Abstract: A thermally conductive and electrically insulative polymer composition and a method for creating the same is provided. Thermally conductive filler material is coated with a thermally conductive and electrically insulative coating material and mixed with a base polymer matrix. The mixture is molded into the desired shape. The electrically insulative coating material prevents the transfer of electricity through the filler material thus resulting in an electrically insulative composition.

Abstract: The present invention provides an improved electrolytic capacitor device and a method of constructing the same. The capacitor includes a central support post that is inserted into an arbor hole in the center of the active element. The present invention provides a capacitor post that has a core material of metal or thermally conductive polymer that has an outer protective layer formed thereon. The outer protective layer is net shape insert molded over the core using a thermally conductive, electrically insulative polymer material that protects the support core from interfering with the electrical operation of the capacitor while increasing the capacitor's ability to transfer waste heat from the active element to the exterior of the device. The outer layer further includes an integrally formed thermal transfer pad that resides adjacent to the outer can of the capacitor when the capacitor post is installed.

Abstract: An electric heater element, that is injection overmolded with a thermally conductive polymer having a thermal conductivity of at least 3 W/m° K, includes surface enhancements to increase the overall outer surface area of the element that is in contact with a fluid to be heated, thereby enhancing the efficiency of heat transfer into the fluid. The heater element has a solid core having a resistance heating element spirally wound about its outer surface. An outer covering is injection overmolded onto the core sealing the heating element and shielding it from the exterior environment. While the outer covering seals the heating element it also includes surface enhancements such as concentric fins, pins or discs that increase the contact surface area of the outer cover, further enhancing the heat transfer properties of the heating element.

Abstract: A polymer composition having high thermal conductivity and dielectric strength is provided. The polymer composition comprises a base polymer matrix and a thermally-conductive, electrically-insulating material. A reinforcing material such as glass can be added to the composition. The polymer composition can be molded into packaging assemblies for electronic devices such as capacitors, transistors, and resistors.

Abstract: The present invention provides an improved electrolytic capacitor device and a method of constructing the same. The capacitor includes a central support post that is inserted into an arbor hole in the center of the active element. The present invention provides a capacitor post that has a core material of metal or thermally conductive polymer that has an outer protective layer formed thereon. The outer protective layer is net shape insert molded over the core using a thermally conductive, electrically insulative polymer material that protects the support core from interfering with the electrical operation of the capacitor while increasing the capacitor's ability to transfer waste heat from the active element to the exterior of the device. The outer layer further includes an integrally formed thermal transfer pad that resides adjacent to the outer can of the capacitor when the capacitor post is installed.

Abstract: The present invention discloses a heat pipe construction that includes a heat pipe with phase change media therein with a conductive composition molded about the heat pipe. The thermally conductive composition absorbs or reflects electro magnetic interference waves and prevents their transmission into and through the heat pipe to the electronic components being cooled by the heat pipe.

Abstract: The present invention provides an improved electrolytic capacitor device and a method of constructing the same. The capacitor includes a central support post that is inserted into an arbor hole in the center of the active element. The present invention provides a capacitor post that has a core material of metal or thermally conductive polymer that has an outer protective layer formed thereon. The outer protective layer is net shape insert molded over the core using a thermally conductive, electrically insulative polymer material that protects the support core from interfering with the electrical operation of the capacitor while increasing the capacitor's ability to transfer waste heat from the active element to the exterior of the device. The outer layer further includes an integrally formed thermal transfer pad that resides adjacent to the outer can of the capacitor when the capacitor post is installed.

Abstract: The present invention provides an improved electrolytic capacitor device and a method of constructing the same. The capacitor includes a central support post that is inserted into an arbor hole in the center of the active element. The present invention provides a capacitor post that has a core material of metal or thermally conductive polymer that has an outer protective layer formed thereon. The outer protective layer is net shape insert molded over the core using a thermally conductive, electrically insulative polymer material that protects the support core from interfering with the electrical operation of the capacitor while increasing the capacitor's ability to transfer waste heat from the active element to the exterior of the device. The outer layer further includes an integrally formed thermal transfer pad that resides adjacent to the outer can of the capacitor when the capacitor post is installed.

Abstract: The present invention discloses a heat pipe construction that includes a heat pipe with phase change media therein with a conductive composition molded about the heat pipe. The thermally conductive composition absorbs or reflects electro magnetic interference waves and prevents their transmission into and through the heat pipe to the electronic components being cooled by the heat pipe.

Abstract: A net-shape molded elastomeric gasket for dissipating heat and providing electro-magnetic interference (EMI) shielding for an electronic device is formed by loading a base elastomeric matrix material with thermally conductive filler and EMI reflective metallic filler and injecting the mixture into a mold cavity. The gasket of the present invention provides superior sealing between the case sections of an electronic device by shielding the device from EMI infiltration along the seam between the sections. In addition, the gasket of the present invention is in thermal communication with the case sections of the electronic device to provide thermal transfer and dissipation between the separate parts of the device.

Abstract: A heat sink assembly for removing heat from an object having an outer surface includes a main body with an object receiving seat. A pair of flexible securing tabs are connected to the free edge of the open end of the main body which emanate into the open end of the main body. A heat dissipation members emanate from the outer surface of the main body to assist in dissipating the heat received by the main body from the heat generating object. The main body, the pair of flexible securing tabs and heat dissipating members are integrally formed with one another of a thermally conductive elastic or elastomeric material. An object to be cooled is inserted into the object receiving seat of the main body and retained in the seat and in communication with the inner surfaces of the main body by the pair of flexible securing tabs.

Abstract: A net-shape molded heat transfer component is provided which includes a thermally conductive core and a metallic coating for reflection of electromagnetic interference and radio frequency waves. The heat transfer component is formed by net-shape molding a core body from a thermally conductive composition, such as a polymer composition, and applying a metallic coating. The molded heat transfer part is freely convecting through the part, which makes it more efficient and has an optimal thermal configuration. Additionally, the part is shielded from electromagnetic interference and radio frequency waves, thus preventing the transfer of same into the circuitry housed by the part. In addition, the coating also seals the conductive polymer core against moisture infiltration, making the part well suited for telecommunications applications in potentially harsh environments.

Abstract: A composite heat dissipation assembly having a net shape injection molded thermally conductive elastomeric heat sink and at least one integral heat pipe is provided in the present invention. The molded conformable heat sink is formed from a base elastomeric material that is loaded with thermally conductive filler. The base material is mixed with the filler and net shape molded to form the outer geometry of the assembly. Within the geometry of the part an integral channel is formed that is capable of receiving a heat pipe. The channel is formed to have an opening that is slightly smaller than the outer cross-sectional dimensions of the heat pipe. When the heat pipe is pressed into the channel a portion of the elastomeric material is compressed and the reactionary force of the compressed material firmly presses the elastomer into thermal communication with the outer surface of the heat pipe.

Abstract: A thermally conductive lamp reflector is provided that dissipates heat from a light source within the reflector. The reflector assembly includes a shell having a metallized layer on its surface. The shell is made from a composition including about 30% to about 80% by volume of a base polymer matrix and about 20% to about 70% by volume of a thermally conductive filler material. The reflector has a thermal conductivity of greater than 3 W/m° K and preferably greater than 22 W/m° K. The reflectors can be used in automotive headlamps, flashlights, and other lighting fixtures. A method of forming the lamp reflector is also provided.

Abstract: The present invention relates to thermally conductive, elastomeric pads and methods for manufacturing such pads. The methods involve injection-molding a thermally conductive composition comprising about 30 to 60% by volume of an elastomer polymer matrix and about 25 to 60% by volume of a thermally conductive filler material. The resultant pads have heat transfer properties and can be used as a thermal interface to protect heat-generating electronic devices.

Abstract: This invention relates to a thermally conductive molding composition having a thermal conductivity greater than 3 W/m° K. The composition consists essentially of: a) 30% to 60% of a polymer matrix; b) 25% to 60% of boron nitride; and c) 25% to 60% of alumina. The boron nitride and alumina are dispersed throughout the polymer matrix. The composition can be molded or cast into a variety of articles such as packaging materials for semiconductor devices.

Abstract: The present invention relates to a self-heating container for heating consumable items such as food and beverages. The container assembly includes a star-shaped inner container for holding heating media that produces an exothermic reaction, and an outer container for holding a consumable item such as food and beverages. The inner container includes a thermally conductive polymer composition, and the outer container includes a heat-insulating material. The thermally conductive polymer composition includes a base polymer matrix and filler material.

Abstract: The present invention discloses a method of constructing a heat pipe that includes providing a heat pipe with phase change media therein and injection overmolding the heat pipe with a conductive composition. The thermally conductive composition absorbs or reflects electro magnetic interference waves and prevents their transmission into and through the heat pipe to the electronic components being cooled by the heat pipe.

Abstract: A thermally conductive and electromagnetic interference and radio frequency reflective polymer composition and a method for creating the same is disclosed. Thermally conductive filler material is coated with a thermally conductive and electromagnetic interference and radio frequency reflective coating material and mixed with a base polymer matrix. The mixture is molded into the desired shape. The electromagnetic interference and radio frequency reflective coating material prevents the absorption and transfer of EMI and RF waves through the filler material thus resulting in an EMI and RF reflective composition.

Abstract: A heat sink assembly for removing heat from an object having an outer surface includes a main body with an object receiving seat. A pair of flexible securing tabs are connected to the free edge of the open end of the main body which emanate into the open end of the main body. A heat dissipation members emanate from the outer surface of the main body to assist in dissipating the heat received by the main body from the heat generating object. The main body, the pair of flexible securing tabs and heat dissipating members are integrally formed with one another of a thermally conductive elastic or elastomeric material. An object to be cooled is inserted into the object receiving seat of the main body and retained in the seat and in communication with the inner surfaces of the main body by the pair of flexible securing tabs.