CN100551868C - The preparation method of mixed garnet base ceramic material - Google Patents

Abstract

The preparation method of mixed garnet base ceramic material belongs to luminescent ceramic material field.The present invention selects bigger ion to replace Al ion or Y ion, thereby enlarges lattice parameter, improves adulterated concentration.Preparation is by required set of dispense powder process body, and through solid state reaction, or co-precipitation, burning is synthetic or the spray pyrolysis preparation contains powder required component, that be suitable for, and sintering prepares transparent polymorphic, mixed garnet crystalline ceramics in reducing atmosphere or vacuum again.

Description

The preparation method of mixed garnet base ceramic material

Technical field

The present invention relates to the preparation method of mixed garnet base ceramic material, belong to luminescent ceramic material field.

Technical background

The YAG garnet is a kind of stable material, has good heat-mechanical performance, can high temperature resistant and thermal shocking; Its transparent a wider range (0.18～6 μ m) is so it is a kind of material of luminous substrate preferably.After being found, just be widely used as laser host material and scintillator material.As laser medium material, with regard to overall performance, be difficult to find than YAG better material,

But the YAG monocrystal material also has some shortcomings.Its growth time is very long, needs 1～3 month time growth; Because the fusing point of YAG is higher, need to use the container of expensive Ir crucible as single crystal growing; The core position that has a little crystal face growth to obtain in the monocrystal material of the YAG that growth obtains, the component at this position is different with the component of elsewhere, and therefore operable part only only limits to prepare peripheral part of material, and this causes the productive rate of YAG lower.When being used for laser host material, YAG is not that an ideal is mixed Nd ionic garnet structure, because Nd ³⁺The ionic ionic radius is than Y ³⁺The ionic ionic radius is a lot of greatly, and this not matching causes being difficult to form Nd ₃Al ₂(AlO ₄) ₃And Y ₃Al ₂(AlO ₄) ₃Sosoloid, this has limited the amount that the Nd ion enters lattice, at present the Nd ionic content in the YAG monocrystalline of preparation surpasses 1.1at%.Because the distance of the lattice site among the YAG is less, after the Nd ion enters lattice, thereby because the interaction between the intensive Nd-Nd ion causes the luminous concentration quenching of Nd in addition.

Summary of the invention

The purpose of this invention is to provide the method for a kind of raising than the doping content of heavy ion in garnet structure.

The objective of the invention is to prepare the Y of mixed type, multicenter, disordered structure ₃Al ₅O ₁₂The type stupalith has kept Y simultaneously substantially ₃Al ₅O ₁₂The physical properties of monocrystal material.

The objective of the invention is to take this to prepare the good crystalline ceramics of optical property by adopting different powder preparing technology to obtain the good powder of sintering character.

The method that the present invention prepares the garnet-base transparent ceramic material of high-dopant concentration is to utilize bigger ion partly to replace wherein Al or Y ion, occupy octahedral position by using than heavy ion, increase dodecahedral size, can can improve doping content so that can enter dodecahedral position easily like this than heavy ion.Perhaps use bigger ion (such as Yb, Lu, Tm, Er, Ho, Dy, Gd, Eu, Sm) to replace the Y ion, when mixing than heavy ion, the garnet structure behind these ions and the replacement Y forms sosoloid easily, thereby has realized the doping of high density.

The polycrystalline garnets base transparent ceramic material be by forming garnet structure, is selected from that the oxide compound of Pb, Sr, La, Na, Ce, Pr, Bi, Ca, Nd, Cd, Th, Sm, Eu, Gd, Tb, Dy, Ho, Y, Er, Tm, Yb, Lu, Ce, Mn, Cu, Li, Fe, Co, Mg, Sc, Zr, Hf, Zn, Sn, Ni, Rh, Mn, V, Ta, Nb, Pt, Ru, Cr, Ga, Ti, Ge, As, Si and composition thereof makes.Mix rare earth ion therein obtaining the laserable material of presetted wavelength, or the scintillator stupalith.

In order to improve doping content, replace Al ionic ion and mainly contain: Sm ³⁺, Eu ³⁺, Gd ^{3 +}, Tb ³⁺, Dy ³⁺, Ho ³⁺, Y ³⁺, Er ³⁺, Yb ³⁺, Lu ³⁺, Mn ²⁺, In ³⁺, Fe ²⁺, Li ⁺, Sc ³⁺, Zr ³⁺, Co ²⁺, Zn ²⁺, Cu ²⁺, Mg ²⁺, Hf ⁴⁺, Sn ⁴⁺, Ni ²⁺, Rh ³⁺, Mn ³⁺, Fe ³⁺, V ³⁺, Ta ⁵⁺, Nb ⁵⁺, Pt ⁴⁺, Cr ³⁺, Ga ³⁺, Co ³⁺, Ti ⁴⁺

In order to improve doping content, replace Y ionic ion and mainly contain: Pb ²⁺, Sr ²⁺, La ³⁺, Na ⁺, Ce ³⁺, Pr ³⁺, Bi ³⁺, Ca ²⁺, Nd ³⁺, Cd ²⁺, Th ⁴⁺, Sm ³⁺, Eu ³⁺, Gd ³⁺, Tb ^{3 +}, Dy ³⁺, Ho ³⁺

After above ion partly replaces Al or Y ion, can form a kind of polycentric, unordered garnet structure; Lattice parameter can become greatly, can strengthen the carrying capacity than heavy ion, that is to say, can increase than the doping of heavy ion in lattice; Because inhomogeneous broadening wherein, emission cross section can reduce; Other physicals, particularly thermal conductivity do not have tangible change.And the change of back crystal field owing to mix, the live width of the spectral line of emission can increase, and this realizes the laser of locked mode, short pulse, peak value for the adulterated mixing garnet of Nd possibility is provided.

Before preparation mixed garnet base crystalline ceramics, must prefabricatedly contain powder required stupalith component, that be suitable for.Available method comprises: solid reaction process, coprecipitation method, combustion synthesis method, spray pyrolysis.

The preparation method of solid state reaction of the present invention is: the oxide powder of the required component of weighing again in high temperature (1200～1600 ℃) calcining down, then prepares powder required component, that be suitable for through ball milling.

The preparation method of co-precipitation of the present invention is: with the nitrate of selected component or muriate is soluble in water or the corresponding oxide compound of these elements is dissolved in nitrate or the hydrochloric acid, formation is dissolved with the solution of required element, the solution of the element of dissolving preparation removes by filter insoluble substance, and with distilled water diluting about 0.1～0.2 volumetric molar concentration extremely.Stir the precipitation agent (referring generally to ammoniacal liquor, bicarbonate of ammonia, oxalic acid etc.) that in this mixing solutions, adds enough concentration down, stirred the mixture about 30 minutes, all be precipitated out up to the required element of institute's dissolved basically.Use this mixing solutions of distilled water wash then, by product is removed.In 75 ℃～120 ℃ baking oven dry 8 hours again, obtain the precursor of required powder.Obtain required oxide powder after the calcining.Calcining temperature is generally at 800 ℃～900 ℃, and the time prepared the oxide powder of required component at 2～4 hours.

The preparation method of combustion synthesis method of the present invention is: the nitrate of selected component is soluble in water or the corresponding oxide compound of these elements is dissolved in nitrate, formation is dissolved with the nitrate solution of required element, and the solution of the element of dissolving preparation removes by filter insoluble substance.In solution, add incendiary material (generally being meant organic reagent) again, under 80～100 ℃ of temperature, heat,, obtain transparent gelatinous material until the moisture evaporate to dryness as EDTA, citric acid, glycine, urea etc.Transfer to then in 500～800 ℃ the retort furnace, the meeting burning that gelatinous material is very fast, and emit the smog of brown.Residue obtains tawny powder.800～1000 ℃ of calcinings 2～4 hours, prepare the oxide powder of required component again.

Spray pyrolysis preparation method of the present invention is: the selected corresponding nitrate of component element is dissolved in solvent, forms the nitrate solution that is dissolved with required element.Solvent comprises water, ethanol, propyl alcohol.In solution, add incendiary material, precipitation agent.Incendiary material generally is meant organic reagent, as EDTA, citric acid, glycine, urea etc.Precipitation agent generally is meant urea, oxalic acid two formicesters, hexamethylenetetramine etc.Spray into spraying gun in 800～1000 ℃ the retort furnace, can obtain oxide powder.Spraying gun comprises ultrasonic atomizer, filters expansion spraying gun, rotary atomizer, blast atomizer.800～1000 ℃ of calcinings 2～4 hours, prepare the oxide powder of required component.

Oxide powder through dry-pressing or hot pressing or etc. the static pressure briquetting, the hot pressed pressure of dry-pressing is 100～200Kg/cm ²Hydrostatic pressure is～2000Kg/cm ²Biscuit is at vacuum or H ₂Sintering in the atmosphere, heat-up rate are 100 ℃～700 ℃/hour, 1700～2000 ℃ of sintering temperatures, and under sintering temperature, be incubated 1～3 hour, cool to room temperature.

Sintering transparent ceramics also can adopt to be included in to be lower than and keep the heating schedule of for some time to prepare under the final sintering temperature.Usually, biscuit is warmed up to 1500～1700 ℃ 300～400 ℃/hour heating rate, is incubated 1～20 hour, and then temperature is appreciated 1700～2000 ℃, carries out final sintering 1～10 hour.Test block behind the sintering is arrived room temperature at 2～10 hours internal cooling.

Description of drawings

Fig. 1 is the XRD figure of YAG behind the doping Pr and YSAG mixing garnet crystalline ceramics, after mixing Sc among the figure, the peak of XRD obviously moves to low-angle direction, that is lattice parameter becomes big, do not have the peak of second phase to occur among the figure, the doping that can realize Pr2at% in the mixed garnet at least is described.

Fig. 2 YAG and YSAG mixing garnet-base transparent ceramic lattice parameter as seen from the figure, are mixed and are mixed garnet lattice parameter behind the Sc and can increase.

The mix photo of mixing garnet crystalline ceramics of Nd (2at%) of Fig. 3

The mix photo of mixing garnet crystalline ceramics of Eu (4at%) of Fig. 4

The mix photo of mixing garnet crystalline ceramics of Pr (2at%) of Fig. 5

Fig. 6 mixes garnet emmission spectrum for mixing Nd (1at%) back YAG and YSAG.Among the figure, near the emission peak 1064 is with the increase of Sc volume, and it is big that peak width obviously becomes.This is owing to inhomogeneous broadening causes.

Specific embodiments

Embodiment 1

Nd:Y ₃Sc _xAl _(5-x)O ₁₂Mix the preparation of garnet crystalline ceramics: Y, Al, Sc, Nd nitrate is soluble in water, form the solution that is dissolved with required element, and with distilled water diluting to about 0.1mol/L.Stir the ammoniacal liquor that in this mixing solutions, adds enough concentration down, regulate pH value to 7～8, stir, form sedimentary precursor, with by product, stirred this mixture about 30 minutes, up to the dissolved Y of institute, Al, Sc, Nd are precipitated out basically as precipitating action.Use this mixing solutions of distilled water wash then, by product is removed.In baking oven dry 8 hours again, obtain the precursor of required powder.Calcining temperature is generally at 900 ℃, and the time is 2 hours.Obtain required oxide powder after the calcining.

Oxide powder is through dry-pressing or balanced heating and pressurizing briquetting, to improve its biscuit density.Moulding stock reply stupalith component is inertia, to avoid causing untoward reaction or pollution.The moulding stock that is suitable for generally has aluminum oxide, silicon carbide and some metal such as molybdenum, Wimet or nickel matter alloy.Biscuit is at 100Kg/cm ²Pressure under compression moulding, after the dry-pressing at (2000Kg/cm such as static pressure such as process grade ²) handle, with the density of further raising biscuit.If used grinding aid or binding agent in advance, then before sintering, to carry out oxide treatment, to remove organic additive.Biscuit in adopting the High Temperature Furnaces Heating Apparatus of tungsten heating element in vacuum sintering, heat-up rate is 700 ℃/hour, 1800 ℃ of through sintering temperatures, and under sintering temperature, be incubated 6 hours, to increase the densification degree and to improve optical clarity, the test block cool to room temperature behind the sintering.

Embodiment 2

Ce:Lu ₃Sc _xAl _(5-x)O ₁₂Mix the preparation of garnet crystalline ceramics: Lu, Al, Sc, Ce nitrate is soluble in water, form the nitrate solution that is dissolved with required element, remove by filter insoluble substance.In solution, add a certain amount of glycine again, under 100 ℃ of temperature, heat,, obtain transparent gelatinous material until the moisture evaporate to dryness.Transfer to then in 500 ℃ the retort furnace, the meeting burning that gelatinous material is very fast, and emit the smog of brown.Residue obtains tawny powder.1000 ℃ of calcinings 2 hours, prepare the oxide powder of required component again.

Oxide powder is through dry-pressing or balanced heating and pressurizing briquetting, to improve its biscuit density.Biscuit is at 200Kg/cm ²Pressure under compression moulding, after the dry-pressing at (2000Kg/cm such as static pressure such as process grade ²) handle, with the density of further raising biscuit.Biscuit in adopting the High Temperature Furnaces Heating Apparatus of tungsten heating element in H ²Sintering in the atmosphere, heat-up rate are 700 ℃/hour, 1800 ℃ of through sintering temperatures, and under sintering temperature, be incubated 6 hours, to increase the densification degree and to improve optical clarity, the test block cool to room temperature behind the sintering.

Claims (2)

1, the preparation method of mixed garnet base ceramic material comprises the steps:

(1) introduces the Al ion that replaces in the garnet base ceramic material or/and Y ionic ion with the form of oxide compound;

Comprise in order to replace Al ionic ion: Sm ³⁺, Eu ³⁺, Gd ³⁺, Tb ³⁺, Dy ³⁺, Ho ³⁺, Y ³⁺, Er ³⁺, Yb ³⁺, Lu ³⁺, Mn ²⁺, In ³⁺, Fe ²⁺, Li ⁺, Sc ³⁺, Zr ³⁺, Co ²⁺, Zn ²⁺, Cu ²⁺, Mg ²⁺, Hf ⁴⁺, Sn ⁴⁺, Ni ²⁺, Rh ³⁺, Mn ³⁺, Fe ³⁺, V ³⁺, Ta ⁵⁺, Nb ⁵⁺, Pt ⁴⁺, Cr ³⁺, Ga ³⁺, Co ³⁺, Ti ⁴⁺

Comprise in order to replace Y ionic ion: Pb ²⁺, Sr ²⁺, La ³⁺, Na ⁺, Ce ³⁺, Pr ³⁺, Bi ^{3 +}, Ca ²⁺, Nd ³⁺, Cd ²⁺, Th ⁴⁺, Sm ³⁺, Eu ³⁺, Gd ³⁺, Tb ³⁺, Dy ³⁺, Ho ³⁺

(2) the selected corresponding oxide compound of component element is dissolved in nitric acid, forms the nitrate solution that is dissolved with required element; In solution, add incendiary material;

(3) under 80～100 ℃ of temperature, heat,, obtain transparent gelatinous material until the moisture evaporate to dryness;

(4) obtain tawny powder precursor 500～800 ℃ muffle furnace internal combustion;

(5), prepare the oxide powder of required component 800～1000 ℃ of calcinings 2～4 hours;

(6) to this powder cold pressing, hot pressing or etc. static pressure make it into piece;

(7) sintering in reducing atmosphere or vacuum.

2, the preparation method of mixed garnet base ceramic material is characterized in that:

(1) introduces the Al ion that replaces in the garnet base ceramic material or/and Y ionic ion with the form of nitrate;

Comprise in order to replace Al ionic ion: Sm ³⁺, Eu ³⁺, Gd ³⁺, Tb ³⁺, Dy ³⁺, Ho ³⁺, Y ³⁺, Er ³⁺, Yb ³⁺, Lu ³⁺, Mn ²⁺, In ³⁺, Fe ²⁺, Li ⁺, Sc ³⁺, Zr ³⁺, Co ²⁺, Zn ²⁺, Cu ²⁺, Mg ²⁺, Hf ⁴⁺, Sn ⁴⁺, Ni ²⁺, Rh ³⁺, Mn ³⁺, Fe ³⁺, V ³⁺, Ta ⁵⁺, Nb ⁵⁺, Pt ⁴⁺, Cr ³⁺, Ga ³⁺, Co ³⁺, Ti ⁴⁺

Comprise in order to replace Y ionic ion: Pb ²⁺, Sr ²⁺, La ³⁺, Na ⁺, Ce ³⁺, Pr ³⁺, Bi ^{3 +}, Ca ²⁺, Nd ³⁺, Cd ²⁺, Th ⁴⁺, Sm ³⁺, Eu ³⁺, Gd ³⁺, Tb ³⁺, Dy ³⁺, Ho ³⁺

(2) the selected corresponding nitrate of component element is dissolved in solvent, forms the nitrate solution that is dissolved with required element; In solution, add incendiary material, precipitation agent;

(3) spray in 800～1000 ℃ the retort furnace with spraying gun;

(4), prepare the oxide powder of required component 800～1000 ℃ of calcinings 2～4 hours;

(5) to this powder cold pressing, hot pressing or etc. static pressure make it into piece;

(6) sintering in reducing atmosphere or vacuum.

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