials. This work presents a detailed comparative study of MW and conventional sintering of Ti powder compacts in vacuum. It is shown that MW radiation is effective in heating Ti powder compacts with the assistance of MW susceptors; it delivered an average heating rate of 34 K/min (34 °C/min), compared to 4 K/min (4 °C/min) by conventional vacuum heating in an alumina-tube furnace. Microwave radiation resulted in similar densification with well-developed sinter bonds. However, MW-sintered samples showed higher bulk hardness, a harder surface shell, and coarser grains. The difference in hardness is attributed to the difference in the oxygen content, supported by X-ray photoelectron spectroscopy analyses. The mechanisms of MW heating for metal powder compacts are discussed in the context of the sintering of Ti powder materials and attributed to three combined effects. These include heat radiation from the MW susceptors at low temperatures, enhanced MW absorption due to the transformation of the TiO2 film on each Ti powder particle to oxygen-deficient Ti oxides, which are MW absorbers; and the volumetric heating of Ti powder particles by eddy currents.
展开▼
机译:微波(MW)烧结的有效性已在许多陶瓷体系,许多金属体系和金属陶瓷复合材料上得到了证明,但对于Ti粉末材料仍然不明确。这项工作提出了对MW和真空中Ti粉末压块的常规烧结的详细比较研究。结果表明,在微波感受器的帮助下,微波辐射有效地加热了钛粉块。与传统的在铝管炉中进行真空加热时的4 K / min(4°C / min)相比,它的平均加热速率为34 K / min(34°C / min)。微波辐射导致具有完善的烧结键的类似致密化。但是,MW烧结的样品显示出较高的整体硬度,较硬的表面壳和较粗的晶粒。硬度的差异归因于X射线光电子能谱分析所支持的氧含量的差异。金属粉末压坯的MW加热机理是在Ti粉末材料的烧结过程中讨论的,并归因于三种综合作用。这些包括:低温下来自MW感受器的热辐射,由于每个Ti粉颗粒上的TiO 2 膜转变为缺氧的Ti氧化物(MW吸收剂)而提高了MW的吸收;以及通过涡流对钛粉颗粒的体积加热。
展开▼
