Abstract: A process and an apparatus for producing a composite material utilize a rotatable hollow body that is inclined with an upstream side being higher than a downstream side. A reaction zone is defined within an elongated chamber in the hollow body. Protrusions inwardly extend from an inner peripheral wall of the hollow body adjacent to the reaction zone. Base material is input into the chamber via a base material introduction port and a carbon source vapor is input into the chamber via a carbon source supply port. A heater heats the reaction zone to a temperature at which carbon nanotubes form on the base material from the carbon source vapor. The protrusions catch base material disposed on the inner peripheral wall of the hollow body when the hollow body rotates and then drop the base material through the reaction zone so that the base material contacts the carbon source vapor.

Abstract: A process and an apparatus for producing a composite material utilize a rotatable hollow body that is inclined with an upstream side being higher than a downstream side. A reaction zone is defined within an elongated chamber in the hollow body. Protrusions inwardly extend from an inner peripheral wall of the hollow body adjacent to the reaction zone. Base material is input into the chamber via a base material introduction port and a carbon source vapor is input into the chamber via a carbon source supply port. A heater heats the reaction zone to a temperature at which carbon nanotubes form on the base material from the carbon source vapor. The protrusions catch base material disposed on the inner peripheral wall of the hollow body when the hollow body rotates and then drop the base material through the reaction zone so that the base material contacts the carbon source vapor.

Abstract: A microwave firing furnace comprises microwave heating means and a furnace chamber for holding a material to be fired containing an organic binder. A carrier gas introduction pipe introduces a carrier gas that contains oxygen at a concentration lower than that of the air to suppress the burning of the organic binder contained in the material being fired.

Abstract: A microwave sintering furnace and a microwave sintering method are disclosed, in which the object to be sintered develops no cracking or deformation in the degreasing process. A microwave sintering furnace (1) comprises a furnace body (2) containing an object (S) to be sintered, a unit (3, 4) for generating and introducing microwaves into the furnace body, a unit (8) for supplying a degreasing gas into the furnace body (2), and a unit (11) for heating the degreasing gas before it reaches the object (S) to be sintered.