CN106514039B - A kind of copper and tin titanium solder and preparation method thereof - Google Patents

A kind of copper and tin titanium solder and preparation method thereof Download PDF

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Publication number
CN106514039B
CN106514039B CN201610955635.6A CN201610955635A CN106514039B CN 106514039 B CN106514039 B CN 106514039B CN 201610955635 A CN201610955635 A CN 201610955635A CN 106514039 B CN106514039 B CN 106514039B
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solder
titanium
copper
matrix
tin
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CN106514039A (en
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王星星
彭进
韦乐余
崔大田
孙国元
王建升
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North China University of Water Resources and Electric Power
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North China University of Water Resources and Electric Power
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23KSOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
    • B23K35/00Rods, electrodes, materials, or media, for use in soldering, welding, or cutting
    • B23K35/22Rods, electrodes, materials, or media, for use in soldering, welding, or cutting characterised by the composition or nature of the material
    • B23K35/24Selection of soldering or welding materials proper
    • B23K35/30Selection of soldering or welding materials proper with the principal constituent melting at less than 1550 degrees C
    • B23K35/302Cu as the principal constituent
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23KSOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
    • B23K35/00Rods, electrodes, materials, or media, for use in soldering, welding, or cutting
    • B23K35/40Making wire or rods for soldering or welding

Abstract

A kind of copper and tin titanium solder is the transition zone of solid solution and the generation diffusion reaction formation of Titanium electroplated layer in CuSn matrix solder between matrix solder and Titanium electroplated layer including CuSn matrix solder and the Titanium electroplated layer being coated on outside CuSn matrix solder.CuSnTi foil solder provided by the invention and preparation method thereof, it is simple, convenient, the technical bottleneck that conventional method prepares solder is breached, provides a kind of new Method of Green Manufacture for the high-quality active solder of neomorph.For CuSnTi solder, improve the content of active element Ti in CuSnTi solder, it overcomes traditional CuSnTi solder and is difficult to the shortcomings that shaping and melt salt system Titanium Electroplating, this method has many advantages, such as easily to shape, is high in machining efficiency, at low cost, provides one kind new technological approaches for the manufacture production of copper and tin titanium solder.

Description

A kind of copper and tin titanium solder and preparation method thereof
Technical field
The present invention relates to brazing materials, more particularly, to the preparation method of a kind of copper and tin titanium solder and the copper and tin titanium solder.
Background technique
Copper and tin titanium solder is widely used in the soldering of graphite, diamond etc. as a kind of solder, but traditional copper and tin titanium solder Mostly exist with powder-form, it is difficult to shape, be a great problem that puzzlement is brazed worker both at home and abroad.
Titanium has many advantages, such as that specific strength height, corrosion resistance are strong as a kind of strategic light metal, is usually used in submarine, on aircraft, Play a great role in navigation, aviation field, in metal surface electrodeposition of titanium can play the role of protection it is corrosion-resistant, can be applied to as Ocean, corrosive environment of sea water are medium.
The discharge potential of Titanium is low, realizes that the deposition of titanium is more difficult, while the electroplating technology of titanium is immature also not perfect.Mesh Preceding common method is as follows: first is that electric arc ionize electro-plating method, ionize in vacuum or inert gas using Titanium be titanium from Then bombarding cathode implements plating to son;Second is that second-level titanizing method, first plates one layer of active metal (such as mainly on matrix Magnesium), it is then cleaned with titanium tetrachloride solution, Titanium is displaced by magnesium and is then plated on matrix;Third is that fuse salt Electro-plating method, using carbon oxygen titanium as anode, plating metal be cathode, fuse salt is that electrolyte implements plating.But electric arc ionization electricity Electroplating method processing step is more, and energy consumption is high, and process is complicated, and operation difficulty is big;The electrode potential of magnesium is same in second-level titanizing method Sample is lower, and plating is difficult to realize;Fuse salt electro-plating method includes that titanium is smelted and titanium two processes of plating, coating quality and stability It is poor.
Currently, the preparation method of copper and tin titanium solder mainly has two kinds of electric arc melting, vacuum melting.In electric arc melting method by It is small in arc light heated perimeter, the copper and tin titanium solder prepared every time less than 1000g, can not industrialization production, while prepared by this method Copper and tin titanium solder due to arc light irradiation area it is narrow, tissue odds, Ti element part segregation phenomenon are easy to appear, so that copper and tin titanium Solder performance deteriorates, it is difficult to normal use.And vacuum smelting method when preparing powdery copper and tin titanium solder with certain advantage, But when preparing copper and tin titanium foil band solder, since there are CuSn brittlement phases, so that solder plasticity variation is difficult to shape, while Impurity Fe, C etc. are easily entrained in course of hot rolling, so that copper and tin titanium solder mechanical properties decrease, is unable to satisfy engineering reality Performance indicator requirement.Therefore, electric arc melting and vacuum smelting method have centainly in terms of preparation copper and tin titanium foil is with solder Limitation.
Summary of the invention
It is an object of the invention to the technology bottles of deficiency and Titanium Electroplating technique for above-mentioned existing copper and tin titanium solder forming Neck provides a kind of copper and tin titanium solder haveing excellent performance, and provides easily forming, preparation method high in machining efficiency, at low cost.
The object of the present invention is achieved in the following manner:
A kind of copper and tin titanium solder, including CuSn matrix solder and the Titanium electroplated layer that is coated on outside CuSn matrix solder, It is the solid solution and Titanium electroplated layer generation diffusion reaction in CuSn matrix solder between matrix solder and Titanium electroplated layer The transition zone of formation.
Percentage thickness between the CuSn matrix solder, transition zone and titanium electroplated layer be respectively as follows: matrix solder 65.0 ~ 92.0 %, 7.5 ~ 33.5 % of transition zone, 0.5 ~ 1.5 % of metal layer.
The copper and tin titanium solder with a thickness of 15 ~ 85 μm.
The Ni element for being also 0.4-1.2 % containing mass fraction in the CuSn matrix solder.
The preparation method of copper and tin titanium solder as described above, comprising the following steps:
(1) prefabricated CuSn matrix solder;
(2) using CuSn matrix solder as cathode, simple substance titanium is anode, in CuSn matrix solder electroplating surface titanium coating;
(3) after titanium technique to be electroplated, it is permeated into 1 ~ 10 min in the vacuum environment at 1650 ~ 1700 DEG C, so After spreading 2 ~ 30 h in 1550 ~ 1650 DEG C of vacuum drying ovens afterwards, copper and tin titanium solder is made after cooling.
The step (2) specifically: using CuSn matrix solder as cathode, using simple substance titanium as anode, in every 1000mL water 0.146 ~ 0.208 moL of titanium sulfate, 0.07 ~ 0.176 moL of sodium sulphate, 0.736 ~ 1.288moL of sulfuric acid, surfactant is added 10 ~ 25 g are formulated as electroplate liquid, implement Titanium Electroplating;
0.003 ~ 0.008 moL of sodium vanadate is additionally added in every 1000mL electroplate liquid.
The surfactant is alkyl ether surfactant;Further, the alkyl ether surfactant is OP- 10, any one of ethoxylated dodecyl alcohol, polyethylene glycol trimethyl nonyl ethers, nonylphenol polyoxyethylene ether.
The Titanium Electroplating carries out under vacuum environment or inert gas shielding environment, technological parameter are as follows: current density 0.5 ~ 5 A/dm2, 35 ~ 50 DEG C of electroplating solution temperature, 2 ~ 15 min of plating time.
CuSnTi foil solder provided by the invention and preparation method thereof, it is simple, convenient, breach conventional method system The technical bottleneck of standby solder provides a kind of new Method of Green Manufacture for the high-quality active solder of neomorph.To CuSnTi For solder, the content of active element Ti in CuSnTi solder is improved, traditional CuSnTi solder is overcome and is difficult to shape and melt The shortcomings that melting salt system Titanium Electroplating, this method have many advantages, such as easily to shape, are high in machining efficiency, at low cost, are copper and tin titanium solder Manufacture production provides a kind of new technological approaches.
In addition, using binary and the above copper alloy as matrix, such as copper palladium, copper manganese, cupro-nickel manganese, using preparation method of the present invention In its electroplating surface titanium, the copper alloy or spelter solder for preparing titaniferous all fall in the scope of protection of the present invention.
Specific embodiment
Embodiment 1
A kind of copper and tin titanium solder, including CuSn matrix solder and the Titanium electroplated layer that is coated on outside CuSn matrix solder, It is the solid solution and Titanium electroplated layer generation diffusion reaction in CuSn matrix solder between matrix solder and Titanium electroplated layer The transition zone of formation;Percentage thickness between CuSn matrix solder, transition zone and titanium electroplated layer is respectively as follows: matrix solder 65.0 ~ 92.0 %, 7.5 ~ 33.5 % of transition zone, 0.5 ~ 1.5 % of metal layer;Copper and tin titanium solder with a thickness of 15 ~ 85 μm;Into One step is also matrix solder 0.4- containing quality in addition to the Cu containing 55-65%, the Sn of 34-44.5% in CuSn matrix solder 1.2% Ni, Ni, which is added, can avoid CuSn matrix solder formation CuSn frangible compounds, lay the foundation for the forming of matrix solder.
The preparation method of copper and tin titanium solder as described above, comprising the following steps:
(1) prefabricated CuSn matrix solder: raw metal Cu, Sn and micro Ni are put into smelting furnace first, cast, are moved back Fire squeezes, roll forming, is made as CuSn matrix solder in advance;
(2) using CuSn matrix solder as cathode, simple substance titanium is anode, in CuSn matrix solder electroplating surface titanium coating;
(3) after titanium technique to be electroplated, dry infiltration 1 ~ 10 in the vacuum environment at 1650 ~ 1700 DEG C by it Min, then after 1550 ~ 1650 DEG C of 2 ~ 30 h of diffusion in vacuum, to form transition zone, then furnace cooling is made with a thickness of 15 ~ 85 μm of copper and tin titanium solder;The transition zone of formation facilitates matrix solder and titanium coating forms metallurgical bonding, improves between the two Binding force, while the mechanical property of CuSnTi solder can be improved, regulates and controls combination interface tissue and object phase composition, help to enhance The active function of CuSnTi solder;If titanium electroplated layer (1660 DEG C) and (970 ~ 990 DEG C) of matrix solder are molten without transition zone It is larger to change temperature difference, copper and tin titanium alloy is difficult to shape, is easy embrittlement, does not have the effect of active solder.
Step (2) specifically: using CuSn matrix solder as cathode, using simple substance titanium as anode, to be added in every 1000mL water 0.146 ~ 0.208 moL of titanium sulfate, 0.07 ~ 0.176 moL of sodium sulphate, 0.736 ~ 1.288moL of sulfuric acid, surfactant 10 ~ 25 G is formulated as electroplate liquid, and electric current, voltage is arranged, and under vacuum environment or inert gas shielding environment, implements electrodeposition of titanium;Electricity is heavy Product titanium technological parameter are as follows: 0.5 ~ 5 A/dm of current density2, 3 ~ 6 V of voltage, 35 ~ 50 DEG C of electroplating solution temperature, plating time 2 ~ 15 min。
Preferably, 0.003 ~ 0.008 moL of dispersing agent sodium vanadate, the surface-active are additionally added in every 1000mL electroplate liquid Agent is alkyl ether surfactant, and further alkyl ether surfactant is OP-10, ethoxylated dodecyl alcohol, poly- second Any one in glycol trimethyl nonyl ethers, nonylphenol polyoxyethylene ether.
The invention has the following advantages:
1) electrodeposition of titanium-infiltration-diffusion composite preparation process provided by the invention overcomes traditional CuSnTi solder and is difficult to The deficiency of forming and conventional electroplating method provides a kind of new way for the forming of neomorph CuSnTi solder;2) in matrix solder Containing microelement Ni, avoids forming CuSn frangible compounds in CuSn matrix solder, lay the foundation for the forming of matrix solder; 3) electrodeposition of titanium method provided by not only can implement titanizing in monometallic, alloy surface, but also plate on welding material surface Titanium, the forming for neomorph metal material especially titaniferous welding material provide a kind of new approaches;4) institute during electrodeposition of titanium The bath temperature of application is low, the time is short, and deposition rate is high, has energy conservation, consumption reduction effect;5) electrodeposition of titanium-infiltration-diffusion Composite preparation process is implemented under vacuum environment (or inert gas shielding), and the CuSnTi solder cleanliness of preparation is high, does not contain Any impurity;6) current density, bath temperature, plating time, bath concentration multi-parameter Collaborative Control technology are used, regulation is passed through Titanium electroplated layer, transition zone thickness improve CuSnTi solder in active element Ti content.
Embodiment 2
A kind of CuSnTi solder contains Ni 0.8% by matrix solder BCu60Sn() and be coated on outside BCu60Sn matrix solder Titanium electroplated layer composition, transition zone be CuTi compound phase and SnTiNi compound phase composition.Matrix solder, transition zone, The percentage thickness of electroplated layer is as follows, matrix solder: 92.0 %, transition zone: 7.5 %, electroplated layer: 0.5 %.
The preparation method of copper and tin titanium solder as described above, comprising the following steps:
600 g of metallic copper, 392 g of tin, 8 g of nickel are placed in smelting furnace first, through casting, annealing, extruding, roll forming, It is made as in advance with a thickness of 80 μm of ribbon base solder BCu60Sn;Then positive and negative in BCu60Sn matrix solder using Titanium Electroplating technique Face Titanium Electroplating (15 μm of single side thickness);After technique to be electroplated, puts it into 1650 DEG C of vacuum oven and permeate 10 Min is then placed in after spreading 30 h in 1550 DEG C of vacuum drying oven, furnace cooling, and the CuSnTi solder with a thickness of 85 μm is made.
Wherein: plating titanium solution is by 50 g/L(0.208moL/L of titanium sulfate), 25 g/L(0.176moL/L of sodium sulphate), matter Amount score is 98% concentrated sulfuric acid, 70 ml/L(1.288moL/L), 25 g/L of OP-10,1000 ml of deionized water composition.Specific electricity Technology for plating titanium parameter is as follows: 1.5 A/dm of current density2, 3 V of voltage, 35 DEG C of solution temperature, 15 min of plating time, the electricity Technology for plating titanium carries out in vacuum environment.
The CuSnTi solder of above method preparation, compared with matrix solder BCu60Sn, wetting areas improves 7.5 %.
Embodiment 3
A kind of CuSnTi solder, by matrix solder BCu55Sn(1.0 % containing Ni) and it is coated on BCu55Snu matrix solder Outer Titanium electroplated layer composition, transition zone are CuTi compound phase and SnTiNi compound phase composition.Matrix solder, transition Layer, the percentage thickness of electroplated layer are as follows, matrix solder: 85.0 %, transition zone: 14.0 %, electroplated layer: 1.0 %.
The preparation method of copper and tin titanium solder as described above, comprising the following steps:
550 g of metallic copper, 440 g of tin, 10 g of nickel are placed in smelting furnace first, through casting, annealing, extruding, roll forming, It is made as in advance with a thickness of 30 μm of ribbon base solder BCu55Sn;Then positive and negative in BCu55Sn matrix solder using Titanium Electroplating technique Face Titanium Electroplating (10 μm of single side thickness);After technique to be electroplated, puts it into 1700 DEG C of vacuum oven and permeate 5 Min is then placed in after spreading 2 h in 1650 DEG C of vacuum drying oven, furnace cooling, and the CuSnTi solder with a thickness of 35 μm is made.
Wherein: plating titanium solution is by 40 g/L(0.166moL/L of titanium sulfate), 20 g/L(0.141moL/L of sodium sulphate), matter Amount score is 98% concentrated sulfuric acid, 40 ml/L(0.746moL/L), 15 g/L of ethoxylated dodecyl alcohol, 1000 ml group of deionized water At.Specific Titanium Electroplating technological parameter is as follows: 5 A/dm of current density2, 6 V of voltage, 50 DEG C of solution temperature, 4 min of plating time, The Titanium Electroplating technique carries out in helium protection environment.
The CuSnTi solder of above method preparation, compared with matrix solder BCu55Sn, wetting areas improves 9.6 %.
Embodiment 4
A kind of CuSnTi solder, by matrix solder BCu65Sn(0.5 % containing Ni) and be coated on outside BCu65Sn matrix solder Titanium electroplated layer composition, transition zone be CuTi compound phase and SnTiNi compound phase composition.Matrix solder, transition zone, The percentage thickness of electroplated layer is as follows, matrix solder: 65.0 %, transition zone: 33.5 %, electroplated layer: 1.5 %.
The preparation method of copper and tin titanium solder as described above, comprising the following steps:
650 g of metallic copper, 345 g of tin, 5 g of nickel are placed in smelting furnace first, through casting, annealing, extruding, roll forming, It is made as in advance with a thickness of 10 μm of ribbon base solder BCu65Sn;Then positive and negative in Bcu65Sn matrix solder using Titanium Electroplating technique Face Titanium Electroplating (6 μm of single side thickness);After technique to be electroplated, puts it into 1650 DEG C of vacuum oven and permeate 1 Min is then placed in after spreading 12 h in 1550 DEG C of vacuum drying oven, furnace cooling, and the CuSnTi solder with a thickness of 15 μm is made.
Wherein: plating titanium solution is by 35 g/L of titanium sulfate (0.146moL/L), 10 g/L(0.07moL/L of sodium sulphate), matter Amount score is 98% concentrated sulfuric acid, 50 ml/L(0.92moL/L), 10 g/L of polyethylene glycol trimethyl nonyl ethers, deionized water 1000 Ml composition.Specific electroplating technological parameter is as follows: 3.5 A/dm of current density2, 4.5 V of voltage, 40 DEG C of solution temperature, plating time 2 min, the Titanium Electroplating technique carry out in vacuum environment.
The CuSnTi solder of above method preparation, compared with matrix solder BCu65Sn, wetting areas improves 12.4 %.
Embodiment 5
A kind of CuSnTi solder, by matrix solder BCu55Sn(0.6 % containing Ni) and be coated on outside BCu55Sn matrix solder Titanium electroplated layer composition, transition zone be CuTi compound phase and SnTiNi compound phase composition.Matrix solder, transition zone, The percentage thickness of electroplated layer is as follows, matrix solder: 78.8 %, transition zone: 20.0 %, electroplated layer: 1.2 %.
The preparation method of copper and tin titanium solder as described above, comprising the following steps:
550 g of metallic copper, 444 g of tin, 6 g of nickel are placed in smelting furnace first, through casting, annealing, extruding, roll forming, It is made as in advance with a thickness of 25 μm of ribbon base solder BCu55Sn;Then positive and negative in BCu55Sn matrix solder using Titanium Electroplating technique Face Titanium Electroplating (10 μm of single side thickness);After technique to be electroplated, puts it into 1700 DEG C of vacuum oven and permeate 3 Min is then placed in after spreading 20 h in 1650 DEG C of vacuum drying oven, furnace cooling, and the CuSnTi solder with a thickness of 30 μm is made.
Wherein: plating titanium solution is by 45 g/L(0.188moL/L of titanium sulfate), 15 g/L(0.106moL/L of sodium sulphate), matter Amount score is 98% concentrated sulfuric acid, 55 ml/L(1.012moL/L), 20 g/L of nonylphenol polyoxyethylene ether, 1000 ml group of deionized water At.Specific Titanium Electroplating technological parameter is as follows: 3.0 A/dm of current density2, 3.5 V of voltage, 45 DEG C of solution temperature, plating time 6 Min, the Titanium Electroplating technique carry out in argon gas protection environment.
The CuSnTi solder of above method preparation, compared with matrix solder BCu55Sn, wetting areas improves 15.3 %.
Embodiment 6
A kind of CuSnTi solder, by matrix solder BCu60Sn(0.8 % containing Ni) and be coated on outside BCu60Sn matrix solder Titanium electroplated layer composition, transition zone be CuTi compound phase and SnTiNi compound phase composition.Matrix solder, transition zone, The percentage thickness of electroplated layer is as follows, matrix solder: 81.0 %, transition zone: 18.1 %, electroplated layer: 0.9 %.
The preparation method of copper and tin titanium solder as described above, comprising the following steps:
600 g of metallic copper, 392 g of tin, 8 g of nickel are placed in smelting furnace first, through casting, annealing, extruding, roll forming, It is made as in advance with a thickness of 50 μm of ribbon base solder BCu60Sn;Then positive and negative in BCu60Sn matrix solder using Titanium Electroplating technique Face Titanium Electroplating (15 μm of single side thickness);After technique to be electroplated, puts it into 1700 DEG C of vacuum oven and permeate 10 Min is then placed in after spreading 25 h in 1650 DEG C of vacuum drying oven, furnace cooling, and the CuSnTi solder with a thickness of 60 μm is made.
Wherein: plating titanium solution is by 40 g/L(0.167moL/L of titanium sulfate), 18 g/L(0.127moL/L of sodium sulphate), matter Amount score is 98% concentrated sulfuric acid, 60 ml/L(1.104moL/L), 16 g/L of polyethylene glycol trimethyl nonyl ethers, deionized water 1000 Ml composition.Specific Titanium Electroplating technological parameter is as follows: 4.0 A/dm of current density2, 4.2 V of voltage, 40 DEG C of solution temperature, when plating Between 5.5 min, which carries out in vacuum environment.
The CuSnTi solder of above method preparation, compared with matrix solder BCu60Sn, wetting areas improves 18.1 %.
Embodiment 7
A kind of CuSnTi solder, by matrix solder BCu62Sn(0.4 % containing Ni) and be coated on outside BCu62Sn matrix solder Titanium electroplated layer composition, transition zone be CuTi compound phase and SnTiNi compound phase composition.Matrix solder, transition zone, The percentage thickness of electroplated layer is as follows, matrix solder: 75.0 %, transition zone: 24.2%, electroplated layer: 0.8 %.
The preparation method of copper and tin titanium solder as described above, comprising the following steps:
620 g of metallic copper, 376 g of tin, 4 g of nickel are placed in smelting furnace first, through casting, annealing, extruding, roll forming, It is made as in advance with a thickness of 40 μm of ribbon base solder BCu62Sn;Then using Titanium Electroplating technique in BCu62Sn matrix solder front and back sides Titanium Electroplating (15 μm of single side thickness);After technique to be electroplated, puts it into 1680 DEG C of vacuum oven and permeates 4min, It is then placed in after spreading 15 h in 1600 DEG C of vacuum drying oven, furnace cooling, the CuSnTi solder with a thickness of 50 μm is made.
Wherein: plating titanium solution is by titanium sulfate 0.18moL/L, sodium sulphate 0.07moL/L, 0.003 moL/L of sodium vanadate, matter Amount score is 98% concentrated sulfuric acid 0.9moL/L, nonylphenol polyoxyethylene ether 20g/L, 1000 ml of deionized water composition.Specific plating Titanium technological parameter is as follows: 1 A/dm of current density2, 3 V of voltage, 45 DEG C of solution temperature, plating time 8min, the Titanium Electroplating technique It is carried out in argon gas protection environment.
The CuSnTi solder of above method preparation, compared with matrix solder BCu62Sn, wetting areas improves 14.6 %.
Embodiment 8
A kind of CuSnTi solder contains Ni 1.2% by matrix solder BCu55Sn() and be coated on outside BCu55Sn matrix solder Titanium electroplated layer composition, transition zone be CuTi compound phase and SnTiNi compound phase composition.Matrix solder, transition zone, The percentage thickness of electroplated layer is as follows, matrix solder: 70 %, transition zone: 29.3%, electroplated layer: 0.7%.
The preparation method of copper and tin titanium solder as described above, comprising the following steps:
550 g of metallic copper, 438 g of tin, 12 g of nickel are placed in smelting furnace first, through casting, annealing, squeezes, are rolled into Shape is made as in advance with a thickness of 50 μm of ribbon base solder BCu55Sn;Then using Titanium Electroplating technique BCu55Sn matrix solder just Reverse side Titanium Electroplating (18 μm of single side thickness);After technique to be electroplated, puts it into 1670 DEG C of vacuum oven and permeate 8min is then placed in after spreading 8h in 1600 DEG C of vacuum drying oven, furnace cooling, and the CuSnTi solder with a thickness of 70 μm is made.
Wherein: plating titanium solution is by titanium sulfate 0.16moL/L, sodium sulphate 0.12moL/L, 0.008 moL/L of sodium vanadate, matter Amount score is 98% concentrated sulfuric acid 1.0moL/L, polyethylene glycol trimethyl nonyl ethers 12g/L, 1000 ml of deionized water composition.Specifically Titanium Electroplating technological parameter is as follows: current density 2.5A/dm2, 3.5 V of voltage, 40 DEG C of solution temperature, plating time 10min, the electricity Technology for plating titanium carries out in helium protection environment.
The CuSnTi solder of above method preparation, compared with matrix solder BCu55Sn, wetting areas improves 17.2 %.
Embodiment 9
A kind of CuSnTi solder contains Ni 1% by matrix solder BCu65Sn() and be coated on outside BCu65Sn matrix solder Titanium electroplated layer composition, transition zone are CuTi compound phase and SnTiNi compound phase composition.Matrix solder, transition zone, electricity The percentage thickness of coating is as follows, matrix solder: 90 %, transition zone: 8.9%, electroplated layer: 1.1%.
The preparation method of copper and tin titanium solder as described above, comprising the following steps:
650 g of metallic copper, 440 g of tin, 10 g of nickel are placed in smelting furnace first, through casting, annealing, squeezes, are rolled into Shape is made as in advance with a thickness of 40 μm of ribbon base solder BCu65Sn;Then using Titanium Electroplating technique BCu65Sn matrix solder just Reverse side Titanium Electroplating (10 μm of single side thickness);After technique to be electroplated, puts it into 1660 DEG C of vacuum oven and permeate 5min is then placed in after spreading 10h in 1580 DEG C of vacuum drying oven, furnace cooling, and the CuSnTi solder with a thickness of 43 μm is made.
Wherein: plating titanium solution is by titanium sulfate 0.2moL/L, sodium sulphate 0.15moL/L, 0.005 moL/L of sodium vanadate, matter Amount score is 98% concentrated sulfuric acid 1.2moL/L, ethoxylated dodecyl alcohol 18g/L, 1000 ml of deionized water composition.Specific plating Titanium technological parameter is as follows: current density 3A/dm2, 3 V of voltage, 35 DEG C of solution temperature, plating time 12min, the Titanium Electroplating technique It is carried out in vacuum environment.
The CuSnTi solder of above method preparation, compared with matrix solder BCu65Sn, wetting areas improves 13.5 %.
What has been described above is only a preferred embodiment of the present invention, it is noted that for those skilled in the art, Without depart from that overall concept of the invention, several changes and improvements can also be made, these also should be considered as of the invention Protection scope.

Claims (8)

1. a kind of copper and tin titanium solder, it is characterised in that: including CuSn matrix solder and the metal being coated on outside CuSn matrix solder Titanium electroplated layer occurs for the solid solution in CuSn matrix solder with Titanium electroplated layer between matrix solder and Titanium electroplated layer The transition zone that diffusion reaction is formed, the percentage thickness point between the CuSn matrix solder, transition zone and Titanium electroplated layer Not are as follows: 65.0 ~ 92.0 % of matrix solder, 7.5 ~ 33.5 % of transition zone, 0.5 ~ 1.5 % of Titanium electroplated layer, the copper and tin titanium Solder with a thickness of 15 ~ 85 μm.
2. copper and tin titanium solder as described in claim 1, it is characterised in that: also contain mass fraction in the CuSn matrix solder For the Ni element of 0.4-1.2 %.
3. the preparation method of copper and tin titanium solder according to claim 1 or 2, it is characterised in that the following steps are included:
(1) prefabricated CuSn matrix solder;
(2) using CuSn matrix solder as cathode, simple substance titanium is anode, in CuSn matrix solder electroplating surface titanium coating;
(3) after titanium technique to be electroplated, it is permeated into 1 ~ 10 min in the vacuum environment at 1650 ~ 1700 DEG C, then in After spreading 2 ~ 30 h in 1550 ~ 1650 DEG C of vacuum drying ovens, copper and tin titanium solder is made after cooling.
4. the preparation method of copper and tin titanium solder according to claim 3, it is characterised in that: the step (2) specifically: with CuSn matrix solder is cathode, using simple substance titanium as anode, 0.146 ~ 0.208 moL of titanium sulfate, sulphur to be added in every 1000mL water Sour 0.07 ~ 0.176 moL of sodium, 0.736 ~ 1.288moL of sulfuric acid, 10 ~ 25 g of surfactant are formulated as electroplate liquid, implement plating Titanium.
5. the preparation method of copper and tin titanium solder according to claim 4, it is characterised in that: in electroplate liquid described in every 1000mL It is additionally added 0.003 ~ 0.008 moL of sodium vanadate.
6. the preparation method of copper and tin titanium solder according to claim 4, it is characterised in that: the surfactant is alkyl Ether surfactant.
7. the preparation method of copper and tin titanium solder according to claim 6, it is characterised in that: the alkyl ether surface-active Agent is any one of OP-10, ethoxylated dodecyl alcohol, polyethylene glycol trimethyl nonyl ethers, nonylphenol polyoxyethylene ether.
8. the preparation method of copper and tin titanium solder according to claim 4, it is characterised in that: the Titanium Electroplating is in vacuum environment Or carried out under inert gas shielding environment, technological parameter are as follows: 0.5 ~ 5 A/dm of current density2, 35 ~ 50 DEG C of electroplating solution temperature, 2 ~ 15 min of plating time.
CN201610955635.6A 2016-11-03 2016-11-03 A kind of copper and tin titanium solder and preparation method thereof Active CN106514039B (en)

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JPS57209773A (en) * 1981-06-18 1982-12-23 Nippon Mining Co Ltd Method for soldering copper or copper alloy fins to titanium tubes for finned heat exchanger
CN101987402A (en) * 2010-11-30 2011-03-23 哈尔滨工业大学 Cu-Sn-Ti solder and method for brazing Ti2AlC ceramics and Cu with same
CN103320822A (en) * 2013-06-27 2013-09-25 中国铝业股份有限公司 Method for electroplating titanium on surface of metal
CN105216120A (en) * 2015-09-22 2016-01-06 河南科技大学 A kind of diamond cutter and preparation method thereof, diamond compound tool
CN105345304A (en) * 2015-12-02 2016-02-24 华北水利水电大学 Supersaturated brazing filler metal and preparation method thereof
CN105862096A (en) * 2016-06-02 2016-08-17 烟台工程职业技术学院 Method for preparing FHA bioactive coating through electrical brush-plating-sintering method

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JPS57209773A (en) * 1981-06-18 1982-12-23 Nippon Mining Co Ltd Method for soldering copper or copper alloy fins to titanium tubes for finned heat exchanger
CN101987402A (en) * 2010-11-30 2011-03-23 哈尔滨工业大学 Cu-Sn-Ti solder and method for brazing Ti2AlC ceramics and Cu with same
CN103320822A (en) * 2013-06-27 2013-09-25 中国铝业股份有限公司 Method for electroplating titanium on surface of metal
CN105216120A (en) * 2015-09-22 2016-01-06 河南科技大学 A kind of diamond cutter and preparation method thereof, diamond compound tool
CN105345304A (en) * 2015-12-02 2016-02-24 华北水利水电大学 Supersaturated brazing filler metal and preparation method thereof
CN105862096A (en) * 2016-06-02 2016-08-17 烟台工程职业技术学院 Method for preparing FHA bioactive coating through electrical brush-plating-sintering method

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