An embossing device and a method for embossing, employing an electromagnetic induction device such as to induce an eddy current prevalently on the outer surface of an embossing roller. The eddy currents are such as to prevalently heat the outer surface of the embossing roller.

An inductively heated mold system enables rapid heating of the mold and rapid cooling to reduce thermal cycling times by employing an inductive coil in a heater module that inductively heats a ferromagnetic layer configured on the mold body, such as around the outside perimeter of the mold body. A cooling channel may be configured between the inductive coil and the ferromagnetic layer on the mold body to allow a fluid to be passed between the mold body and the heater module to rapidly cool the mold body for removal of the molded part. A plurality of heater modules may be employed that can be coupled together such that the cooling fluid passes through the coupled cooling channels from one module to a second module. In this way heater modules can be combined to provide an inductively heated mold system for a variety of mold body sizes, or lengths.

A hand-held heating unit is disclosed having a turbine connected to a generator to generate electrical power from a compressed air source. The electrical power produced by the generator is suppled to a transformer to establish a voltage which is in turn used to energize a coil with an alternating current. The current causes a magnetic field to form in the coil that can be used to heat ferrous materials within the coil. A circuit board can control the current and frequency for different applications.

Disclosed is an electromagnetic-induction heating device for a thin film thermocouple on a ceramic blade, including a spiral coil. The ceramic blade is enveloped in the spiral coil, and two ends of the spiral coil are both connected to an electromagnetic-induction heater. The ceramic blade is arranged in an alumina ceramic chamber, and the thin-film thermocouple is arranged on a surface of the ceramic blade. One end of the air channel is connected to an end of the alumina ceramic chamber, and the other end of the air channel is connected to an infrared nod temperature instrument and a vacuum pump. The infrared nod temperature instrument, the electromagnetic-induction heater, and the vacuum pump controller are electrically connected to the controller.

A controller is connected to at least one transistor of the transistor driving circuit and connected to the at least one current sensing element to detect the current through the induction heating coil and in response to the current through the at least one current sensing coil exceeding a limit level sending a control signal to the at least one transistor of the transistor driving circuit to temporarily turn off the at least one transistor.

A controller is connected to at least one transistor of the transistor driving circuit and connected to the at least one current sensing element to detect the current through the induction heating coil and in response to the current through the at least one current sensing coil exceeding a limit level sending a control signal to the at least one transistor of the transistor driving circuit to temporarily turn off the at least one transistor.

For heating a mold efficiently and uniformly and for protecting an induction coil from corrosive gases, an upper plate that contacts an upper end face of a mold, and a lower plate that contacts a lower end face of the mold are provided, and an induction coil, provided to each plate, has a voltage applied by a commercial power supply. Each plate has a metal plate body in which a recessed housing portion that houses the induction coil is formed, and a cover that closes the recessed housing portion in a state where the induction coil is housed therein. A cover placement portion having a step that is greater than or equal to the thickness of the metal cover is formed in the metal plate body, and a plurality of jacket chambers in which a gas-liquid two phase heating medium is enclosed are formed in the metal plate body.

For heating a mold efficiently and uniformly and for protecting an induction coil from corrosive gases, an upper plate that contacts an upper end face of a mold, and a lower plate that contacts a lower end face of the mold are provided, and an induction coil, provided to each plate, has a voltage applied by a commercial power supply. Each plate has a metal plate body in which a recessed housing portion that houses the induction coil is formed, and a cover that closes the recessed housing portion in a state where the induction coil is housed therein. A cover placement portion having a step that is greater than or equal to the thickness of the metal cover is formed in the metal plate body, and a plurality of jacket chambers in which a gas-liquid two phase heating medium is enclosed are formed in the metal plate body.

Zonal heating and cooling during the production of matrix drill bits may be achieved with a system that includes a cavity defined within a mold assembly having a central axis; reinforcing particles and a binder material disposed within the cavity; and a plurality of induction coils about a periphery of the mold assembly, each induction coil being spaced from each other along the height of the mold assembly, wherein a first induction coil of the plurality of induction coils is arranged proximal to a portion of mold assembly containing a portion of the reinforcing particles and a second induction coil of the plurality of induction coils is arranged proximal to a portion of the mold assembly containing a portion of the binder material.

Zonal heating and cooling during the production of matrix drill bits may be achieved with a system that includes a cavity defined within a mold assembly having a central axis; reinforcing particles and a binder material disposed within the cavity; and a plurality of induction coils about a periphery of the mold assembly, each induction coil being spaced from each other along the height of the mold assembly, wherein a first induction coil of the plurality of induction coils is arranged proximal to a portion of mold assembly containing a portion of the reinforcing particles and a second induction coil of the plurality of induction coils is arranged proximal to a portion of the mold assembly containing a portion of the binder material.