CN1734810A - Preparation method for nickel positive electrode sheet of alkaline storage battery - Google Patents

Preparation method for nickel positive electrode sheet of alkaline storage battery Download PDF

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Publication number
CN1734810A
CN1734810A CNA2004100509906A CN200410050990A CN1734810A CN 1734810 A CN1734810 A CN 1734810A CN A2004100509906 A CNA2004100509906 A CN A2004100509906A CN 200410050990 A CN200410050990 A CN 200410050990A CN 1734810 A CN1734810 A CN 1734810A
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nickel
preparation
battery
temperature
substrate
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CN100389514C (en
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李维
耿伟贤
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BYD Co Ltd
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BYD Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
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    • Y02E60/10Energy storage using batteries

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Abstract

The preparation method for nickel positive plate of alkaline storage battery comprises steps as follows: filling active material of paste of nickel hydroxide and conduction agent in metal foamed nickel base plate, baking, and pressing to form; wherein, after first pressing, heating the metal foamed nickel plate with paste at temperature of 70~150Deg, then pressing and forming for 2~3times; the pressing for paste uses roller press or plane press. This invention can improve afflux property and capacity property, decreases internal resistance and has well deformation ability.

Description

The preparation method of alkaline battery nickel positive plate
Technical field
The present invention relates to the production method of storage battery, particularly relate to a kind of preparation method of alkaline battery nickel positive plate.
Background technology
In recent years, along with portable small-sized equipment and instrument,, also increasing as the market demand of the small-sized secondary batteries of its power supply as the extensive use of mobile phone, palmtop PC etc.Supply falls short of demand on market especially for advantages such as in secondary cell, positive pole uses nickel hydroxide, and the storage battery of kinds such as the NI-G of electrolyte employing alkaline electrolyte, ni-mh is low because of cost, energy density is big.Wherein, but to adopt the hydrogen-storage alloy of electrochemical hydrogenation and dehydrogenation to make the nickel metal hydride alkaline battery Capacity Ratio cadmium-nickel storage cell of negative electrode active material higher.
According to the difference of production method, the nickel positive pole of alkaline battery generally can be divided into two kinds of sintered type and thickener formulas, and wherein, anodal because simple for production, the active material packing density height of thickener formula nickel is widely adopted.In order to obtain the thickener formula nickel positive pole of high capacity density, generally adopt spherical nickel hydroxide as active material, and add binding agent and deionized water and be modulated into pastel and be fills up to foamed metal substrate, drying, compacting form then.In order to guarantee to electrically contact fully between spherical nickel hydroxide and collector substrate and the nickel hydroxide particle, generally when modulation nickel positive pole thickener, need add cobalt compounds such as metallic cobalt, cobalt black, cobalt hydroxide, to improve the utilance of nickel hydroxide as conductive agent.Metallic cobalt and cobalt compound can dissolve in alkaline electrolyte, and with alkaline electrolyte in OH -Reaction forms aqueous cobalt complex ion HCoO 2 -, and in alkaline electrolyte, spread.The hydroxy cobalt oxide (CoOOH) that at first is oxidized to conductivity during battery charge forms the cobalt conductive network, thereby has improved nickel hydroxide active material utilance separating out between the spherical nickel hydroxide particle and between nickel hydroxide and foaming nickel.
The used foamed metal substrate of thickener formula nickel positive plate is a metal foaming nickel mostly, and it is made by electrocasting method.Though the metal foaming nickel of electroforming has passed through annealing heat treatment, its physical and mechanical properties is still relatively poor, and the nickel wire that in addition constitutes the foaming nickel skeleton is very thin, thereby is easier to take place embrittlement.And the nickel positive plate is that filling active material nickel hydroxide is the pastel that is mixed with of main body and oven dry in foaming nickel, also must could finally make through pressing process.Therefore, the nickel wire that constitutes the foaming nickel skeleton can rupture in pressing process, even perhaps do not rupture, electrode roll around the time also can rupture, can cause metal foaming Ni substrate afflux decreased performance so on the one hand, the internal resistance of cell rises, and discharge capacity descends, Duan Lie foaming nickel wire can puncture barrier film as burr simultaneously, causes battery short circuit or partial short-circuit.
Summary of the invention
The present invention is intended to address the above problem, and provide a kind of energy to improve the afflux performance and the volumetric properties of foaming Ni substrate, reduce the internal resistance of cell, make the nickel wire that constitutes the foaming nickel skeleton when press forming, be difficult for rupturing, have the preparation method of the alkaline battery nickel positive plate of deformability preferably.
For achieving the above object, the invention provides a kind of preparation method of alkaline battery nickel positive plate, its step comprises: filling is dried after adding the pastel that conductive agent is mixed with by the active material nickel hydroxide in the metal foaming ni substrate, and press forming, it is characterized in that, the metal foaming ni substrate that is filled with described pastel heats under 70~150 ℃ temperature after the compacting of first road, is pressed then.
The metal foaming ni substrate that is filled with described pastel heats under 70~150 ℃ of temperature after the compacting of first road, and then through 2~3 passage compression mouldings, the preferred temperature of its compression moulding is 100~120 ℃.If temperature is lower than 70 ℃, then constitute the metal foaming nickel skeleton nickel wire fragility still bigger, in pressing process, still easily rupture; If temperature is higher than 150 ℃, then, form the Co of inertia because oxidation more easily takes place the conductive agents such as metal cobalt powder, cobalt black and cobalt dioxide that add 3O 4, can cause the effectively minimizing of cobalt amount in the positive pole, be difficult for forming the cobalt conductive network, finally also can descend by the guiding discharge volumetric properties.
Roll-in or plane compacting are adopted in compression moulding, and pressing process can be through 2~3 passage compression mouldings under 70~150 ℃ of temperature.During the compacting of first passage, less as reduction ratio, then need not to keep 70~150 ℃ temperature.Drafts is bigger during second and third passage compacting, reaches pole piece thickness substantially, then must keep 70~150 ℃ temperature, just can reach above-mentioned effect.
Contribution of the present invention is that it has effectively overcome problems of the prior art.The nickel wire of the formation foaming nickel skeleton in the nickel positive plate that method of the present invention is made is difficult for rupturing when press forming, has deformability preferably, thereby can improve the afflux performance of foaming Ni substrate, reduces the internal resistance of cell, improves volumetric properties.The crack conditions of foaming nickel wire in positive pole when the present invention also can improve the electrode group coiling reduces the burr that breaks to form because of the foaming nickel wire and punctures the situation that barrier film causes battery short circuit or partial short-circuit.
Description of drawings
The graph of a relation of temperature when Fig. 1 is battery cyclical stability and anodal roll-in.
The graph of a relation of temperature when Fig. 2 is anode weight ratio capacity and anodal roll-in.
Embodiment
Below be example with the alkaline storage battery used nickel positive plate of the airtight nickel metal hydride secondary of AA type cylinder, the present invention is described in detail in detail.
Embodiment 1
Alkaline storage battery used nickel positive plate prepares as follows: the spherical nickel hydroxide (Zn of the Co and 3 (weight %) of solid solution 1.5 (weight %)) that is averaged particle diameter 15 μ m) 95 parts (weight), 5 parts of the cobalt blacks (weight) that add average grain diameter number micron, and add deionized water, 2% (weight) CMC solution and 60% (weight) PTFE dispersion liquid an amount of, making pastel through stirring, to be filled to vesicularity be in 95% the foaming nickel porous body.After the pastel drying of above-mentioned filling, roll-in to the thickness of 1.10mm, in the baking oven of packing into, is heated under 70 ℃ of temperature together, and be half an hour heating time.After the heating, above-mentioned filling second and third road of foaming nickel roll-in immediately of pastel, make it the positive plate thickness that reaches predetermined, then through cut, finishing, make the positive plate of AA type 2100mAh.
Adopt MmNi 5The class hydrogen-storage alloy powder is made negative plate, the anodal combine volume coiled electrode group of polypropylene diaphragm and method for preparing is inserted in the AA shaped steel shell, inject proportion and be about 1.30 be to seal behind the alkaline electrolyte of principal component with potassium hydroxide, be made into capacity specifications and be 2100mAh from type cylindrical enclosure nickel metal hydride secondary alkaline battery, battery A promptly of the present invention.
Embodiment 2
In heating steps, heating-up temperature is 100 ℃ in the baking oven, and all the other steps are made battery B of the present invention thus with embodiment 1.
Embodiment 3
In heating steps, heating-up temperature is 120 ℃ in the baking oven, and all the other steps are made battery C of the present invention thus with embodiment 1.
Embodiment 4
In heating steps, heating-up temperature is 150 ℃ in the baking oven, and all the other steps are made battery D of the present invention thus with embodiment 1.
Comparative example 1
No heating steps promptly carries out second and third road roll-in under 25 ℃, all the other steps are made comparison battery X with embodiment 1.
Comparative example 2
In heating steps, heating-up temperature is 170 ℃ in the baking oven, and all the other steps are made comparative example battery Y thus with embodiment 1.
Comparative example 3
In heating steps, heating-up temperature is 200 ℃ in the baking oven, and all the other steps are made comparative example battery Z thus with embodiment 1.
Battery X, the Y that battery A, the B that above-mentioned three embodiment make, C and three comparative examples are made, Z are after placing, just discharging and recharging activation, with 0.1C (210mA) charging 15 hours, 0.3C (630mA) be discharged to 1.0V, measure discharge capacity, and calculating the weight ratio capacity of nickel positive pole according to whole being quality (comprising nickel hydroxide, cobalt black etc.) of institute's filling in the nickel positive pole, weight ratio capacity is the active material weight of the anodal filling of discharge capacity of the cell/nickel.
In addition, battery X, the Y that battery A, the B that above-mentioned three embodiment make, C and three comparative examples are made, Z adopt 1C (2100mA) charging 80 minutes, simultaneously attached charging control with-Δ V=10mV, stopped after the charging 15 minutes, 1C is discharged to 1.0V to be ended, and stops 15 minutes, charge and discharge cycles 50 times, measure its cyclical stability, cyclical stability is the 50th circulation volume/battery capacity * 100%, and each corresponding data of battery sees Table 1.
Table 1
Classification Anodal temperature during roll-in two, three roads Weight ratio capacity (mAh/g) Cyclical stability (%)
Battery X 25℃ 245.50 90.22
Battery A 70℃ 248.42 91.45
Battery B 100℃ 248.50 91.90
Battery C 120℃ 248.71 92.56
Battery D 150℃ 248.33 92.93
Battery Y 170℃ 243.41 93.80
Battery Z 200℃ 237.00 95.34
By table 1 data as can be known, keep the raising of temperature during along with roll-in two, three roads, the cyclical stability of battery improves gradually, the relation of temperature when Fig. 1 shows battery cyclical stability and anodal roll-in.Weight ratio capacity then raise before this and then descended, and the relation of temperature as shown in Figure 2 when anode weight ratio capacity and anodal roll-in.Its reason is that the nickel wire of the formation foaming nickel skeleton in the nickel positive pole is when keeping higher temperature to carry out roll-in, have higher deformability, the difficult fracture, thereby can improve the foaming Ni substrate the afflux performance, reduce the internal resistance of cell, finally improve volumetric properties and cyclical stability.But along with the raising that keeps temperature, though the deformability of nickel wire further improves, its stability also further improves, but the cobaltosic oxide that oxidation forms inertia easily takes place in cobalt black conductive auxiliary agent contained in the positive pole when higher temperature, the corresponding cobalt black amount that reduced, the cobalt conductive network that causes cell activation to form is imperfect, thereby keeps the decline that higher temperature can the guiding discharge capacity during roll-in.Therefore as can be known, when second and third road of roll-in keeps 70~150 ℃, both had preferable weight ratio capacity, had preferable cyclical stability again according to table 1 data.
Obviously, the foregoing description is just to explanation of the present invention, rather than limitation of the present invention.Though the present invention is that example is illustrated in the roll-in mode just for the making of nickel positive plate in an embodiment, the present invention also is same being suitable for for the plane pressing mode.In addition, the present invention is that example is illustrated with the nickel metal hydride secondary battery just also in an embodiment, but is suitable for too for other alkaline batterys such as NI-G that adopt identical nickel positive pole.

Claims (5)

1, a kind of preparation method of alkaline battery nickel positive plate, its step comprises: filling is dried after adding the pastel that conductive agent is mixed with by the active material nickel hydroxide in the metal foaming ni substrate, and press forming, it is characterized in that, the metal foaming ni substrate that is filled with described pastel is after the compacting of first road, under 70~150 ℃ temperature, heat, be pressed then.
2, preparation method as claimed in claim 1 is characterized in that, the preferred temperature of heating is 100~120 ℃.
3, preparation method as claimed in claim 1 is characterized in that, roll-in or plane compacting are adopted in compression moulding.
4, as claim 1 or 3 described preparation methods, it is characterized in that, the metal foaming ni substrate that is filled with described pastel through the compacting of first road and under 70~150 ℃ of temperature heating after 2~3 passage compression mouldings.
5, preparation method as claimed in claim 2 is characterized in that, the metal foaming ni substrate that is filled with described pastel through the compacting of first road and under 100~120 ℃ of temperature heating after 2~3 passage compression mouldings.
CNB2004100509906A 2004-08-03 2004-08-03 Preparation method for nickel positive electrode sheet of alkaline storage battery Expired - Fee Related CN100389514C (en)

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JP3374995B2 (en) * 1993-09-22 2003-02-10 日立マクセル株式会社 Manufacturing method of nickel electrode
CN1107353C (en) * 1997-11-04 2003-04-30 天津和平海湾电源集团有限公司 Manufacture technology of positive plate for nickel-hydrogen cell
CN1127163C (en) * 1999-04-05 2003-11-05 深圳市比亚迪股份有限公司 High-temperature Ni/H2 battery and its manufacture
JP4390397B2 (en) * 2001-02-28 2009-12-24 三洋電機株式会社 Method for producing alkaline storage battery electrode

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