Abstract: An aluminum alloy has a composition consisting of Si: 0.03 to 0.6 mass %, Fe: 0.1 to 0.7 mass %, Cu: 0.05 to 0.20 mass %, Mn: 1.0 to 1.5 mass %, Mg: 0.01 to 0.1 mass %, Zn: 0 to 0.1 mass %, Ti: 0 to 0.1 mass %, and the balance being Al and inevitable impurities.

Abstract: A device 10 for drawing a tubular workpiece is provided with a drawing die 20 and a drawing plug 30. The drawing die 20 includes a first curved surface section 1C from which the workpiece 40 is detached while being reduced in diameter, a die bearing section 2B arranged radially inward of and downstream of a workpiece separation point K of the first curved surface section 1C, and a guide section 2D having a second curved surface section 2C which smoothly continues to an upstream end of the die bearing section 2B and configured to again come into contact with the workpiece 40 detached from the first curved bearing section 1C to guide the workpiece to the die bearing section 2B while reducing a diameter of the workpiece 40. The drawing plug 30 has a plug bearing section 3B shorter than a length L4 of the die bearing section 2B. The plug bearing section 3B is arranged at a position corresponding to the die bearing section 2B.

Abstract: The present invention provides an anode material for a lithium secondary battery, which material realizes prolongation of the cycle life of a lithium secondary battery. The present invention relates to an anode active material for a lithium secondary battery, the active material containing a powder produced by a step of forming an etched foil through etching of both surfaces of a foil of Al having a purity of 90 mass % or higher, and a step of shredding the etched foil, the steps being carried out in this order.

Abstract: An aluminum alloy has a composition consisting of Si: 0.03 to 0.6 mass %, Fe: 0.1 to 0.7 mass %, Cu: 0.05 to 0.20 mass %, Mn: 1.0 to 1.5 mass %, Mg: 0.01 to 0.1 mass %, Zn: 0 to 0.1 mass %, Ti: 0 to 0.1 mass %, and the balance being Al and inevitable impurities.

Abstract: A lithium secondary battery negative electrode material 1 is in the form of a foil 2 or a plate, and includes a core layer 3 having electrical conductivity, and a porous layer 4 which is formed on at least one surface of the core layer 3, and which contains Al in an amount of 90 mass % or more. The porous layer 4 has a porosity of 30 to 70 vol. %. Pores 5 formed in the porous layer 4 have a pore size of 0.1 to 15 ?m. The lithium secondary battery negative electrode material 1 realizes prolongation of the cycle life of a lithium secondary battery.

Abstract: The present invention provides an anode material for a lithium secondary battery, which material realizes prolongation of the cycle life of a lithium secondary battery. The present invention relates to an anode active material for a lithium secondary battery, the active material containing a powder produced by a step of forming an etched foil through etching of both surfaces of a foil of Al having a purity of 90 mass % or higher, and a step of shredding the etched foil, the steps being carried out in this order.

Abstract: A device 10 for drawing a tubular workpiece is provided with a drawing die 20 and a drawing plug 30. The drawing die 20 includes a first curved surface section 1C from which the workpiece 40 is detached while being reduced in diameter, a die bearing section 2B arranged radially inward of and downstream of a workpiece separation point K of the first curved surface section 1C, and a guide section 2D having a second curved surface section 2C which smoothly continues to an upstream end of the die bearing section 2B and configured to again come into contact with the workpiece 40 detached from the first curved bearing section 1C to guide the workpiece to the die bearing section 2B while reducing a diameter of the workpiece 40. The drawing plug 30 has a plug bearing section 3B shorter than a length L4 of the die bearing section 2B. The plug bearing section 3B is arranged at a position corresponding to the die bearing section 2B.

Abstract: An insulating substrate 1 includes an electrically insulative layer 2, a wiring layer 3 formed on one side of the electrically insulative layer 2 and formed of a spark plasma sintered body of an electrically conductive material powder, and a stress relaxation layer 4 formed on the other side of the electrically insulative layer 2 and formed of a spark plasma sintered body of an alloy powder or a mixed powder to be formed into a metal composite. The wiring layer 3 is formed of a spark sintered body of a powder selected from the group consisting of an Al powder, a Cu powder, an Ag powder, and an Au powder. The stress relaxation layer 4 is formed of a spark plasma sintered body of a powder selected from the group consisting of an Al—Si alloy powder, a mixed powder of a Cu powder and an Mo powder, a mixed powder of a Cu powder and a W powder, a mixed powder of an Al powder and an SiC powder, and a mixed powder of an Si powder and an SiC powder.

Abstract: The invention provides a clad member excellent in strength and brazability and a production method thereof. A clad member comprises a core material, an outer skin layer provided on one surface of the core material, and an inner skin layer provide on the other surface thereof via an intermediate layer. The core material is made of an aluminum alloy comprising Mn: 0.8 to 2 mass %, Mg: 0.2 to 1.5 mass %, and the balance being Al and impurities. The outer skin layer is made of an aluminum alloy comprising Zn: 0.01 to 4 mass %, and the balance being Al and impurities. The intermediate layer is made of an aluminum alloy comprising Mn: 0.8 to 2 mass %, Zn: 0.35 to 3 mass %, and the balance being Al and impurities. The inner skin layer is made of an Al—Si series brazing material.