CN103137978A - Multielement grid - Google Patents

Abstract

The invention relates to a multielement grid, which comprises the following components of lead, stannum, aluminium, and rare earth metal, wherein the weight percents are 0.15-10% of stannum (Sn), 0.02-3% of aluminium (Al), 0.01-5.0% of rare earth metal (La), and the balance of lead. The rare earth multielement alloy technology adopted by the invention overcomes the problems of gassing and environment non-friendliness of lead antimony, lead cadmium alloy, and easy generation of high resistance corrosion layers of lead calcium alloy; with reasonable material ratios, the grid produced in the invention has excellent application performance.

Description

A kind of polynary grid

Technical field

The present invention relates to a kind of polynary grid, belong to the battery technology field.

Background technology

Battery grid is as supporting member important in battery, and on it, with active matter and play the effect of conduction, the quality of its performance has important impact for discharging and recharging of battery; Commonly used to materials such as plumbous antimony, plumbous cadmium, lead-calcium alloys in existing grid, wherein plumbous antimony, lead and cadmium alloy gassing and not environmental protection, lead-calcium alloy easily produces the problems such as high resistance corrosion layer, for performance and the environment of battery itself, adverse influence is arranged all, need improve.

Summary of the invention

The present invention is directed to defects, purpose is to provide a kind of polynary grid that has environmental protection and have good serviceability.

The technical solution used in the present invention is for this reason: its component of the present invention comprise lead, tin, aluminium and, rare earth metal forms, the proportioning of percentage by weight is: tin (Sn) 0.15-10%, aluminium (Al) 0.02-3%, rare earth metal (La) 0.01-5.0%, surplus is plumbous.

Advantage of the present invention is: the rare earth multicomponent alloy technology that the present invention uses has overcome plumbous antimony, lead and cadmium alloy gassing and not environmental protection, and lead-calcium alloy easily produces the problems such as high resistance corrosion layer; By rational material mixture ratio, make the grid that the present invention produces have excellent serviceability simultaneously.

Embodiment

Embodiment 1:

Its component of the present invention comprise lead, tin, aluminium and, rare earth metal forms, the proportioning of percentage by weight is: tin (Sn) 0.15%, aluminium (Al) 2%, rare earth metal (La) 1%, surplus be lead.

Embodiment 2:

Its component of the present invention comprise lead, tin, aluminium and, rare earth metal forms, the proportioning of percentage by weight is: tin (Sn) 3%, aluminium (Al) 0.05%, rare earth metal (La) 3%, surplus be lead.

Embodiment 3:

Its component of the present invention comprise lead, tin, aluminium and, rare earth metal forms, the proportioning of percentage by weight is: tin (Sn) 5%, aluminium (Al) 1%, rare earth metal (La) 4%, surplus be lead.

Embodiment 4:

Its component of the present invention comprise lead, tin, aluminium and, rare earth metal forms, the proportioning of percentage by weight is: tin (Sn) 8%, aluminium (Al) 3%, rare earth metal (La) 0.01%, surplus be lead.

Claims (1)

1. a polynary grid, is characterized in that, its component comprise lead, tin, aluminium and, rare earth metal forms, the proportioning of percentage by weight is: tin (Sn) 0.15-10%, aluminium (Al) 0.02-3%, rare earth metal (La) 0.01-5.0%, surplus be lead.