Kass scite author profile

Sintering with low frequency rf power is a new technique with unique capabilities that has been used to sinter a variety of ceramic materials, including zirconia-toughened alumina, alumina, silicon carbide, and boron carbide. Processing with low frequencies offers many advantages compared to processing with conventional microwave frequencies (915 MHz and 2.45 GHz). Because of the longer wavelength, the rf electric field penetrates materials more than microwaves. This effect allows the processing of a wider variety of materials and allows for an increase in the physical size of the material being processed. In addition, the material is heated in a single mode cavity with a uniform electric field, which reduces the occurrence of hot-spot generation and thermal runaway effects. This technique has been used to sinter large crack-free alumina samples (3" square) to >97% density. The sintering andor annealing of a number of carbide materials has been demonstrated as well, including silicon carbide, boron carbide, tungsten carbide, and titanium carbide.

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Radiation-hard ASICs for LHC optical data transmission

Gan¹,

Buchholz²,

KAGAN³

et al. 2009

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Microwave versus conventional sintering of silicon carbide tiles

Kass¹,

Caughman²,

Forrester³

et al. 1997

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Kass

Evaluation of Demo 1C composite flywheel rotor burst test and containment design

Sintering of ceramics using low frequency rf power

Radiation-hard ASICs for LHC optical data transmission

Microwave versus conventional sintering of silicon carbide tiles

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