Spark plasma sintering of cBN/β-SiAlON composites

Densification, phase transformation, microstructure evolution and hardness of microwave sintered b-SiAlON-ZrO 2 composites were investigated and compared with conventionally sintered samples. Sintering trials were performed by a high vacuum capable 2.45 GHz microwave furnace without decomposition. M

Spark Plasma Sintering was used to produce two engineered ceramic laminates in the SiC-Al 2 O 3 system starting from tape casted composite layers. By changing the composition of the stacked laminae and the architecture of the laminate, tailored residual stress profile was produced after sintering an

The spark plasma sintering (SPS), also known as plasma activated sintering, is a method applicable for rapid sintering of metals and ceramics. The technique is thought of a type of rapid hot pressing, implying that the application of a uniaxial pressure is essential for enhanced densification kineti

Oxide-dispersion-strengthened Ni 3 Al composites have been fabricated by mechanical alloying and subsequently spark plasma sintering with elemental powder. A solution Ni(Al) has been obtained during mechanical alloying. In addition, element O is introduced by mechanical alloying. Composites have a n