Beryllium-copper alloy battery probe for new energy automobile and processing technology thereof

A new energy vehicle, beryllium-copper alloy technology, applied in metal material coating technology, secondary batteries, battery pack components, etc., can solve problems such as poor conductivity, unstable battery power supply, etc., to improve strength and guarantee The effect of power supply stability and enhanced low temperature resistance performance

Active Publication Date: 2022-01-04
江阴金湾合金材料有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Existing beryllium-copper alloy battery probes have poor conductivity at low temperatures, which can easily lead to unstable battery power supply

Method used

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  • Beryllium-copper alloy battery probe for new energy automobile and processing technology thereof
  • Beryllium-copper alloy battery probe for new energy automobile and processing technology thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] The invention provides a beryllium-copper alloy battery probe for new energy vehicles, which comprises: 0.20% beryllium, 0.08% zirconium, 1.40% nickel, 0.17% surface treatment agent, and the sum of impurities < 0.05%. , and the rest is copper; the surface treatment agent includes: 9.60% silver nitrate, 9.40% zinc nitrate, 49.40% absolute ethanol, 31.60% deionized water according to weight percentage;

[0027] A processing technology for a beryllium-copper alloy battery probe for a new energy vehicle, the specific processing steps are as follows:

[0028] Step 1: according to the above weight ratio, weigh silver nitrate, zinc nitrate, absolute ethanol, deionized water in beryllium, zirconium, nickel, copper and surface treatment agent raw materials;

[0029] Step 2: Melting the beryllium, zirconium, nickel, and copper in step 1, casting them into billets, and then making the billets into copper alloy foils;

[0030] Step 3: Blending silver nitrate, zinc nitrate, absolut...

Embodiment 2

[0036] Different from Example 1, it includes: 0.60% beryllium, 0.12% zirconium, 2.20% nickel, 0.21% surface treatment agent, the sum of impurities < 0.05%, and the rest is copper; the surface treatment The agent includes: 10.60% silver nitrate, 10.40% zinc nitrate, 50.80% absolute ethanol, 28.20% deionized water according to weight percentage.

Embodiment 3

[0038]The difference from Examples 1-2 is that it includes: 0.40% beryllium, 0.10% zirconium, 1.80% nickel, 0.19% surface treatment agent, the sum of impurities < 0.05%, and the rest is copper; The surface treatment agent includes: 10.10% silver nitrate, 9.90% zinc nitrate, 50.10% absolute ethanol, 29.90% deionized water according to weight percentage.

[0039] Take respectively the beryllium-copper alloy battery probes prepared in the above-mentioned embodiments 1-3, the beryllium-copper alloy battery probes of the control group one, the beryllium-copper alloy battery probes of the control group two, and the beryllium-copper alloy battery probes of the control group three. The beryllium-copper alloy battery probe of needle and control group four, the beryllium-copper alloy battery probe of control group one has no zirconium compared with embodiment three, and the beryllium-copper alloy battery probe of control group two has no nitric acid compared with embodiment three Silver...

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PUM

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Abstract

The invention discloses a beryllium-copper alloy battery probe for a new energy automobile and a processing technology thereof, and particularly relates to the technical field of battery probes. The beryllium-copper alloy battery probe comprises beryllium, zirconium, nickel, copper and a surface treating agent. The conductive performance of the beryllium-copper alloy battery probe can be effectively enhanced, the low-temperature performance of the probe can be effectively improved, meanwhile, it is guaranteed that the probe keeps good conductive performance at a low temperature, and then the power supply stability of an automobile battery is guaranteed. The zirconium metal is added into beryllium-copper alloy so that grains of the beryllium-copper alloy can be effectively refined, and the strength of the beryllium-copper alloy is further improved. Nano-silver particles and nano-zinc oxide particles can be formed, CVD processing treatment is carried out, graphene is formed on the surface of copper alloy foil, the nano-zinc oxide particles are reduced to form nano-zinc, nano-silver and the nano-zinc are doped into the graphene, the conductivity of the graphene can be effectively enhanced, and the graphene is embedded into the copper alloy foil. The conductive performance of the copper alloy foil can be effectively enhanced, and the low temperature resistance of the copper alloy foil can also be effectively enhanced.

Description

technical field [0001] The invention relates to the technical field of battery probes, more specifically, the invention relates to a beryllium-copper alloy battery probe for new energy vehicles and its processing technology. Background technique [0002] Beryllium copper, also known as beryllium copper, can obtain high-strength and high-conductivity products after solution aging heat treatment. High-strength cast beryllium bronze alloy, after heat treatment, not only has high strength and high hardness, but also has the advantages of wear resistance and corrosion resistance, and excellent casting performance. High-conductivity cast beryllium-copper alloy has high electrical conductivity and thermal conductivity after heat treatment, and can be widely used in many fields such as electronic appliances, communication equipment, aerospace, petrochemical, metallurgical mines, automotive appliances, and machinery manufacturing. Automotive batteries include lead-acid batteries, ni...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C9/06C22C1/02C23C16/511C23C16/26C23C16/02H01M50/50H01M10/44G01R31/385
CPCC22C9/06C22C1/02C23C16/511C23C16/26C23C16/0272H01M50/50H01M10/446G01R31/385Y02E60/10
Inventor 赵星夏金文陈勋
Owner 江阴金湾合金材料有限公司
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