CN104671776A - Low-loss low-dielectric-constant microwave dielectric ceramic Li2Ba3Ti8O20 and preparation method thereof - Google Patents
Low-loss low-dielectric-constant microwave dielectric ceramic Li2Ba3Ti8O20 and preparation method thereof Download PDFInfo
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Abstract
The invention discloses an application of a lithium-containing composite oxide Li2Ba3Ti8O20 as a temperature-stable type low-dielectric-constant microwave dielectric ceramic which can be sintered at low temperature as well as a preparation method thereof. The preparation method comprises the following steps: (1) weighing ingredients of the original powder of Li2CO3, BaCO3 and TiO2 with over 99.9% of purity (by weight) according to the composition of Li2Ba3Ti8O20; (2) performing wet-type ball milling of the raw materials in the step (1) for 12 hours, wherein the ball milling medium is absolute ethyl alcohol; and drying and presintering for 6 hours in an atmosphere at 950 DEG C; and (3) adding a binder into the powder obtained in the step (2) and granulating, performing compression moulding and sintering for 4 hours in an atmosphere at 1000-1040 DEG C, wherein the binder is a polyvinyl alcohol solution with mass concentration of 5%; and the addition amount of polyvinyl alcohol accounts for 3% of the total mass of the powder. The prepared ceramic has good sintering property, the dielectric constant reaches 28.0-28.7, the value of quality factor Qf is as high as 54000-79000GHz, the temperature coefficient of resonance frequency is small, and the ceramic has a remarkably high application value in industry.
Description
Technical field
The present invention relates to dielectric ceramic material, particularly relate to dielectric ceramic material of the microwave devices such as ceramic substrate, resonator and the wave filter used for the manufacture of microwave frequency and preparation method thereof.
Background technology
Microwave dielectric ceramic refers to and to be applied in microwave frequency band (mainly UHF and SHF frequency range) circuit as dielectric material and to complete the pottery of one or more functions, the components and parts such as resonator, wave filter, dielectric substrate and medium wave circuit are widely used as in modern communication, it is the key foundation material of modern communication technology, in portable mobile phone, automobile telephone, cordless telephone, telestar susceptor and military radar etc., there is very important application, in the miniaturization, integrated process of modern communication instrument, just playing increasing effect.
Be applied to the dielectric ceramic of microwave frequency band, the requirement of following dielectric characteristics should be met: (1) seriation DIELECTRIC CONSTANT ε
rto adapt to the requirement of different frequency and different application occasion; (2) high quality factor q value or low dielectric loss tan δ to reduce noise, general requirement Qf>=3000 GHz; (3) the temperature factor τ of resonant frequency
?little of as far as possible to ensure the thermostability that device has had, general requirement-10 ppm/DEG C≤τ
?≤+10 ppm/ DEG C.From late 1930s, just someone attempts dielectric substance to be applied to microwave technology in the world, and prepares TiO
2microwave dielectric filter, but its temperature coefficient of resonance frequency τ
?too greatly cannot be practical.Since the seventies in last century, start the large-scale development to medium ceramic material, according to relative permittivity ε
rsize from use frequency range different, usually the microwave-medium ceramics be developed and developing can be divided into 4 classes.
(1) ultralow dielectric microwave dielectric ceramic, main representative is Al
2o
3-TiO
2, Y
2baCuO
5, MgAl
2o
4and Mg
2siO
4deng, its ε
r≤ 20, quality factor q × f>=50000GHz, τ
?≤ 10 ppm/ ° C.Be mainly used in microwave base plate and high-end microwave device.
(2) low ε
rwith the microwave dielectric ceramic of high q-factor, mainly BaO-MgO-Ta
2o
5, BaO-ZnO-Ta
2o
5or BaO-MgO-Nb
2o
5, BaO-ZnO-Nb
2o
5system or the composite system MWDC material between them.Its ε
r=20 ~ 35, Q=(1 ~ 2) × 10
4(under the GHz of f>=10), τ
?≈ 0.Be mainly used in the microwave communication equipments such as the direct broadcasting satellite of f >=8 GHz as dielectric resonance device.
(3) medium ε
rwith the microwave dielectric ceramic of Q value, mainly with BaTi
4o
9, Ba
2ti
9o
20(Zr, Sn) TiO
4deng the MWDC material for base, its ε
r=35 ~ 45, Q=(6 ~ 9) × 10
3(under f=3 ~-4GHz), τ
?≤ 5 ppm/ ° C.Be mainly used in microwave military radar in 4 ~ 8 GHz range of frequency and communication system as dielectric resonance device.
(4) high ε
rand the microwave dielectric ceramic that Q value is lower, be mainly used in civilian mobile communcations system in 0.8 ~ 4GHz range of frequency, this is also the emphasis of microwave dielectric ceramic research.Since the eighties, the people such as Kolar, Kato in succession find and have studied perovskite-like tungsten bronze type BaO-Ln
2o
3-TiO
2series (Ln=La, Sm, Nd or Pr etc. are called for short BLT system), complex perovskite structure CaO-Li
2o-Ln
2o
3-TiO
2series, lead base series material, Ca
1-xln
2x/3tiO
3be contour ε
rmicrowave dielectric ceramic, the wherein BaO-Nd of BLT system
2o
3-TiO
2material dielectric constant reaches 90, lead base series (Pb, Ca) ZrO
3specific inductivity reaches 105.
The sintering temperature of these material systems is generally higher than 1300 ° of C above, directly can not burn formation laminated ceramic capacitor altogether with the low melting point metal electrode such as low-cost Ag and Cu.In recent years, along with LTCC Technology (Low Temperature Co-fired Ceramics, the requirement of development LTCC) and the development of microwave multilayer device, researchist both domestic and external has carried out exploring widely and studying to some low fever's system materials, mainly adopt devitrified glass or glassceramic composites system, because low melting glass has relatively high dielectric loss mutually, the existence of glassy phase substantially increases the dielectric loss of material.Therefore development is the emphasis of current research without the low fired microwave dielectric ceramic material of glassy phase.
Can in the process of low fired microwave dielectric ceramic materials in exploration and development of new, the material systems such as the Li based compound that intrinsic sintering temperature is low, Bi based compound, tungstate architecture compound and tellurate architecture compound get the attention and research, but due to three performance index (ε of microwave dielectric ceramic
rwith Qf and τ
f) between be that the relation of mutually restriction is (see document: the restricting relation between microwave dielectric ceramic materials dielectric properties, Zhu Jianhua, Liang Fei, Wang little Hong, Lv Wenzhong, electronic component and material, phase March the 3rd in 2005), meet three performance requriementss and the single-phase microwave-medium ceramics of low temperature sintering is considerably less, their temperature coefficient of resonance frequency is usually excessive or quality factor are on the low side and cannot production application.Current is the summary of experience drawn by great many of experiments to the research major part of microwave-medium ceramics, but complete theory is not had to set forth the relation of microtexture and dielectric properties, in theory also cannot predict its microwave dielectric property such as temperature coefficient of resonance frequency and quality factor from the composition of compound and structure, explore with exploitation can low-temperature sintering have again near-zero resonance frequency temperature coefficient (-10 ppm/DEG C≤τ
?≤+10 ppm/ DEG C) be that those skilled in the art thirst for solving always but are difficult to the difficult problem that succeeds all the time with the microwave dielectric ceramic of higher figure of merit.
Due to Li
2ba
3ti
8o
20extensively studied by as photocatalyst material for semi-conductor.Then belong to media ceramic as microwave dielectric ceramic material, be generally isolator, therefore there is no Li both at home and abroad at present
2ba
3ti
8o
20research as microwave dielectric ceramic material is reported, but we find Li in the recent period
2ba
3ti
8o
20the comprehensive microwave dielectric property that pottery has had, can be used as the microwave dielectric ceramic of low fever.
Summary of the invention
The object of this invention is to provide one and there is good thermal stability and low-loss low temperature sintering dielectric constant microwave dielectric ceramic material and preparation method thereof again.
The chemical constitution of microwave dielectric ceramic material of the present invention is Li
2ba
3ti
8o
20.
Preparation method's step of this microwave dielectric ceramic material is:
(1) be 99.9%(weight percent by purity) more than Li
2cO
3, BaCO
3and TiO
2starting powder press Li
2ba
3ti
8o
20composition weigh batching.
(2) step (1) raw material wet ball-milling is mixed 12 hours, ball-milling medium is dehydrated alcohol, pre-burning 6 hours in 950 DEG C of air atmosphere after oven dry.
(3) in the powder that step (2) is obtained, binding agent is added and after granulation, then compression moulding, finally in 1000 ~ 1040 DEG C of air atmosphere, sinter 4 hours; Described binding agent adopts mass concentration to be the polyvinyl alcohol solution of 5%, and the addition of polyvinyl alcohol accounts for 3% of powder total mass.
Advantage of the present invention: Li
2ba
3ti
8o
20pottery sintering below 1150 DEG C is good, and specific inductivity reaches 28.0 ~ 28.7, especially the temperature factor τ of resonant frequency
?little, temperature stability is good; Quality factor q f value, up to 54000-79000GHz, can be widely used in the manufacture of the microwave devices such as various medium substrate, resonator and wave filter, can meet the technology needs of low temperature co-fired technology and microwave multilayer device, industrially have great using value.
Embodiment
Embodiment:
Table 1 shows 3 specific embodiments and microwave dielectric property thereof that form different sintering temperature of the present invention.Its preparation method is described above, carries out the evaluation of microwave dielectric property by cylindrical dielectric resonator method.
This pottery can be widely used in the manufacture of the microwave devices such as various medium substrate, resonator and wave filter, can meet the technology needs of the system such as mobile communication and satellite communications.
Table 1:
Claims (1)
1. lithium-contained composite oxide is as an application for low temperature sintering temperature-stable dielectric constant microwave dielectric ceramic, it is characterized in that the chemical constitution of described lithium-contained composite oxide is: Li
2ba
3ti
8o
20;
Preparation method's step of described lithium-contained composite oxide is:
(1) be 99.9%(weight percent by purity) more than Li
2cO
3, BaCO
3and TiO
2starting powder press Li
2ba
3ti
8o
20composition weigh batching;
(2) step (1) raw material wet ball-milling is mixed 12 hours, ball-milling medium is distilled water, pre-burning 6 hours in 950 DEG C of air atmosphere after oven dry;
(3) in the powder that step (2) is obtained, binding agent is added and after granulation, then compression moulding, finally in 1000 ~ 1040 DEG C of air atmosphere, sinter 4 hours; Described binding agent adopts mass concentration to be the polyvinyl alcohol solution of 5%, and the addition of polyvinyl alcohol accounts for 3% of powder total mass.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105503157A (en) * | 2016-01-13 | 2016-04-20 | 三峡大学 | Temperature-stabilization type low-dielectric-constant microwave dielectric ceramic Ba3Li2Ge2O8 and preparation method thereof |
CN105801109A (en) * | 2016-04-01 | 2016-07-27 | 桂林理工大学 | Microwave dielectric ceramic Li2Mg2TiO5 low in loss, stable in temperature and low in dielectric constant |
CN108075119A (en) * | 2017-12-11 | 2018-05-25 | 合肥国轩电池材料有限公司 | A kind of lithium ion battery Si/Li4Ti5O12The preparation method of/C composite membrane electrode |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102249670A (en) * | 2011-04-15 | 2011-11-23 | 桂林理工大学 | Low temperature sintered microwave dielectric ceramic Li2Ba1-xSrxTi4O16 and preparation method thereof |
CN102887703A (en) * | 2012-10-17 | 2013-01-23 | 桂林理工大学 | Li-base low-temperature-sinterable microwave dielectric ceramic Li2Ba1-xSrxTi6O14 and preparation method thereof |
-
2015
- 2015-02-04 CN CN201510057750.7A patent/CN104671776A/en active Pending
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102249670A (en) * | 2011-04-15 | 2011-11-23 | 桂林理工大学 | Low temperature sintered microwave dielectric ceramic Li2Ba1-xSrxTi4O16 and preparation method thereof |
CN102887703A (en) * | 2012-10-17 | 2013-01-23 | 桂林理工大学 | Li-base low-temperature-sinterable microwave dielectric ceramic Li2Ba1-xSrxTi6O14 and preparation method thereof |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105503157A (en) * | 2016-01-13 | 2016-04-20 | 三峡大学 | Temperature-stabilization type low-dielectric-constant microwave dielectric ceramic Ba3Li2Ge2O8 and preparation method thereof |
CN105503157B (en) * | 2016-01-13 | 2017-10-27 | 三峡大学 | Temperature-stable dielectric constant microwave dielectric ceramic Ba3Li2Ge2O8And preparation method thereof |
CN105801109A (en) * | 2016-04-01 | 2016-07-27 | 桂林理工大学 | Microwave dielectric ceramic Li2Mg2TiO5 low in loss, stable in temperature and low in dielectric constant |
CN108075119A (en) * | 2017-12-11 | 2018-05-25 | 合肥国轩电池材料有限公司 | A kind of lithium ion battery Si/Li4Ti5O12The preparation method of/C composite membrane electrode |
CN108075119B (en) * | 2017-12-11 | 2020-04-24 | 合肥国轩电池材料有限公司 | Si/Li lithium ion battery4Ti5O12Preparation method of/C composite material membrane electrode |
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Application publication date: 20150603 |