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ZnSn-base high-temperature lead-free soft solder and preparation method thereof

A soft solder, high temperature technology, applied in the field of ZnSn-based high-temperature lead-free solder and its preparation, can solve the problems of high cost of solder, poor mechanical properties of lead-based solder, corrosion, etc. The effect of improving brazing process performance and improving mechanical properties of alloy

Inactive Publication Date: 2015-05-13
HENAN UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] At present, high-temperature solders mainly use traditional lead-based solders and gold-based solders, but lead-based solders have poor mechanical properties and cannot meet the use requirements in places with high connection strength requirements.
Gold-based solders such as Au-20Sn, Au-30Si and Au-26Ge are easy to form brittle AuSn 4 Intermetallic compounds seriously affect the reliability of its service, and the cost of solder is extremely high, so it is imperative to research and develop low-cost and high-strength lead-free high-temperature solder products
European patent EP1705258 proposes a kind of Bi-Ag-X alloy solder to replace high Pb solder at present, and its composition is as follows: the weight percent content of Ag is 2-18%, and the weight percentage content of Bi is 98~82% , and the trace elements Au, Cu, Sb, Zn, Sn, Ni and Ge with a weight percentage content of 0.1-5.0%. The disadvantages of this Bi-Ag-X alloy solder are high brittleness and poor processability
Chinese patent CN1221216 proposes a kind of Sn-Sb solder containing Sb5-15%, but when Sb content is low such as less than 10% in this solder, the melting point of Sn-Sb binary alloy solder is relatively low, high temperature Poor reliability, and Cu or Ni base pads have corrosion problems
Chinese patent CN1954958 also proposes a kind of SnSbCu solder, is made up of 8-20% Sb, 3-7% Cu and 5% Sn, and this SnSbCu solder alloy has poor oxidation resistance, and will be damaged during high-temperature welding process. generate a lot of dross

Method used

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Examples

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Effect test

Embodiment 1

[0012] The ZnSn-based high-temperature lead-free solder provided by this embodiment is composed of the following components in weight percentage: 30% tin, 5% copper, 0.3% lanthanum-neodymium mixed rare earth, 1.6% magnesium, 0.1% bismuth , the balance of zinc.

[0013] The preparation method of the ZnSn-based high-temperature lead-free solder provided in this embodiment is as follows: weigh 31.5g zinc, 15g tin, 2.5g copper, 0.8g magnesium, 0.05g bismuth and 0.15g lanthanum neodymium mixed rare earth with an electronic balance, and then Put the weighed raw materials together into the crucible, wherein the mixed rare earth lanthanum and neodymium is placed at the bottom of the crucible, and then cover the raw materials with a protective agent composed of LiCl and KCl, the weight ratio of LiCl and KCl is 1:1, Then put the crucible into a non-vacuum induction furnace for smelting, under normal pressure, heat preservation and smelting at a temperature of 850-900°C for 2 hours, stir...

Embodiment 2

[0015] The ZnSn-based high-temperature lead-free solder provided by this embodiment is composed of the following components in percentage by weight: 20% tin, 4% copper, 0.5% lanthanum-neodymium mixed rare earth, 1.2% bismuth, and the rest of zinc .

[0016] The preparation method of the ZnSn-based high-temperature lead-free solder provided in this example is: weigh 37.2g zinc, 10g tin, 2g copper, 0.6g bismuth, and 0.25g lanthanum-neodymium mixed rare earth with an electronic balance, and then weigh each The raw materials are put into the crucible together, and the mixed rare earth of lanthanum and neodymium is placed at the bottom of the crucible, and then the protective agent composed of LiCl and KCl is covered on the raw material. The weight ratio of LiCl and KCl is 1:1, and then the crucible is put into Smelted in a non-vacuum induction furnace, kept at 850-900°C for 1 hour under normal pressure, stirred every 30 minutes during the smelting process, and then casted to obtai...

Embodiment 3

[0018] The ZnSn-based high-temperature lead-free solder provided in this embodiment is composed of the following components in weight percentage: 30.3% tin, 3% copper, 0.1% lanthanum-neodymium mixed rare earth, 3% magnesium, and the rest zinc .

[0019] The preparation method of the ZnSn-based high-temperature lead-free solder provided in this embodiment is: weigh 31.5g zinc, 15g tin, 1.5g copper, 1.5g magnesium and 0.05g lanthanum-neodymium mixed rare earth with an electronic balance, and then weigh the All the raw materials are put into the crucible together, and the mixed rare earth lanthanum and neodymium are placed at the bottom of the crucible, and then the protective agent composed of LiCl and KCl is covered on the raw materials. The weight ratio of LiCl and KCl is 1:1, and then the crucible is placed Put it into a non-vacuum induction furnace for smelting, under normal pressure, heat preservation and smelting at a temperature of 850-900°C for 2 hours, stir once every 2...

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Abstract

The invention belongs to the technical field of braze soldering flux for electronic packaging and assembly, and discloses a ZnSn-base high-temperature lead-free soft solder and a preparation method thereof. The ZnSn-base high-temperature lead-free soft solder consists of the following components in percentage by weight: 15 to 40 percent of tin, 0.5 to 8 percent of copper, 0.1 to 1 percent of lanthanum and neodymium mixed rare earth, 0.1 to 3 percent of magnesium and / or 0.1 to 2 percent of bismuth and the balance of zinc. The ZnSn-base high-temperature lead-free soft solder has the advantages of no toxicity and no pollution, is high in wetting spreadability and high in tensile strength and mechanical property, and can meet the using requirement of brazing and replace high-lead solders which are applied widely at present or Au-base solders with high price to meet the requirements of the fields of electronic packaging and assembly; and a melting point is between 250 and 450 DEG C.

Description

technical field [0001] The invention relates to the technical field of brazing solder for electronic packaging and assembly, in particular to a ZnSn-based high-temperature lead-free solder and a preparation method thereof. Background technique [0002] SnPb solder has the advantages of relatively low melting point, low price, beautiful shape and rich raw materials. It is the most widely used in electronic packaging and assembly. However, Pb is poisonous. Countries around the world have legislated to restrict the use of Pb-containing solder. On February 13, 2003, the European Union officially passed the ROSH Directive and the Waste Electrical and Electronic Equipment (WEEE), which clearly stipulated that the use of lead in the electronics industry should be gradually restricted, and lead-containing solders should be banned from January 1, 2006. The Ministry of Trade of Japan will completely exclude six harmful substances including lead from electronic equipment from July 1, 2...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B23K35/28C22C18/00C22C1/02
Inventor 闫焉服赵快乐许媛媛陈新芳朱锦洪闫红星陈晨
Owner HENAN UNIV OF SCI & TECH
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