TH64890A - Lead-based alloys For lead-acid batteries Substrate for lead-acid batteries And lead-acid batteries - Google Patents

Abstract

DC60 (10/07/46) that was prepared is Lead-based alloys Which consisted of not less than 0.02% and not less than 0.05% by weight of calcium not less than 0.4% and not more than 2.5% by weight of tin not less than 0.005% and not more than 0.04% by weight of aluminum not less than 0.002%. And not more than 0.014% by weight of barium And balanced with lead And contaminants that cannot Avoidable That was prepared Lead-based alloys Which consisted of not less than 0.02% and not less than 0.05% by weight of calcium not less than 0.4% and not more than 2.5% by weight of tin not less than 0.005% and not more than 0.04% by weight of aluminum not less than 0.002%. And not more than 0.014% by weight of barium And balanced with lead And contaminants that cannot Avoidable

Claims (6)

1.Leaded alloy is the basis for lead-acid batteries. Which consisted of not less than 0.02% and less than 0.05% by weight of calcium not less than 0.4% and not more than 2.5% by weight of tin not less than 0.005% and not more than 0.04% by weight of aluminum not less than 0.002% and Not more than 0.014% by weight of barium And balanced with lead And send the contaminated that is not The lead-based alloy can be avoided for lead-acid batteries in accordance with claim 1, which consists of at least one additional element selected from the silver group. In the amount that fell in the range of between 0.005% by wt and 0.07% by bismuth approximately. This falls within the range of between 0.01% and 0.10% by weight and the volume of thallium falls between 0.001% by weight and 0.05% by weight. 3. Grating for an alloyed lead-acid battery. Lead is fundamental Which consist of not less than 0.02% and less than 0.05% by weight of calcium not less than 0.4% and not more than 2.5% by weight of tin not less than 0.005% and not more than 0.04% by weight of aluminum and not less than 0.002%. And not more than 0.014% by weight of barium and balanced with lead and impurities that cannot be avoided. 4. Grid for lead-acid batteries. In accordance with claim 3, where lead-based alloys This consists of at least one additional element selected from the group containing silver in quantities, which falls within the range between 0.005% by weight and 0.07% by weight. Bismuth in quantities, which falls within the range of 0.01% by weight. And 0.10% by weight and Tallium in quantities which fall in the range of between 0.001% by weight and 0.05% by weight. 5. Sieve for lead-acid batteries. In accordance with claim 3, lead-based alloys Was produced by casting Or working with pressure 6. Grid for lead - acid batteries. In accordance with claim 3 or 4, where lead-based alloys Tin is at least 12 times the weight of calcium and after casting into the shape of the sieve. Heat therapy is used with Lead-based alloys at 80 to 150 ํ C for 1 to 10 hours. 7. Grid for lead-acid batteries. In accordance with claim 6, where the heat treatment is applied within 1000 hours after casting to the shape of the grate. 8. Grating for lead-acid batteries. In accordance with claim 3, where the sieve has a surface thickness of not less than 15 m m 9. Sieve for lead-acid batteries. In accordance with claim 3, where the sieve is shaped like a lattice. And the effective diameter of the mesh of the lattice Which represents the value obtained by dividing 4 times the area of the polygon by the length of the perimeter of the polygon. Polygon It is at least twice the thickness of the sieve 1 0. Sieve for lead-acid batteries In accordance with claim 9, where the effective diameter of the lattice mesh falls between 2 times and 10 times the thickness of the sieve 1. 1.Lead-acid battery Which consists of a positive electrode including a sieve Which was made with Lead-based alloys Which consisted of not less than 0.02% and less than 0.05% by weight of calcium not less than 0.4% and not more than 2.5% by weight of tin not less than 0.005% and not more than 0.04% by weight of aluminum not less than 0.002% and Not greater than 0.014% by barium weight and balanced with lead and unavoidable contaminants 1 2. Sieve for lead-acid batteries In accordance with claim 11, where lead-based alloys Per annum, at least one additional element selected from the group containing silver in quantities, which falls within the range between 0.005% by wt and 0.07% by wt. Bismuth in quantities, which falls within the range of 0.01% by Weight and 0.10% by weight and Thallium in quantities which falls in the range of between 0.001% by weight and 0.05% by weight 1. 3.Grating for lead-acid batteries In accordance with claim 11, where lead-based alloys Tin is at least 12 times the weight of calcium and after casting into the shape of the sieve. Heat therapy is used with Lead based alloys at 80 to 150 ํ C for 1 to 10 hours. 4. Sieve for lead-acid batteries In accordance with claim 11, where the sieve has a surface roughness of not less than 15 m 1. 5. Sieve for lead-acid batteries In accordance with claim 11, where the sieve is shaped like a lattice. And the effective diameter of the mesh of the lattice Which represents the value obtained by dividing 4 times the area of the polygon by the length of the perimeter of the polygon. Polygon Be at least twice the thickness of the sieve 1 6.Sieve for lead-acid batteries In accordance with claim 15, where the effective diameter of the lattice mesh falls between 2 times and 10 times the thickness of the sieve.