Abstract: A dissipating device configured to dissipate the heat energy generated by the heat sources in the electronic devices. When the dissipating device contacts the heat sources, the heat energy can be absorbed by the dissipating device. The working fluid is stored within the dissipating device such that the working fluid can undergo a phase transition after the dissipating device absorbs heat energy. Then the working fluid can circulate inside the dissipating device. Accordingly, the heat-dissipation mechanism, which is applied to the dissipating device contacting the electronic devices, can be effectively sped up. The dissipating device is formed into a thin structure to achieve an excellent heat-dissipation effect with a limited heat-dissipation area.
Abstract: A heat dissipating plate includes a casing, a capillary structure layer, a support structure, and heat dissipating liquid. The casing includes a first substrate and a second substrate, which is disposed opposite to the first substrate to form a non-vacuum sealed cavity. The capillary structure layer is disposed in a first region of the non-vacuum sealed cavity and defines a first flow space. The support structure is disposed in a second region of the non-vacuum sealed cavity and defines a second flow space. The heat dissipating liquid is disposed in the non-vacuum sealed cavity, the liquid amount of which is more than 50% of the total capacity of the first flow space and the second flow space, and flows between the first flow space and the second flow space. The invention also provides a method for manufacturing the heat dissipation plate and an electronic device having the heat dissipation plate.
Abstract: A dissipating device applied to an electronic device and configured to absorb the heat source generated by the electronic device. A thermal conductive fluid is filled in the dissipating device of the present disclosure. The thermal conductive fluid is a mixture of two immiscible fluid mediums. When the thermal conductive fluid contacts the heat source of the electronic device, the thermal conductive fluid will continuously undergo a phase transition cycle to speed up the heat dissipation effect of the dissipating device on the electronic device and achieve an excellent heat dissipation effect.