CN103319172B - Annular piezoresistor ceramic and preparation method thereof, and annular piezoresistor and preparation method thereof - Google Patents
Annular piezoresistor ceramic and preparation method thereof, and annular piezoresistor and preparation method thereof Download PDFInfo
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- CN103319172B CN103319172B CN201310237747.4A CN201310237747A CN103319172B CN 103319172 B CN103319172 B CN 103319172B CN 201310237747 A CN201310237747 A CN 201310237747A CN 103319172 B CN103319172 B CN 103319172B
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Abstract
The invention relates to an annular piezoresistor ceramic and a preparation method thereof, and an annular piezoresistor and a preparation method thereof. The annular piezoresistor ceramic comprises 30-50 mol% of strontium titanate, 15-35 mol% of calcium titanate, 20-40 mol% of lead titanate, 1-3 mol% of niobium pentaoxide, 0.1-1 mol% of lanthanum oxide, 0.1-1.5 mol% of cobaltic oxide and 1-4 mol% of titanium dioxide. The composition and ratio of the host crystal material, semiconducting material and combustion-supporting material are optimized to obtain the annular piezoresistor ceramic. The voltage of the annular piezoresistor prepared from the annular piezoresistor ceramic does not drop but rises in a 0-125 DEG C temperature rise environment, and therefore, the annular piezoresistor can work at a working environment temperature of higher than 100 DEG C, and thus, has a wide working environment temperature range.
Description
Technical field
The present invention relates to electronic devices and components field, particularly relate to a kind of annular voltage-sensitive resistor porcelain, preparation method and annular voltage-sensitive resistor and preparation method thereof.
Background technology
Annular voltage-sensitive resistor is usually used in micro-direct-current brush motor, works to eliminate carbon brush electric spark.At present, the annular voltage-sensitive resistor of using often on market, is generally divided into zinc oxide and the large class of strontium titanates two for the preparation of the main component of the porcelain of its ring-shaped pottery substrate.Strontium titanates piezo-resistance, owing to having high capacitance and good pressure-sensitive character, is generally applied in relatively high-end motor de-noising, as the motor of digital camera, printer, CD-ROM device, mobile phone etc.But, main component is the porcelain of single strontium titanates, the annular voltage-sensitive resistor that it is produced has the characteristic that temperature rising pressure sensitive voltage declines, when ambient temperature surpasses 100 ℃, the voltage of annular voltage-sensitive resistor can decline and surpass 10%, the ability that makes annular voltage-sensitive resistor bear electrical surge and static power declines, thereby is difficult to be applied in comparatively high-end motor de-noising.For example, be difficult in micro-direct-current brush motor of using vehicle use.
Therefore,, due to the restriction of porcelain, the motor that makes current annular voltage-sensitive resistor be only applicable to work under Normal Environmental Temperature, in the motor that can not be applied to work under environment that temperature is higher.
Summary of the invention
Based on this, be necessary the problem of the motor that is only applicable to work under Normal Environmental Temperature for current annular voltage-sensitive resistor, provide a kind of annular voltage-sensitive resistor porcelain, to widen the operating ambient temperature range of annular voltage-sensitive resistor.
A kind of preparation method of annular voltage-sensitive resistor porcelain further, is provided.
A kind of annular voltage-sensitive resistor and preparation method thereof is also provided.
An annular voltage-sensitive resistor porcelain, by mole% meter, comprising:
Strontium titanates 30~50mol%;
Calcium titanate 15~35mol%;
Lead titanates 20~40mol%;
Niobium pentaoxide 1~3mol%;
Lanthana 0.1~1mol%;
Cobalt sesquioxide 0.1~1.5mol%; And
Titanium dioxide 1~4mol%.
In an embodiment, by mole% meter, comprising therein:
Strontium titanates 50mol%;
Calcium titanate 25mol%;
Lead titanates 20mol%;
Niobium pentaoxide 3mol%;
Lanthana 0.5mol%;
Cobalt sesquioxide 0.5mol%; And
Titanium dioxide 1mol%.
A preparation method for annular voltage-sensitive resistor porcelain, comprises the steps:
Strontium titanates, calcium titanate, lead titanates, niobium pentaoxide, lanthana, cobalt sesquioxide and titanium dioxide are mixed to get to mixture, in described mixture, by mole% meter, described strontium titanates accounts for 30~50mol%, described calcium titanate and accounts for 15~35mol%, described lead titanates and account for 20~40mol%, described niobium pentaoxide and account for 1~3mol%, described lanthana and account for that 0.1~1mol%, described cobalt sesquioxide account for 0.1~1.5mol%, described titanium dioxide accounts for 1~4mol%;
1:1 mixes described mixture and deionized water in mass ratio, continue to mix after 18~30 hours and obtain slurry, described slip is ground, slurry after described grinding adds polyvinyl alcohol glue, after stirring, the mixture of described slurry and polyvinyl alcohol glue is carried out to mist projection granulating, obtain annular voltage-sensitive resistor porcelain, the mass ratio of wherein said slurry and polyvinyl alcohol glue is 5:1.
Therein in an embodiment, described described slip is ground, slurry after described grinding adds in the step of polyvinyl acetate glue water, described slip is ground and makes the granularity D50 value of described slurry be less than or equal to 1 micron, and then 5:1 adds polyvinyl alcohol glue to the slurry after described grinding in mass ratio.
A kind of annular voltage-sensitive resistor, comprise ring varistor substrate and be arranged at intervals at three front electrodes on a bottom surface of described ring varistor substrate or be arranged at intervals at three side electrodes on the side of described ring varistor substrate, described ring varistor substrate is made by above-mentioned annular voltage-sensitive resistor porcelain.
A preparation method for annular voltage-sensitive resistor, comprises the steps:
Above-mentioned annular voltage-sensitive resistor porcelain is provided, described annular voltage-sensitive resistor porcelain compacting is formed to ring-shaped pottery green compact;
In reducing atmosphere, by described ring-shaped pottery green compact sintering 2~6 hours at 1300~1450 ℃, obtain ring-shaped pottery sheet, then, in air ambient, described ring-shaped pottery sheet, in 800~1000 ℃ of insulations 2~5 hours, is obtained to ring varistor substrate;
Electrode coated slurry on the Shang Huo side, a bottom surface of described ring varistor substrate; after described electrode slurry is dried; in protective gas atmosphere; by the burning infiltration 0.5~1.5 hour at 810~900 ℃ of the described ring varistor substrate that is coated with electrode slurry; formation is arranged at intervals at three front electrodes on a bottom surface of described ring varistor substrate or is arranged at intervals at three side electrodes on the side of described ring varistor substrate, obtains annular voltage-sensitive resistor.
Therein in an embodiment, the step that described annular voltage-sensitive resistor porcelain compacting is formed to ring-shaped pottery body is specially: adopt dry pressuring forming process that annular voltage-sensitive resistor porcelain as claimed in claim 1 or 2 is pressed into ring-shaped pottery crude green body, then described ring-shaped pottery crude green body is carried out to binder removal, obtain ring-shaped pottery green compact.
In an embodiment, the density of described ring-shaped pottery crude green body is 3.25~3.45g/cm therein
3.
In an embodiment, the temperature of described binder removal is 550~590 ℃ therein, and the binder removal cycle is 20~30 hours.
In an embodiment, described reducing atmosphere is the mixed atmosphere of nitrogen and hydrogen therein, and the volume ratio of described nitrogen and hydrogen is R, 1≤R≤99.
By to oikocryst material, semiconducting material and helping burns the composition of material and proportioning and is optimized to adjust and obtains above-mentioned annular voltage-sensitive resistor porcelain, use this annular voltage-sensitive resistor porcelain to prepare annular voltage-sensitive resistor, show after tested, the voltage of preparation-obtained annular voltage-sensitive resistor does not only decline in the intensification environment of 0~125 ℃, rise to some extent on the contrary, in ambient temperature, be when more than 100 ℃, it is unaffected that annular voltage-sensitive resistor bears the ability of electrical surge and static power, thereby can under more than 100 ℃ operating ambient temperatures, work, wider range of the operating ambient temperature of the annular voltage-sensitive resistor that explanation is prepared by above-mentioned porcelain.
Accompanying drawing explanation
Fig. 1 is preparation method's the flow chart of the annular voltage-sensitive resistor porcelain of an execution mode;
Fig. 2 is the structural representation of the annular voltage-sensitive resistor of an execution mode;
Fig. 3 is the structural representation of another angle of the annular voltage-sensitive resistor shown in Fig. 2;
Fig. 4 is preparation method's the flow chart of the annular voltage-sensitive resistor of an execution mode.
Embodiment
For above-mentioned purpose of the present invention, feature and advantage can be become apparent more, below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in detail.A lot of details have been set forth in the following description so that fully understand the present invention.But the present invention can implement to be much different from alternate manner described here, and those skilled in the art can do similar improvement without prejudice to intension of the present invention in the situation that, so the present invention is not subject to the restriction of following public concrete enforcement.
An annular voltage-sensitive resistor porcelain, by mole% meter, comprises following component:
Strontium titanates (SrTiO
3) 30~50mol%, calcium titanate (CaTiO
3) 15~35mol%, lead titanates (PbTiO
3) 20~40mol%, niobium pentaoxide (Nb
2o
5) 1~3mol%, lanthana (La
2o
3) 0.1~1mol%, cobalt sesquioxide (Co
2o
3) 0.1~1.5mol% and titanium dioxide (TiO
2) 1~4mol%.
Strontium titanates, calcium titanate and lead titanates are oikocryst material.
Niobium pentaoxide, lanthana, cobalt sesquioxide are semiconducting material.
Titanium dioxide is for helping burning material.
By to oikocryst material, semiconducting material and help and burn the composition of material and proportioning and be optimized to adjust and obtain above-mentioned annular voltage-sensitive resistor porcelain.Use this annular voltage-sensitive resistor porcelain to make ring varistor substrate and be applied to annular voltage-sensitive resistor, this annular compression ring shape sensitive resistor is at high temperature worked, and along with the rising of temperature, its voltage does not only decline, rise to some extent on the contrary, there is good pressure sensitive voltage-temperature characterisitic.
Show after tested, while using the annular voltage-sensitive resistor of this varistor porcelain to work in the intensification environment of 0~125 ℃, its pressure sensitive voltage rises to some extent, explanation is when more than 100 ℃ in ambient temperature, it is unaffected that annular voltage-sensitive resistor bears the ability of electrical surge and static power, thereby can under more than 100 ℃ operating ambient temperatures, work, wider range of operating ambient temperature.
Preferably, above-mentioned annular voltage-sensitive resistor porcelain, by mole% meter, comprising:
Strontium titanates (SrTiO
3) 50mol%, calcium titanate (CaTiO
3) 25mol%, lead titanates (PbTiO
3) 20mol%, niobium pentaoxide (Nb
2o
5) 3mol%, lanthana (La
2o
3) 0.5mol%, cobalt sesquioxide (Co
2o
3) 0.5mol% and titanium dioxide (TiO
2) 1mol%.
Refer to Fig. 1, the preparation method of the annular voltage-sensitive resistor porcelain of an execution mode, comprises the steps S110 and step S120.
Step S110: strontium titanates, calcium titanate, lead titanates, niobium pentaoxide, lanthana, cobalt sesquioxide and titanium dioxide are mixed to get to mixture.
In said mixture, by mole% meter, strontium titanates (SrTiO
3) account for 30~50mol%, calcium titanate (CaTiO
3) account for 15~35mol%, lead titanates (PbTiO
3) account for 20~40mol%, niobium pentaoxide (Nb
2o
5) account for 1~3mol%, lanthana (La
2o
3) account for 0.1~1mol%, cobalt sesquioxide (Co
2o
3) account for 0.1~1.5mol%, titanium dioxide (TiO
2) account for 1~4mol%.
In preferred scheme, the molar percentage of above-mentioned each component is respectively: strontium titanates (SrTiO
3) 50mol%, calcium titanate (CaTiO
3) 25mol%, lead titanates (PbTiO
3) 20mol%, niobium pentaoxide (Nb
2o
5) 3mol%, lanthana (La
2o
3) 0.5mol%, cobalt sesquioxide (Co
2o
3) 0.5mol% and titanium dioxide (TiO
2) 1mol%.
Wherein, said components is produced by domestic manufacturer, and its purity is all more than 99.5%.
Step S120: 1:1 mixes said mixture and deionized water in mass ratio, continue to mix after 18~30 hours and obtain slurry, this slip is ground, slurry after grinding adds polyvinyl alcohol glue, after stirring, the mixture of slurry and polyvinyl alcohol glue is carried out to mist projection granulating, obtain annular voltage-sensitive resistor porcelain.
Preferably, the mass ratio of slurry and polyvinyl alcohol glue is 5:1.
The mixture preparing to step S110 adds deionized water, continue to mix after 18~30 hours and obtain slurry, with horizontal skin grinder, this slurry is ground to refinement, 5:1 adds polyvinyl alcohol (PVA) glue to the slurry after grinding in mass ratio, after stirring, with centrifugal spray tower, the mixture of slurry and polyvinyl alcohol glue is carried out to mist projection granulating, obtain annular voltage-sensitive resistor porcelain.
Preferably, in order to obtain the annular voltage-sensitive resistor of semiconducting better performances, the step that slurry is ground makes the granularity D50 value of slurry be less than or equal to 1 micron.
Preparation method's technique of above-mentioned annular voltage-sensitive resistor porcelain is simple, and preparation process is without the need for machine solvent, environmentally friendly, and process conditions are gentle, does not need HTHP, energy consumption low.
Refer to Fig. 2, the annular voltage-sensitive resistor 100 of an execution mode, comprises ring varistor substrate 20 and three front electrodes 40.
Ring varistor substrate 20 is circular cylinder, comprises upper bottom surface, bottom surface and side.Ring varistor substrate 20 is made by above-mentioned annular voltage-sensitive resistor porcelain.
Three front electrodes 40 are arranged at intervals on a bottom surface of ring varistor substrate 20, can be arranged on the upper bottom surface of ring varistor substrate 20, also can be arranged on bottom surface.
Refer to Fig. 3, the annular voltage-sensitive resistor 200 of another execution mode, comprises ring-shaped pottery substrate 30 and three side electrodes 60.
Ring varistor substrate 30 is circular cylinder, comprises upper bottom surface, bottom surface and side.Ring varistor substrate 30 is made by above-mentioned annular voltage-sensitive resistor porcelain.
Three side electrodes 60 are arranged at intervals on the side of ring varistor substrate 30.
Above-mentioned front electrode 40 and side electrode 60 are metal electrode.Composite price and electric conductivity consideration, front electrode 40 and side electrode 60 are preferably copper electrode.
The ring varistor substrate 20 of above-mentioned annular voltage-sensitive resistor 100 and the ring varistor substrate 30 of annular voltage-sensitive resistor 200 are made by above-mentioned annular voltage-sensitive resistor porcelain, when annular voltage-sensitive resistor 100 and annular voltage-sensitive resistor 200 are worked in the intensification environment of 0~125 ℃, its voltage does not only decline, rise to some extent on the contrary, there is good pressure sensitive voltage-temperature characterisitic.Thereby while at high temperature working, for example, while working in the intensification environment higher than 100 ℃, the ability that can not bear electrical surge and static power to annular voltage-sensitive resistor because voltage does not have to decline causes adverse effect, than common annular voltage-sensitive resistor, the operating temperature range of annular voltage-sensitive resistor 100 and annular voltage-sensitive resistor 200 is wider.
The ring varistor substrate 20 of being made by above-mentioned annular voltage-sensitive resistor porcelain has been widened the operating temperature range of annular voltage-sensitive resistor 100, ring varistor substrate 30 has been widened the operating temperature range of annular voltage-sensitive resistor 200, thereby widened the application of annular voltage-sensitive resistor 100 and annular voltage-sensitive resistor 200, not only can be applied in the fields such as digital camera, printer, CD-ROM device, mobile phone, also can be applied to comparatively high-end motor de-noising field, for example, on micro-d.c. motor that automobile uses.
And, because above-mentioned ring varistor substrate 20 and ring varistor substrate 30 are made by above-mentioned ring-shaped pottery varistor porcelain, make this annular voltage-sensitive resistor 100 and annular voltage-sensitive resistor 200 be subject in the course of the work electric pulse and impact that to send out heat thermogenetic less, be conducive to avoid product ontology temperature constantly to raise, cause and blow, the drop phenomenon of stuck motor of fragment, is used safety.
Refer to Fig. 4, the preparation method of an execution mode annular voltage-sensitive resistor, comprises the steps:
Step S210: annular voltage-sensitive resistor porcelain is provided, above-mentioned annular voltage-sensitive resistor porcelain compacting is formed to ring-shaped pottery green compact.
By mole% meter, following material is prepared into annular voltage-sensitive resistor porcelain by the preparation method of above-mentioned annular voltage-sensitive resistor material:
Strontium titanates (SrTiO
3) 30~50mol%, calcium titanate (CaTiO
3) 15~35mol%, lead titanates (PbTiO
3) 20~40mol%, niobium pentaoxide (Nb
2o
5) 1~3mol%, lanthana (La
2o
3) 0.1~1mol%, cobalt sesquioxide (Co
2o
3) 0.1~1.5mol% and titanium dioxide (TiO
2) 1~4mol%.
Preparation-obtained annular voltage-sensitive resistor porcelain is pressed into ring-shaped pottery green compact.First present embodiment adopts dry pressuring forming process that above-mentioned annular voltage-sensitive resistor is pressed into ring-shaped pottery crude green body.Preferably, for the follow-up good ring varistor substrate of compactness that obtains, to prepare the annular voltage-sensitive resistor of function admirable, the density of the ring-shaped pottery crude green body that compacting forms is 3.25~3.45g/cm
3.Be appreciated that when suppressing, can adopt the mould of different size, compacting obtains the ring-shaped pottery crude green body of different size.
Because the annular voltage-sensitive resistor resistance porcelain preparing by the preparation method of above-mentioned annular voltage-sensitive resistor porcelain contains PVA glue, therefore, be pressed into after ring-shaped pottery base substrate, also carry out the step of binder removal, to remove PVA glue, obtain ring-shaped pottery body.Can in continuous tunnel furnace or vertical heater, carry out binder removal.
Preferably, the temperature of binder removal is 550~590 ℃, and the cycle of binder removal is 20~30 hours, and ring-shaped pottery crude green body enters stove and starts to carry out binder removal, to the time of coming out of the stove be 20~30 hours.
Step S220: in reducing atmosphere, by ring-shaped pottery green compact sintering 2~6 hours at 1300~1450 ℃, obtain ring-shaped pottery sheet, then, in air ambient, ring-shaped pottery sheet, in 800~1000 ℃ of insulations 2~5 hours, is obtained to ring varistor substrate.
Reducing atmosphere is preferably the mixed atmosphere of hydrogen and nitrogen.Wherein, the volume ratio of nitrogen and hydrogen is R, 1≤R≤99.
The ring-shaped pottery green compact that step S210 is prepared are positioned in sealed type tunnel high-temperature electric resistance furnace, and at 1300~1450 ℃, sintering is 2~6 hours, obtains ring-shaped pottery sheet.Hour, the temperature of sintering suitably improves the content of the hydrogen in reducing atmosphere.
In other embodiments, also can adopt other reducing atmospheres, such as carbon monoxide reducing atmosphere, hydrogen reducing atmosphere etc.
Reduce after sintering, ring-shaped pottery sheet is positioned in continuous tunnel furnace, vertical heater, box or bell-jar electric furnace, in air ambient, in 800~1000 ℃ of insulations 2~5 hours, be oxidized, obtain ring varistor substrate.
The microstructure of ring varistor substrate comprises semiconductor transformation crystal grain and insulating crystal boundary, and in reducing atmosphere, sintering makes die semiconductor, and in air ambient, soak makes to obtain ring varistor substrate after crystal boundary insulating.
Adopt above-mentioned annular voltage-sensitive resistor porcelain to prepare ring varistor substrate, above-mentioned annular voltage-sensitive resistor porcelain is through reduction sintering with in air ambient after high-temperature oxydation, and formation structure is (Pb
1-x-ysr
xca
y) TiO
3composite perofskite type ring varistor substrate, wherein, the molar content that x is Sr, the molar content that y is Ca, the molar content that 1-x-y is Pb, the value of x is greater than 0, the value that is less than 1, y is greater than 0, is less than 1.
Use said structure is (Pb
1-x-ysr
xca
y) TiO
3the annular voltage-sensitive resistor of composite perofskite type ring varistor substrate there is good pressure sensitive voltage-temperature characterisitic, at high temperature its voltage does not only decline, and rises to some extent on the contrary.
Step S230: electrode coated slurry on the Shang Huo side, a bottom surface of ring varistor substrate; after electrode slurry is dried; in protective gas atmosphere; by the ring varistor substrate that is coated with electrode slurry burning infiltration 0.5~1.5 hour at 810~900 ℃; formation is arranged at intervals at three front electrodes on a bottom surface of ring varistor substrate or is arranged at intervals at three side electrodes on the side of ring varistor substrate, obtains annular voltage-sensitive resistor.
Adopt the method for silk screen printing that electrode slurry is coated on the Shang Huo side, a bottom surface of ring varistor substrate.Electrode slurry is metal electrode sizing, is preferably copper electrode paste.
After electrode slurry is dried; on a bottom surface of ring varistor substrate, form three spaced front electrode pulp layers; or on the side of ring varistor substrate, form three spaced side electrode pulp layers; then in protective gas atmosphere; at 810~900 ℃, burning infiltration is 0.5~1.5 hour; on a bottom surface of ring varistor substrate, form three spaced front electrodes; on the side of ring varistor substrate, form three spaced side electrodes, obtain annular voltage-sensitive resistor.
In protective gas atmosphere, carry out sintering, oxidized to prevent metal electrode sizing.Protective gas is nitrogen or inert gas.
At 810~900 ℃, burning infiltration is 0.5~1.5 hour, is conducive to front electrode or side electrode and is attached to reliably on ring varistor substrate.
When the annular voltage-sensitive resistor that adopts said method to prepare is worked in the intensification environment of 0~125 ℃, its voltage does not only decline, rise to some extent on the contrary, its operating temperature range is wider, thereby widened the application of annular voltage-sensitive resistor, not only can be applied in the fields such as digital camera, printer, CD-ROM device, mobile phone, also can be applied on micro-d.c. motor of automobile use.
Below in conjunction with specific embodiment, further set forth.
Embodiment 1
The preparation of annular voltage-sensitive resistor porcelain and annular voltage-sensitive resistor
One, the preparation of annular voltage-sensitive resistor porcelain
(1) by SrTiO
3, CaTiO
3, PbTiO
3, Nb
2o
5, La
2o
3, Co
2o
3, TiO
2by following molar percentage, weigh and obtain mixture: 50mol%SrTiO
3, 25mol%CaTiO
3, 20mol%PbTiO
3, 3mol%Nb
2o
5, 0.5mol%La
2o
3, 0.5mol%Co
2o
3and 1mol%TiO
2;
(2) said mixture is added in ball grinder, and add deionized water, the mass ratio that makes said mixture and deionized water is 1:1, said mixture and deionized water continue mixing and obtain slurry after 24 hours, use horizontal sand mill to carry out this slurry to grind, make the granularity D50 value≤1 μ m of slurry; The 5:1 slurry after mixed grinding and polyvinyl alcohol glue in stirring at low speed bucket, after stirring, carries out mist projection granulating with centrifugal spray tower to the mixture of slurry and polyvinyl alcohol glue in mass ratio, obtains annular voltage-sensitive resistor porcelain.
Two, the preparation of annular voltage-sensitive resistor
(1) adopt dry-pressing formed technique, the above-mentioned annular voltage-sensitive resistor porcelain preparing is pressed into ring-shaped pottery crude green body, the density of this ring-shaped pottery crude green body is 3.3g/cm
3, external diameter * internal diameter * thickness is φ 9.4mm * φ 5.7mm * 1mm; This ring-shaped pottery crude green body is put into continuous tunnel furnace and carry out binder removal and obtain ring-shaped pottery green compact, wherein, the temperature of binder removal is 550 ℃, and the binder removal cycle is 24 hours;
(2) above-mentioned ring-shaped pottery green compact are put into sealed type tunnel high-temperature electric resistance furnace, in the mixed atmosphere (volume ratio of nitrogen and hydrogen is 12) of nitrogen and hydrogen, at 1450 ℃, sintering is 2 hours, obtain ring-shaped pottery sheet, after ring-shaped pottery sheet is cooling, put into cabinet-type electric furnace, under air ambient, at 860 ℃, be incubated 3 hours, obtain ring varistor substrate;
(3) adopt the method for silk screen printing copper electrode paste to be coated on the upper bottom surface of above-mentioned ring varistor substrate, after copper electrode paste is dried, the ring varistor substrate that is coated with copper electrode paste is carried out to burning infiltration 1 hour at 850 ℃, on the upper bottom surface of ring varistor substrate, form three spaced front electrodes, obtain annular voltage-sensitive resistor.
Table 1 is pressure sensitive voltage-temperature characterisitic data of the annular voltage-sensitive resistor of embodiment 1 preparation
As seen from Table 1, above-mentioned annular voltage-sensitive resistor is in the intensification environment of 0~125 ℃, its voltage rises with the rising of temperature, with respect to the E10 value recording under room temperature, the E10 value recording at 125 ℃ rises 4.3%, this is obviously different from the voltage-temperature characterisitic of the annular voltage-sensitive resistor of single strontium titanates main material, pressure sensitive voltage-temperature characterisitic than the annular voltage-sensitive resistor of single strontium titanates main material is greatly improved, the operating ambient temperature that the annular voltage-sensitive resistor that has used above-mentioned annular voltage-sensitive resistor porcelain is described is wider, thereby can be applied to more areas, for example traditional annular voltage-sensitive resistor is because the temperature boosted voltage more characteristic that declines causes being applied on micro-d.c. motor that automobile uses, and the annular voltage-sensitive resistor of the present embodiment 1 preparation is applicable to being applied on micro-d.c. motor of automobile use very much.
Embodiment 2
The preparation of annular voltage-sensitive resistor porcelain and annular voltage-sensitive resistor
One, the preparation of annular voltage-sensitive resistor porcelain
(1) by SrTiO
3, CaTiO
3, PbTiO
3, Nb
2o
5, La
2o
3, Co
2o
3, TiO
2by following molar percentage, weigh and obtain mixture: 30mol%SrTiO
3, 35mol%CaTiO
3, 30mol%PbTiO
3, 1mol%Nb
2o
5, 1mol%La
2o
3, 1mol%Co
2o
3and 2mol%TiO
2;
(2) said mixture is added in ball grinder, and add deionized water, the mass ratio that makes said mixture and deionized water is 1:1, said mixture and deionized water continue mixing and obtain slurry after 18 hours, use horizontal sand mill to carry out this slurry to grind, make the granularity D50 value≤1 μ m of slurry; The 5:1 slurry after mixed grinding and polyvinyl alcohol glue in stirring at low speed bucket, after stirring, carries out mist projection granulating with centrifugal spray tower to the mixture of slurry and polyvinyl alcohol glue in mass ratio, obtains annular voltage-sensitive resistor porcelain.
Two, the preparation of annular voltage-sensitive resistor
(1) adopt dry-pressing formed technique, the above-mentioned annular voltage-sensitive resistor porcelain preparing is pressed into ring-shaped pottery crude green body, the density of this ring-shaped pottery crude green body is 3.25g/cm
3, external diameter * internal diameter * thickness is φ 9.4mm * φ 5.7mm * 1mm; This ring-shaped pottery crude green body is put into continuous tunnel furnace and carry out binder removal and obtain ring-shaped pottery green compact, wherein, the temperature of binder removal is 590 ℃, and the binder removal cycle is 20 hours;
(2) above-mentioned ring-shaped pottery green compact are put into sealed type tunnel high-temperature electric resistance furnace, in the mixed atmosphere (volume ratio of nitrogen and hydrogen is 20) of nitrogen and hydrogen, at 1380 ℃, sintering is 3 hours, obtain ring-shaped pottery sheet, after ring-shaped pottery sheet is cooling, put into cabinet-type electric furnace, under air ambient, at 800 ℃, be incubated 5 hours, obtain ring varistor substrate;
(3) method that adopts silk screen printing by copper electrode paste be coated on above-mentioned ring varistor substrate side on, after copper electrode paste is dried, the ring varistor substrate that is coated with copper electrode paste is carried out to burning infiltration 0.5 hour at 910 ℃, on the side of ring varistor substrate, form three spaced side electrodes, obtain annular voltage-sensitive resistor.
Table 2 is pressure sensitive voltage-temperature characterisitic data of the annular voltage-sensitive resistor of embodiment 2 preparations
As seen from Table 2, above-mentioned annular voltage-sensitive resistor is in the intensification environment of 0~125 ℃, its voltage rises with the rising of temperature, with respect to the E10 value recording under room temperature, the E10 value recording at 125 ℃ rises 4.08%, this is obviously different from the voltage-temperature characterisitic of the annular voltage-sensitive resistor of single strontium titanates main material, pressure sensitive voltage-temperature characterisitic than the annular voltage-sensitive resistor of single strontium titanates main material is greatly improved, the operating ambient temperature that the annular voltage-sensitive resistor that has used above-mentioned annular voltage-sensitive resistor porcelain is described is wider, thereby can be applied to more areas, for example traditional annular voltage-sensitive resistor is because the temperature boosted voltage more characteristic that declines causes being applied on micro-d.c. motor that automobile uses, and the annular voltage-sensitive resistor of the present embodiment 2 preparations is applicable to being applied on micro-d.c. motor of automobile use very much.
Embodiment 3
The preparation of annular voltage-sensitive resistor porcelain and annular voltage-sensitive resistor
(1) by SrTiO
3, CaTiO
3, PbTiO
3, Nb
2o
5, La
2o
3, Co
2o
3, TiO
2by following molar percentage, weigh and obtain mixture: 40mol%SrTiO
3, 15mol%CaTiO
3, 40mol%PbTiO
3, 2mol%Nb
2o
5, 0.5mol%La
2o
3, 1.5mol%Co
2o
3and 1mol%TiO
2;
(2) said mixture is added in ball grinder, and add deionized water, the mass ratio that makes said mixture and deionized water is 1:1, said mixture and deionized water continue mixing and obtain slurry after 24 hours, use horizontal sand mill to carry out this slurry to grind, make the granularity D50 value≤1 μ m of slurry; The 5:1 slurry after mixed grinding and polyvinyl alcohol glue in stirring at low speed bucket, after stirring, carries out mist projection granulating with centrifugal spray tower to the mixture of slurry and polyvinyl alcohol glue in mass ratio, obtains annular voltage-sensitive resistor porcelain.
Two, the preparation of annular voltage-sensitive resistor
(1) adopt dry-pressing formed technique, the above-mentioned annular voltage-sensitive resistor porcelain preparing is pressed into ring-shaped pottery crude green body, the density of this ring-shaped pottery crude green body is 3.45g/cm
3, external diameter * internal diameter * thickness is φ 9.4mm * φ 5.7mm * 1mm; This ring-shaped pottery crude green body is put into continuous tunnel furnace and carry out binder removal and obtain ring-shaped pottery green compact, wherein, the temperature of binder removal is 570 ℃, and the binder removal cycle is 30 hours;
(2) above-mentioned ring-shaped pottery green compact are put into sealed type tunnel high-temperature electric resistance furnace, in the mixed atmosphere (volume ratio of nitrogen and hydrogen is 30) of nitrogen and hydrogen, at 1300 ℃, sintering is 5 hours, obtain ring-shaped pottery sheet, after ring-shaped pottery sheet is cooling, put into cabinet-type electric furnace, under air ambient, at 1000 ℃, be incubated 2 hours, obtain ring varistor substrate;
(3) adopt the method for silk screen printing copper electrode paste to be coated on the upper bottom surface of above-mentioned ring varistor substrate, after copper electrode paste is dried, the ring varistor substrate that is coated with copper electrode paste is carried out to burning infiltration 1.5 hours at 810 ℃, on the upper bottom surface of ring varistor substrate, form three spaced front electrodes, obtain annular voltage-sensitive resistor.
Table 3 is pressure sensitive voltage-temperature characterisitic data of the annular voltage-sensitive resistor of embodiment 3 preparations
As seen from Table 3, above-mentioned annular voltage-sensitive resistor is in the intensification environment of 0~125 ℃, its voltage rises with the rising of temperature, with respect to the E10 value recording under room temperature, the E10 value recording at 125 ℃ rises 5.02%, this is obviously different from the voltage-temperature characterisitic of the annular voltage-sensitive resistor of single strontium titanates main material, pressure sensitive voltage-temperature characterisitic than the annular voltage-sensitive resistor of single strontium titanates main material is greatly improved, the operating ambient temperature that the annular voltage-sensitive resistor that has used above-mentioned annular voltage-sensitive resistor porcelain is described is wider, thereby can be applied to more areas, for example traditional annular voltage-sensitive resistor is because the temperature boosted voltage more characteristic that declines causes being applied on micro-d.c. motor that automobile uses, and the annular voltage-sensitive resistor of the present embodiment 3 preparations is applicable to being applied on micro-d.c. motor of automobile use very much.
The above embodiment has only expressed several execution mode of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection range of patent of the present invention should be as the criterion with claims.
Claims (10)
1. an annular voltage-sensitive resistor porcelain, is characterized in that, by mole% meter, comprising:
2. annular voltage-sensitive resistor porcelain according to claim 1, is characterized in that, by mole% meter, comprising:
3. a preparation method for annular voltage-sensitive resistor porcelain, is characterized in that, comprises the steps:
Strontium titanates, calcium titanate, lead titanates, niobium pentaoxide, lanthana, cobalt sesquioxide and titanium dioxide are mixed to get to mixture, in described mixture, by mole% meter, described strontium titanates accounts for 30~50mol%, described calcium titanate and accounts for 15~35mol%, described lead titanates and account for 20~40mol%, described niobium pentaoxide and account for 1~3mol%, described lanthana and account for that 0.1~1mol%, described cobalt sesquioxide account for 0.1~1.5mol%, described titanium dioxide accounts for 1~4mol%;
1:1 mixes described mixture and deionized water in mass ratio, continue to mix after 18~30 hours and obtain slurry, described slip is ground, slurry after described grinding adds polyvinyl alcohol glue, after stirring, the mixture of described slurry and polyvinyl alcohol glue is carried out to mist projection granulating, obtain annular voltage-sensitive resistor porcelain, the mass ratio of wherein said slurry and polyvinyl alcohol glue is 5:1;
The described step that described slip is ground is to adopt horizontal skin grinder to grind described slurry.
4. the preparation method of annular voltage-sensitive resistor porcelain according to claim 3, it is characterized in that, described described slip is ground, slurry after described grinding adds in the step of polyvinyl alcohol glue, described slip is ground and makes the granularity D50 value of described slurry be less than or equal to 1 micron, and then 5:1 adds polyvinyl alcohol glue to the slurry after described grinding in mass ratio.
5. an annular voltage-sensitive resistor, comprise ring varistor substrate and be arranged at intervals at three front electrodes on a bottom surface of described ring varistor substrate or be arranged at intervals at three side electrodes on the side of described ring varistor substrate, it is characterized in that, described ring varistor substrate is made by the annular voltage-sensitive resistor porcelain described in claim 1 or 2.
6. a preparation method for annular voltage-sensitive resistor, is characterized in that, comprises the steps:
Annular voltage-sensitive resistor porcelain as claimed in claim 1 or 2 is provided, described annular voltage-sensitive resistor porcelain compacting is formed to ring-shaped pottery green compact;
In reducing atmosphere, by described ring-shaped pottery green compact sintering 2~6 hours at 1300~1450 ℃, obtain ring-shaped pottery sheet, then, in air ambient, described ring-shaped pottery sheet, in 800~1000 ℃ of insulations 2~5 hours, is obtained to ring varistor substrate;
Electrode coated slurry on the Shang Huo side, a bottom surface of described ring varistor substrate; after electrode slurry is dried; in protective gas atmosphere; by the burning infiltration 0.5~1.5 hour at 810~900 ℃ of the described ring varistor substrate that is coated with electrode slurry; formation is arranged at intervals at three front electrodes on a bottom surface of described ring varistor substrate or is arranged at intervals at three side electrodes on the side of described ring varistor substrate, obtains annular voltage-sensitive resistor.
7. the preparation method of annular voltage-sensitive resistor according to claim 6, it is characterized in that, the step that described annular voltage-sensitive resistor porcelain compacting is formed to ring-shaped pottery body is specially: adopt dry pressuring forming process that annular voltage-sensitive resistor porcelain as claimed in claim 1 or 2 is pressed into ring-shaped pottery crude green body, then described ring-shaped pottery crude green body is carried out to binder removal, obtain ring-shaped pottery green compact.
8. the preparation method of annular voltage-sensitive resistor according to claim 7, is characterized in that, the density of described ring-shaped pottery crude green body is 3.25~3.45g/cm
3.
9. the preparation method of annular voltage-sensitive resistor according to claim 7, is characterized in that, the temperature of described binder removal is 550~590 ℃, and the binder removal cycle is 20~30 hours.
10. the preparation method of annular voltage-sensitive resistor according to claim 6, is characterized in that, described reducing atmosphere is the mixed atmosphere of nitrogen and hydrogen, and the volume ratio of described nitrogen and hydrogen is R, 1≤R≤99.
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| CN112820490A (en) * | 2021-01-04 | 2021-05-18 | 肇庆市鼎湖正科集志电子有限公司 | Three-in-one sintering method of strontium titanate annular piezoresistor |
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| CN101101812A (en) * | 2006-07-04 | 2008-01-09 | 上海易力禾电子有限公司 | Positive temperature coefficient strontium titanate pressure sensitive resistor and its production process |
| CN101402524A (en) * | 2008-11-13 | 2009-04-08 | 常熟通富电子有限公司 | Low-resistance, high-overpressure resistance barium titanate based ceramic thermal resistance and method of manufacturing the same |
| CN102881388A (en) * | 2012-09-07 | 2013-01-16 | 广州新莱福磁电有限公司 | Barium strontium calcium titanate annular piezoresistor with copper alloy electrodes and preparation method thereof |
| CN102881389A (en) * | 2012-09-28 | 2013-01-16 | 广东风华高新科技股份有限公司 | Piezoresistor and preparation method thereof |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN101101812A (en) * | 2006-07-04 | 2008-01-09 | 上海易力禾电子有限公司 | Positive temperature coefficient strontium titanate pressure sensitive resistor and its production process |
| CN101402524A (en) * | 2008-11-13 | 2009-04-08 | 常熟通富电子有限公司 | Low-resistance, high-overpressure resistance barium titanate based ceramic thermal resistance and method of manufacturing the same |
| CN102881388A (en) * | 2012-09-07 | 2013-01-16 | 广州新莱福磁电有限公司 | Barium strontium calcium titanate annular piezoresistor with copper alloy electrodes and preparation method thereof |
| CN102881389A (en) * | 2012-09-28 | 2013-01-16 | 广东风华高新科技股份有限公司 | Piezoresistor and preparation method thereof |
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