Abstract: A magnesium alloy includes Mg, 1 to 12 wt % of Li, 1 to 10 wt % of Al and 0.2 to 3 wt % of Zn. The magnesium alloy has a microstructure which includes a nanoscale reinforcement phase, wherein the nanoscale reinforcement phase is a Li—Al compound.

Abstract: A magnesium alloy includes Mg, 1 to 12 wt % of Li, 1 to 10 wt % of Al and 0.2 to 3 wt % of Zn. The magnesium alloy has a microstructure which includes a nanoscale reinforcement phase, wherein the nanoscale reinforcement phase is a Li—Al compound.

Abstract: A magnesium alloy is disclosed. The magnesium alloy includes magnesium (Mg), 6-12 wt % of lithium (Li) and 1-10 wt % of aluminum (Al). A temperature range between a solidus and a liquidus of the magnesium alloy is equal to or larger than 50° C.

Abstract: A process for producing a lithium-containing alloy material is described. The process supplies a light alloy material applicable to the design of lightweight structural components. The process includes first melting alloy materials at a required ratio into a homogeneous alloy melt, then pouring the alloy melt into a ladle protected with an inert gas and pre-filled with a lithium material, where the lithium material is vigorously flushed and mixed with a hot stream of the alloy melt, and diffused into the alloy melt, and then after uniformly mixing, pouring the lithium-containing alloy melt into a mold to form an ingot and produce a lithium alloy. The process solves the fundamental problems of both contamination and uncontrolled component caused by longtime overheat in traditional melting techniques, and is a novel, safe, economic, and efficient manufacture process.

Abstract: The present invention is an aromatic evaporator consisting of a base, a heater, a heat conduction aluminum plate, a constant temperature controller, a plug, a ceramic carriers and a cover. The plug sets inside the base to deliver D.C. power; the heater converts the electricity from the plug into heat; the heat conduction aluminum plate adhered to the heater directly evens the heat; the constant temperature controller contains the electric conduction switch and the memory alloy plate connected with the heat conduction aluminum. When the memory alloy plate is straight, the electric conduction switch is switched off and stops the heater from heating. When the temperature reduces, the memory alloy plate is curved by external force and switches on the electric conduction switch, making the heater reheat. The memory alloy plate of the constant temperature controller controls the heater to heat intermittently, making the heater heat at constant temperature.

Abstract: The present invention relates to a fuel cell module with heat exchange and electricity exchange functions, consisting of one heat dissipation module and one electricity exchange module. The heat dissipation module is composed of several hydrogen cans and one heat dissipation base contacted with the CPU and the electricity exchange module contains the hydrogen release pressure platen, the flow rate control valve and the Proton Exchange Membrane Systems. The flow rate control valve controls the hydrogen released from the hydrogen cans that absorbs the heat generated by the CPU rapidly for heat exchange. The released hydrogen is transmitted to the Proton Exchange Membrane Systems that converts chemical energy into electric energy and is then utilized by the computer. Such heat exchange of the CPU provides the computer with D.C. power, clears up the heat dissipation problem, and substitutes the portable power for current notebooks.

Abstract: The present invention is related to a manufacturing process for highly ductile magnesium alloy, which is processable under plasticization at ambient temperature. The process includes melting in vacuum melt furnace or inert gas protected furnace, teeming into ingot, extrusion or rolling into finished material. Such highly ductile magnesium alloy has extremely excellent plastic deformability at ambient temperature and improves completely the deficiency associated with traditional commercial magnesium alloy that lacks plastic deformability at ambient temperature. The material is suitable for the structural components in automobiles, 3C products, appliances and office automation products.

Abstract: The present invention is an aromatic evaporator consisting of a base, a heater, a heat conduction aluminum plate, a constant temperature controller, a plug, a ceramic carriers and a cover. The plug sets inside the base to deliver D.C. power; the heater converts the electricity from the plug into heat; the heat conduction aluminum plate adhered to the heater directly evens the heat; the constant temperature controller contains the electric conduction switch and the memory alloy plate connected with the heat conduction aluminum. When the memory alloy plate is straight, the electric conduction switch is switched off and stops the heater from heating. When the temperature reduces, the memory alloy plate is curved by external force and switches on the electric conduction switch, making the heater reheat. The memory alloy plate of the constant temperature controller controls the heater to heat intermittently, making the heater heat at constant temperature.

Abstract: The present invention is related to a manufacturing process for highly ductile magnesium alloy, which is processable under plasticization at ambient temperature. The process includes melting in vacuum melt furnace or inert gas protected furnace, teeming into ingot, extrusion or rolling into finished material. Such highly ductile magnesium alloy has extremely excellent plastic deformability at ambient temperature and improves completely the deficiency associated with traditional commercial magnesium alloy that lacks plastic deformability at ambient temperature. The material is suitable for the structural components in automobiles, 3C products, appliances and office automation products.

Abstract: The present invention relates to a fuel cell module with heat exchange and electricity exchange functions, consisting of one heat dissipation module and one electricity exchange module. The heat dissipation module is composed of several hydrogen cans and one heat dissipation base contacted with the CPU and the electricity exchange module contains the hydrogen release pressure platen, the flow rate control valve and the Proton Exchange Membrane Systems. The flow rate control valve controls the hydrogen released from the hydrogen cans that absorbs the heat generated by the CPU rapidly for heat exchange. The released hydrogen is transmitted to the Proton Exchange Membrane Systems that converts chemical energy into electric energy and is then utilized by the computer. Such heat exchange of the CPU provides the computer with D.C. power, clears up the heat dissipation problem, and substitutes the portable power for current notebooks.

Abstract: A hydrogen storage and transportation system is composed of hydrogen storage alloy, a storage tank, a control valve unit and a heat exchange system, wherein the hydrogen storage alloy stores hydrogen in a solid state, the storage tank is loaded with hydrogen storage alloy, the control valve unit is a passage to control hydrogen flow, and the heat exchange system regulates the pressure and flow rate for the hydrogen storage alloy to absorb and release hydrogen. The system enables hydrogen storage in low pressure and high density. Thus, the system also facilitates hydrogen transportation with dual performance in both safety and efficiency. The system will establish a foundation for future hydrogen energy industry.

Abstract: The present invention uses an ultraviolet sensitive semiconductor ceramics to fabricate an ultraviolet sensor. For example, adding Sb5+ to tin dioxide containing Sn4+ to form SnO2:Sb. When exposing SnO2:Sb to ultraviolet rays, the electron Sb5+ exists in Energy Gap or Forbidden Band being excited, and jumps to Conductive Band, causing the conductivity of SnO2:Sb to be increased. More electrons are moved to Conductive Band following increasing of ultraviolet intensity, thereby causing the electric resistance value of SnO2:Sb to be reduced. A film of photosensitive semiconductor ceramics is connected and arranged with driving power, amplifier and control circuit, alarm system, etc., forming a miniature sensor.