CN105294104A - Low-loss dielectric adjustable mediation microwave dielectric ceramic material and preparation method thereof - Google Patents

Abstract

The invention particularly relates to a low-loss dielectric-adjustable mediation microwave dielectric ceramic material and a preparation method thereof. The chemical composition of the ceramic material is aCa(ZrxTi1-x)O3 plus (1-a)La1 plus yAlO3 plus z wt percent of Al2O3, wherein a is greater than or equal to 0.30 and less than or equal to 0.35, x is greater than or equal to 0 and less than or equal to 0.1, y is greater than or equal to 0 and less than or equal to 0.01 and z is greater than or equal to 0 and less than or equal to 1. The ceramic material is low-cost CaTiO3-LaAlO3 system microwave dielectric ceramic capable of replacing CaTiO3-NdAlO3 system ceramic, greatly reduces the production cost, is a low-cost microwave dielectric ceramic material having low loss and dielectric-adjustable characteristic and being applicable to the microwave devices such as a dielectric resonator, a filter and a duplexer, a dielectric constant is adjustable, Q multiplied by f is high, and a temperature coefficient of resonance frequency tao f is excellent. The invention also provides the preparation method of the ceramic material with the advantages of low material price and simple and practicable process route.

Description

Low-loss dielectric is adjustable intermediary's microwave dielectric ceramic materials and preparation method thereof

Technical field

The present invention is specifically related to a kind of low-loss dielectric adjustable intermediary microwave dielectric ceramic materials and preparation method thereof.

Background technology

Along with developing rapidly of modern communication technology, the especially rapid propelling of 4G, 5G network, miniaturization, integrated and cost degradation become the developing direction of mobile communication and mobile terminal.Realize the miniaturization of signal equipment, the approach of high stability and cheapness is the integrated of microwave circuit.Traditional Metal cavity and metal wave-guide volume and weight excessive, limit the development of microwave integrated circuit, need for this reason develop a series of electronically materials and component being suitable for having in microwave range high-performance, highly reliable performance characteristics.The best dielectric substance being applicable to this requirement that Medium dielectric constant, high-quality factor microwave medium ceramic develop rapidly just in this context, it has the Comprehensive Characteristics such as low lossy microwave, higher specific inductivity and frequency-temperature coefficient be little, having the advantages such as volume is little, lightweight, message transmission rate is high with the wave filter that it makes, is solve the critical material that current LTE network builds frequency spectrum resource bottleneck problem.

At present, the microwave-medium ceramics of Medium dielectric constant, high quality factor is mainly with BaTi ₄o ₉, Ba ₂ti ₉o ₂₀(Zr, Sn) TiO ₄and MTiO ₃-LnAlO ₃(M:Sr, Ca; Ln:La, Nd, Sm) etc. for the microwave dielectric material of base be main.BaTi ₄o ₉, Ba ₂ti ₉o ₂₀(Zr, Sn) TiO ₄research comparatively early, and studies to obtain unusual system, but the specific inductivity of these potteries (usual ε on the low side _r≤ 40) trend of microwave circuit miniaturization, is unfavorable for.At MTiO ₃-LnAlO ₃in system, CaTiO ₃-NdAlO ₃microwave-medium ceramics gets most of the attention owing to having the adjustability of excellent microwave dielectric property and perovskite structure.The scholar of Britain, Russia, Japan and other countries in succession researchs and develops performance and reaches ε _rbe 43 ~ 48, Q × f>=40000GHz, τ _fthe CaTiO of ≈ 0ppm/ DEG C ₃-NdAlO ₃system microwave-medium ceramics, but the performance index that there is not yet that this based material reaches external product in application aspect at home, Q × f value of home products far below external product, only at about 35000GHz.The CaTiO of domestic industry production and application ₃-NdAlO ₃series ceramic mainly buys synthetic ceramic powder from Japan, has not only spent a large amount of foreign exchange, but also has been unfavorable for proprietary technology progress.In addition, rare earth oxide Nd ₂o ₃the costliness of raw material, price is for CaTiO ₃-NdAlO ₃it is a very large limiting factor that the commercial applications of microwave-medium ceramics is promoted.Therefore, a kind of alternative CaTiO is obtained ₃-NdAlO ₃pottery and be easy to the low cost microwave-medium ceramics of mass production, not only has important social benefit but also has significant economic interests.

Summary of the invention

For the deficiencies in the prior art, the object of this invention is to provide a kind of low-loss dielectric adjustable intermediary microwave dielectric ceramic materials, is a kind of alternative CaTiO ₃-NdAlO ₃the low cost CaTiO of system's pottery ₃-LaAlO ₃series microwave dielectric ceramic, significantly reduces production cost, and have low-loss dielectric tunable characteristic, specific inductivity is adjustable, the high and temperature coefficient of resonance frequency τ of Q × f _fexcellence, the present invention also provides its preparation method.

Low-loss dielectric of the present invention is adjustable intermediary's microwave dielectric ceramic materials, chemical constitution is: aCa (Zr _xti _1-x) O ₃+ (1-a) La _1+yalO ₃+ zwt%Al ₂o ₃, wherein 0.30≤a≤0.35,0≤x≤0.1,0≤y≤0.01,0≤z≤1.

Wherein:

Zwt% in chemical constitution is Al ₂o ₃account for (aCa (Zr _xti _1-x) O ₃+ (1-a) La _1+yalO ₃) massfraction.

Preferred as one, 0.30≤a≤0.35,0<x≤0.1,0<y≤0.01,0<z≤1, the microwave dielectric ceramic materials ε of this kind of chemical constitution _r=43 ~ 48, Q × f>=38500GHz, temperature coefficient of resonance frequency τ _fexcellence is a kind of low-loss dielectric adjustable intermediary microwave dielectric ceramic materials.

Preferred as one, a=0.31,0≤x≤0.06,0≤y≤0.005,0≤z≤0.6.

Preferred as one, a=0.31,0<x≤0.06,0<y≤0.005,0<z≤0.6, the microwave dielectric ceramic materials ε of this kind of chemical constitution _r=45 ~ 46, Q × f>=43500GHz, temperature coefficient of resonance frequency τ _fexcellent.

Preferred as one, a=0.31, x=0.02, y=0.03,0.15<z≤0.5, the microwave dielectric ceramic materials ε of this kind of chemical constitution _r=45 ~ 46, Q × f>=45000GHz, temperature coefficient of resonance frequency τ _fexcellent.

The preparation method of low-loss dielectric of the present invention is adjustable intermediary's microwave dielectric ceramic materials, comprises the following steps:

(1) with CaCO ₃, ZrO ₂, TiO ₂, La ₂o ₃, Al ₂o ₃for raw material, all raw materials are put into ball mill ball milling, obtain the slurry of particle diameter 1.5 ~ 2.8 μm;

(2), after the slurry crossed by ball milling is dried, tabletted, through 1240 ~ 1280 DEG C of pre-burnings 2 ~ 6 hours, obtains burning block;

(3) block after pre-burning is pulverized, add the Al of powder quality mark 0 ~ 1% ₂o ₃, PVA, PVB or CMC of 0.3% ~ 1%, the sodium polyacrylate of 0.05% ~ 1% and the tbp of 0.01% ~ 0.2% are ball-milling medium ball milling with deionized water, obtain the slurry of particle diameter 0.6 ~ 1.4 μm;

(4) slurry is after mist projection granulating, is pressed into cylinder;

(5) then carry out binder removal process, then intensification sinters, and can obtain low-loss dielectric adjustable intermediary microwave dielectric ceramic materials.

Wherein: in step (1), ball mill is the horizontal ceramic ball mill of 50Kg, and Ball-milling Time is 12 ~ 18 hours.

Being pressed into cylinder in step (4) is: under the pressure of 160MPa, be pressed into diameter be 15mm, be highly the cylinder of 6mm.

Step (5) is: sample is incubated binder removal process in 2 hours at 650 DEG C, then be warming up to 1450 DEG C ~ 1520 DEG C to sinter, temperature rise rate is 120-180 DEG C/h, and soaking time is 4 ~ 6h, can obtain low-loss dielectric adjustable intermediary microwave dielectric ceramic materials.

As a kind of optimal technical scheme, the preparation method of low-loss dielectric of the present invention is adjustable intermediary's microwave dielectric ceramic materials, comprises the following steps:

(1) with CaCO ₃, ZrO ₂, TiO ₂, La ₂o ₃, Al ₂o ₃for raw material, all raw materials are put into the horizontal ceramic ball mill ball milling of 50KG 12 ~ 18 hours, obtain the slurry of particle diameter 1.5 ~ 2.8 μm;

(2) slurry crossed by ball milling is pressed into the sheet of diameter 50mm after drying under the pressure of 30MPa, through rising to 1240 ~ 1280 DEG C of pre-burnings 2 ~ 6 hours with the temperature rise rate of 4 DEG C/min, obtains burning block;

(3) cross 30 ~ 80 mesh sieves after being pulverized by the block after pre-burning, add the Al of powder quality mark 0 ~ 1% ₂o ₃, PVA, PVB or CMC of 0.3% ~ 1%, the sodium polyacrylate of 0.05% ~ 1% and the tbp of 0.01% ~ 0.2% take deionized water as ball-milling medium, with 120L Ball-stirring mill ball milling 2 ~ 4 hours, obtain the slurry of particle diameter 0.6 ~ 1.4 μm;

(4) slurry is after mist projection granulating, is pressed into diameter and is 15mm, is highly the cylinder of 6mm under the pressure of 160MPa;

(5) sample is incubated binder removal process in 2 hours at 650 DEG C, be then warming up to 1450 DEG C ~ 1520 DEG C and sinter, temperature rise rate is 120-180 DEG C/h, and soaking time is 4 ~ 6h, can obtain low-loss dielectric adjustable intermediary microwave dielectric ceramic materials.

The present invention selects the CaTiO of high-k, positive temperature coefficient of resonance frequency ₃with the low cost LaAlO of low-k, negative temperature coefficient of resonance frequency ₃compound, and by adulterating ZrO in pottery ₂, suitably regulate La ₂o ₃content, add Al after secondary ball milling ₂o ₃mode regulate and control the microstructure of pottery, and then provide a kind of low-loss dielectric adjustable aCa (Zr _xti _1-x) O ₃+ (1-a) La _1+yalO ₃+ zwt%Al ₂o ₃microwave dielectric ceramic materials.This is pottery is a kind of microwave dielectric ceramic materials having the high-performance and low-cost of using value.

In sum, the present invention has the following advantages:

(1) the present invention selects high-k ε _r≈ 170, positive temperature coefficient of resonance frequency τ _fthe CaTiO of ≈ 800ppm/ DEG C ₃with low-k ε _r≈ 23.4, negative temperature coefficient of resonance frequency τ _fthe low cost LaAlO of ≈-44ppm/ DEG C ₃compound, and by adulterating ZrO in pottery ₂, suitably regulate La ₂o ₃content, add Al after secondary ball milling ₂o ₃mode regulate and control the microstructure of pottery, and then obtain and a kind ofly there is low-loss dielectric tunable characteristic and be applicable to the low cost microwave dielectric ceramic materials of the microwave devices such as dielectric resonator, wave filter and duplexer.

(2) the present invention is a kind of CaTiO of low cost microwave dielectric property excellence ₃-LaAlO ₃series ceramic material, specific inductivity, the temperature coefficient of resonance frequency of this microwave dielectric material can compare continuously adjustabe in wider scope with chemical composition, can according to the requirement adjust structure of designed device and performance.

(3) the present invention adopts cheap raw material, simple operational path, prepares alternative CaTiO ₃-NdAlO ₃the low cost CaTiO of system's pottery ₃-LaAlO ₃series microwave dielectric ceramic, filled up the vacancy of current this material independent research domestic, significantly reduce production cost, raw materials cost compares CaTiO ₃-NbAlO ₃series microwave dielectric ceramic reduces 1/3rd.

Accompanying drawing explanation

Fig. 1 is 0.31Ca (Zr prepared by embodiment 13 _0.02ti _0.98) O ₃+ 0.69La _1.003alO ₃+ 0.4wt%Al ₂o ₃xRD figure spectrum during pottery room temperature.

Embodiment

Below in conjunction with embodiment, the present invention will be further described.

Embodiment 1-5

By general formula 0.31Ca (Zr _xti _1-x) O ₃+ 0.69LaAlO ₃batching prepares pottery of the present invention through following steps:

(1) analytical pure chemical reagent CaCO is adopted ₃, ZrO ₂, TiO ₂, La ₂o ₃, Al ₂o ₃for raw material, by 0.31Ca (Zr _xti _1-x) O ₃+ 0.69LaAlO ₃chemical general formula mol ratio, wherein 0≤x≤0.06.The raw material prepared is put into the horizontal ceramic ball mill ball milling of 50KG 16 hours, obtain the slurry of particle diameter 2.3 μm;

(2) slurry crossed by ball milling is pressed into the sheet of diameter 50mm after drying under the pressure of 30MPa, through rising to 1260 DEG C of pre-burnings 4 hours with the temperature rise rate of 4 DEG C/min, obtains burning block;

(3) 50 mesh sieves are crossed after being pulverized by the block after pre-burning, add PVA (PVB, CMC), the sodium polyacrylate of 0.1%, the tbp of 0.05% of powder quality 0.5%, take deionized water as ball-milling medium, with 120L Ball-stirring mill ball milling 3 hours, obtain the slurry of particle diameter 1.1 μm;

(4) slurry is after mist projection granulating, is pressed into diameter and is 15mm, is highly the cylinder of 6mm under the pressure of 160MPa;

(5) sample is incubated binder removal process in 2 hours at 650 DEG C, be then warming up to 1470 DEG C ~ 1520 DEG C and sinter, temperature rise rate is 180 DEG C/h, and soaking time is 6h, can obtain 031Ca (Zr _xti _1-x) O ₃+ 0.69LaAlO ₃microwave dielectric ceramic materials.

The chemical formula of the microwave dielectric ceramic materials that embodiment 1-5 prepares is 0.31Ca (Zr _xti _1-x) O ₃+ 0.69LaAlO ₃wherein x is respectively 0, and 0.01,0.02,0.04,0.06, corresponding embodiment 1-5, carries out performance test to the microwave dielectric ceramic materials that embodiment 1-5 prepares respectively, adopt relative permittivity and the quality factor of Agilent8722ET network analyzer (open type cell method) analysis of material, with Agilent8722ET network analyzer and exact constant temperature case, measure the temperature coefficient of resonance frequency of material, Range of measuring temp is-40 DEG C ~ 80 DEG C.Test result is in table 1.

Table 10.31Ca (Zr _xti _1-x) O ₃+ 0.69LaAlO ₃ceramic microwave dielectric properties

	x	Sintering temperature (DEG C)	ε r	Q×f(GHz)	τ f(ppm/℃)
						Embodiment 1	0	1470	48.1	34172	7.4
Embodiment 2	0.01	1480	46.6	39290	4.5

Embodiment 3	0.02	1490	45.3	42516	2.3
						Embodiment 4	0.04	1500	44.1	41675	-2.1
Embodiment 5	0.06	1520	43.1	38682	-4.7

Embodiment 6-9

By general formula 0.31Ca (Zr _0.02ti _0.98) O ₃+ 0.69La _1+yalO ₃batching, adopt the preparation method identical with embodiment 1 to prepare microwave dielectric ceramic materials, the chemical formula of the microwave dielectric ceramic materials prepared is 0.31Ca (Zr _0.02ti _0.98) O ₃+ 0.69La _1+yalO ₃wherein y is respectively 0,0.01,0.03,0.05, corresponding embodiment 6-9 respectively, performance test is carried out to the microwave dielectric ceramic materials that embodiment 6-9 prepares, adopts relative permittivity and the quality factor of Agilent8722ET network analyzer (open type cell method) analysis of material, with Agilent8722ET network analyzer and exact constant temperature case, measure the temperature coefficient of resonance frequency of material, Range of measuring temp is-40 DEG C ~ 80 DEG C.Test result is in table 2.

Table 20.31Ca (Zr _0.02ti _0.98) O ₃+ 0.69La _1+yalO ₃ceramic microwave dielectric properties

	y	Sintering temperature (DEG C)	ε r	Q×f(GHz)	τ f(ppm/℃)
						Embodiment 6	0	1490	45.3	42516	2.3
Embodiment 7	0.001	1490	45.4	42832	2.5
						Embodiment 8	0.003	1480	45.5	43938	2.6
Embodiment 9	0.005	1480	45.1	43156	3.2

Embodiment 10-14

By general formula 0.31Ca (Zr _0.02ti _0.98) O ₃+ 0.69La _1.003alO ₃+ zwt%Al ₂o ₃pottery of the present invention is prepared through following steps:

(1) analytical pure chemical reagent CaCO is adopted ₃, ZrO ₂, TiO ₂, La ₂o ₃, Al ₂o ₃for raw material, by 0.31Ca (Zr _0.02ti _0.98) O ₃+ 0.69La _1.003alO ₃chemical general formula mol ratio, the raw material prepared is put into the horizontal ceramic ball mill ball milling of 50KG 16 hours, obtains the slurry of particle diameter 2.3 μm;

(2) slurry crossed by ball milling is pressed into the sheet of diameter 50mm after drying under the pressure of 30MPa, through rising to 1260 DEG C of pre-burnings 4 hours with the temperature rise rate of 4 DEG C/min, obtains burning block;

(3) cross 50 mesh sieves after being pulverized by the block after pre-burning, add the Al of powder quality 0 ~ 0.6% ₂o ₃, 0.5% PVA (PVB, CMC), the sodium polyacrylate of 0.1%, the tbp of 0.05%, take deionized water as ball-milling medium, with 120L Ball-stirring mill ball milling 2 hours, obtain the slurry of particle diameter 1.1 μm;

(4) slurry is after mist projection granulating, is pressed into diameter and is 15mm, is highly the cylinder of 6mm under the pressure of 160MPa;

(5) sample is incubated binder removal process in 2 hours at 650 DEG C, is then warming up to 1480 DEG C and sinters, temperature rise rate is 180 DEG C/h, and soaking time is 6h, can obtain 0.31Ca (Zr _0.02ti _0.98) O ₃+ 0.69La _1.003alO ₃+ zwt%Al ₂o ₃microwave dielectric ceramic materials.

The chemical formula of the microwave dielectric ceramic materials that embodiment 10-14 prepares is 0.31Ca (Zr _0.02ti _0.98) O ₃+ 0.69La _1.003alO ₃+ zwt%Al ₂o ₃wherein z is respectively 0, and 0.1,0.2,0.4,0.6, corresponding embodiment 10-14, carries out performance test to the microwave dielectric ceramic materials that embodiment 10-14 prepares respectively, adopt relative permittivity and the quality factor of Agilent8722ET network analyzer (open type cell method) analysis of material, with Agilent8722ET network analyzer and exact constant temperature case, measure the temperature coefficient of resonance frequency of material, Range of measuring temp is-40 DEG C ~ 80 DEG C.Test result is in table 3.

Table 30.31Ca (Zr _0.02ti _0.98) O ₃+ 0.69La _1.003alO ₃+ zwt%Al ₂o ₃ceramic microwave dielectric properties

	z	Sintering temperature (DEG C)	ε r	Q×f(GHz)	τ f(ppm/℃)
						Embodiment 10	0	1480	45.5	43938	2.6
Embodiment 11	0.1	1480	45.6	44752	1.5
						Embodiment 12	0.2	1480	45.5	45362	-0.4
Embodiment 13	0.4	1480	45.3	46136	-1.7
						Embodiment 14	0.6	1480	45.1	43854	-3.2

Claims (10)

1. a low-loss dielectric adjustable intermediary microwave dielectric ceramic materials, is characterized in that: chemical constitution is: aCa (Zr _xti _1-x) O ₃+ (1-a) La _1+yalO ₃+ zwt%Al ₂o ₃, wherein 0.30≤a≤0.35,0≤x≤0.1,0≤y≤0.01,0≤z≤1.

2. low-loss dielectric according to claim 1 adjustable intermediary microwave dielectric ceramic materials, is characterized in that: 0.30≤a≤0.35,0<x≤0.1,0<y≤0.01,0<z≤1.

3. low-loss dielectric according to claim 1 adjustable intermediary microwave dielectric ceramic materials, is characterized in that: a=0.31,0≤x≤0.06,0≤y≤0.005,0≤z≤0.6.

4. low-loss dielectric according to claim 1 adjustable intermediary microwave dielectric ceramic materials, is characterized in that: a=0.31,0<x≤0.06,0<y≤0.005,0<z≤0.6.

5. low-loss dielectric according to claim 1 adjustable intermediary microwave dielectric ceramic materials, is characterized in that: a=0.31, x=0.02, y=0.03,0.15<z≤0.5.

6., according to the preparation method of the arbitrary described low-loss dielectric adjustable intermediary microwave dielectric ceramic materials of claim 1-5, it is characterized in that: comprise the following steps:

(1) with CaCO ₃, ZrO ₂, TiO ₂, La ₂o ₃, Al ₂o ₃for raw material, all raw materials are put into ball mill ball milling, obtain the slurry of particle diameter 1.5 ~ 2.8 μm;

(2), after the slurry crossed by ball milling is dried, tabletted, through 1240 ~ 1280 DEG C of pre-burnings 2 ~ 6 hours, obtains burning block;

(3) block after pre-burning is pulverized, add the Al of powder quality mark 0 ~ 1% ₂o ₃, PVA, PVB or CMC of 0.3% ~ 1%, the sodium polyacrylate of 0.05% ~ 1% and the tbp of 0.01% ~ 0.2% are ball-milling medium ball milling with deionized water, obtain the slurry of particle diameter 0.6 ~ 1.4 μm;

(4) slurry is after mist projection granulating, is pressed into cylinder;

(5) then carry out binder removal process, then intensification sinters, and can obtain low-loss dielectric adjustable intermediary microwave dielectric ceramic materials.

7. the preparation method of low-loss dielectric according to claim 6 adjustable intermediary microwave dielectric ceramic materials, is characterized in that: in step (1), ball mill is the horizontal ceramic ball mill of 50Kg, and Ball-milling Time is 12 ~ 18 hours.

8. the preparation method of low-loss dielectric according to claim 6 adjustable intermediary microwave dielectric ceramic materials, is characterized in that: being pressed into cylinder in step (4) is: under the pressure of 160MPa, be pressed into diameter be 15mm, be highly the cylinder of 6mm.

9. the preparation method of low-loss dielectric according to claim 6 adjustable intermediary microwave dielectric ceramic materials, it is characterized in that: step (5) is: sample is incubated binder removal process in 2 hours at 650 DEG C, then be warming up to 1450 DEG C ~ 1520 DEG C to sinter, temperature rise rate is 120-180 DEG C/h, soaking time is 4 ~ 6h, can obtain low-loss dielectric adjustable intermediary microwave dielectric ceramic materials.

10. the preparation method of low-loss dielectric according to claim 6 adjustable intermediary microwave dielectric ceramic materials, is characterized in that: comprise the following steps:

(1) with CaCO ₃, ZrO ₂, TiO ₂, La ₂o ₃, Al ₂o ₃for raw material, all raw materials are put into the horizontal ceramic ball mill ball milling of 50KG 12 ~ 18 hours, obtain the slurry of particle diameter 1.5 ~ 2.8 μm;

(2) slurry crossed by ball milling is pressed into the sheet of diameter 50mm after drying under the pressure of 30MPa, through rising to 1240 ~ 1280 DEG C of pre-burnings 2 ~ 6 hours with the temperature rise rate of 4 DEG C/min, obtains burning block;

(3) cross 30 ~ 80 mesh sieves after being pulverized by the block after pre-burning, add the Al of powder quality mark 0 ~ 1% ₂o ₃, PVA, PVB or CMC of 0.3% ~ 1%, the sodium polyacrylate of 0.05% ~ 1% and the tbp of 0.01% ~ 0.2% take deionized water as ball-milling medium, with 120L Ball-stirring mill ball milling 2 ~ 4 hours, obtain the slurry of particle diameter 0.6 ~ 1.4 μm;

(4) slurry is after mist projection granulating, is pressed into diameter and is 15mm, is highly the cylinder of 6mm under the pressure of 160MPa;

(5) sample is incubated binder removal process in 2 hours at 650 DEG C, be then warming up to 1450 DEG C ~ 1520 DEG C and sinter, temperature rise rate is 120-180 DEG C/h, and soaking time is 4 ~ 6h, can obtain low-loss dielectric adjustable intermediary microwave dielectric ceramic materials.