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Copper alloy material for wear-resistant and corrosion-resistant sensor and manufacturing method thereof

A copper alloy and sensor technology, applied in the field of metal materials, can solve the problems of poor electrical conductivity, unsuitable sensor components, unsuitable sensors, etc., and achieve the effects of increasing the environmental range, improving fracture performance, and high hardness

Inactive Publication Date: 2016-04-27
SUZHOU HIGH NEW ZHENHU HARDWARE FACTORY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the electrical conductivity of this copper alloy material is not good, so it is not suitable for making sensor components, especially for making sensors in the meteorological field.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0034] The percentages by weight of bismuth, silicon, manganese, nickel, iron, germanium, zinc, lithium, boron and selenium in the copper alloy material are respectively:

[0035] Bismuth: 0.75%, Silicon: 1.37%, Manganese: 1.95%, Nickel: 1.90%, Iron: 0.3%, Germanium: 0.01%, Zinc: 25%, Lithium: 1.5%, Boron: 0.5%, Selenium: 0.1%.

[0036] The method for manufacturing the copper alloy material for the wear-resistant and corrosion-resistant sensor of the above-mentioned components comprises the following steps:

[0037] (1) Weighing raw materials: according to the percentage by weight, they are: bismuth: 0.75%, silicon: 1.37%, manganese: 1.95%, nickel: 1.90%, iron: 0.3%, germanium: 0.01%, zinc: 25%, lithium : 1.5%, boron: 0.5%, selenium: 0.1% Weigh raw materials, the balance is copper and unavoidable impurities;

[0038](2) Molten bismuth, silicon, manganese, nickel, iron, germanium, lithium, boron and selenium: put bismuth, silicon, manganese, nickel, iron, germanium, lithium, b...

Embodiment 2

[0045] The percentages by weight of bismuth, silicon, manganese, nickel, iron, germanium, zinc, lithium, boron and selenium in the copper alloy material are respectively:

[0046] Bismuth: 0.80%, Silicon: 1.57%, Manganese: 2.30%, Nickel: 2.20%, Iron: 0.5%, Germanium: 0.02%, Zinc: 30%, Lithium: 2.5%, Boron: 1.5%, Selenium: 0.5%.

[0047] The method for manufacturing the copper alloy material for the wear-resistant and corrosion-resistant sensor of the above-mentioned components comprises the following steps:

[0048] (1) Weighing raw materials: according to the percentage by weight, they are: bismuth: 0.80%, silicon: 1.57%, manganese: 2.30%, nickel: 2.20%, iron: 0.5%, germanium: 0.02%, zinc: 30%, lithium : 2.5%, boron: 1.5%, selenium: 0.5% Weigh raw materials, the balance is copper and unavoidable impurities;

[0049] (2) Molten bismuth, silicon, manganese, nickel, iron, germanium, lithium, boron and selenium: put bismuth, silicon, manganese, nickel, iron, germanium, lithium, ...

Embodiment 3

[0056] The weight percentages of described bismuth, silicon, manganese, nickel, iron, germanium, zinc, lithium, boron and selenium in the copper alloy material are respectively:

[0057] Bismuth: 0.76%, Silicon: 1.4%, Manganese: 2.05%, Nickel: 1.95%, Iron: 0.35%, Germanium: 0.013%, Zinc: 26.5%, Lithium: 1.75%, Boron: 0.75%, Selenium: 0.2%.

[0058] The method for manufacturing the copper alloy material for the wear-resistant and corrosion-resistant sensor of the above-mentioned components comprises the following steps:

[0059] (1) Weighing raw materials: according to the percentage by weight, they are: bismuth: 0.76%, silicon: 1.4%, manganese: 2.05%, nickel: 1.95%, iron: 0.35%, germanium: 0.013%, zinc: 26.5%, lithium : 1.75%, boron: 0.75%, selenium: 0.2% Weigh raw materials, the balance is copper and unavoidable impurities;

[0060] (2) Molten bismuth, silicon, manganese, nickel, iron, germanium, lithium, boron and selenium: put bismuth, silicon, manganese, nickel, iron, ger...

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Abstract

The invention relates to a wear-resistant and corrosion-resistant copper alloy material for a sensor and a preparation method of the copper alloy material. The copper alloy material comprises copper as a main component as well as bismuth, silicon, manganese, nickel, iron, germanium, zinc, lithium, boron and selenium. The preparation method comprises the following steps: (1) weighing raw materials; (2) melting bismuth, silicon, manganese, nickel, iron, germanium, lithium, boron and selenium; (3) melting zinc; (4) melting copper; (5 ) mixing molten zinc and molten copper; (6) pouring a mixed molten liquid obtained in the step (2) into molten copper obtained in the step (5) to obtain molten copper alloy; (7) cooling the molten copper alloy obtained in the step (6) to obtain the copper alloy material. The copper alloy material prepared according to copper alloy components and the preparation method disclosed by the invention, has the advantages of good tensile strength, high hardness, good fracture resistance, wear resistance and the like and is durable.

Description

technical field [0001] The invention relates to a copper alloy material for a wear-resistant and corrosion-resistant sensor and a manufacturing method thereof, belonging to the field of metal materials. Background technique [0002] Copper alloys are widely used in automotive parts, home appliance parts, electrical, electronic, optical parts, piping components, plumbing metal parts, and various valves. In addition, due to global warming in recent years, there has been a strong demand for products or components to be smaller, lighter, and thinner. In copper alloys, which have a higher specific gravity than iron, it is necessary to increase the strength to meet these requirements. [0003] Especially in the field of meteorological machinery and meteorological optical instruments, there is a high requirement for the weight of the instrument, as well as a high requirement for the precision of the instrument, so it is necessary to use high-strength and light alloy materials. Many...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C22C9/04
CPCC22C9/04
Inventor 禹胜林
Owner SUZHOU HIGH NEW ZHENHU HARDWARE FACTORY
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