CN104528824B

CN104528824B - A kind of produce Zirconium powder and the method for ammonium salt and product simultaneously

Info

Publication number: CN104528824B
Application number: CN201510004777.XA
Authority: CN
Inventors: 游志雄
Original assignee: WUHAN TUOBAISHI TECHNOLOGY Co Ltd
Current assignee: Wuhan Tuobashi Nanomaterials Co ltd
Priority date: 2015-01-06
Filing date: 2015-01-06
Publication date: 2016-08-24
Anticipated expiration: 2035-01-06
Also published as: CN104528824A

Abstract

The invention discloses a kind of production Zirconium powder simultaneously and the method for ammonium salt and product.Said method comprising the steps of: zirconium precursor liquid solution, heating are prepared the reactant mixture Han zirconium by (1)；(2) will contain zirconium reactant mixture, regulation pH is less than or equal to 2.0, and solid-liquid separation obtains containing zirconium solid and solution A；(3) zirconium solid will be contained to be configured to containing zirconium serosity, and add metal-oxide M_xO_yPresoma；(4) will contain zirconium serosity, regulation pH value is more than or equal to 6.0, and solid-liquid separation obtains main component precursor solid and solution B；(5) main component precursor is dried and calcines, after washing pelletize, i.e. prepare Zirconium powder；(6) solution A and solution B being merged, use mineral acid or inorganic base regulation pH between 5.0 to 8.0, transpiring moisture separates out ammonium salt.The method that the present invention provides, by-product recovery rate is high, and economic benefit is obvious, environmental friendliness, and the product purity that it is prepared is high.

Description

A kind of produce Zirconium powder and the method for ammonium salt and product simultaneously

Technical field

The invention belongs to technical field of biological material, produce Zirconium powder more particularly, to one simultaneously Method and product with ammonium salt.

Background technology

Solid solution have the zirconia ceramics of the metal-oxide additives such as yittrium oxide because of have excellent mechanics, Calorifics, optics, electrical properties and chemical stability, and it is widely used in high-temperature structural material, height The fields such as temperature optical element, oxygen sensitive element, high-temperature oxide membrane cell, biological structure material.

The existing production technology of the zirconia ceramics of the metal oxide stabilities such as yittrium oxide typically uses chemistry Method, electric smelting method, coprecipitation etc..These methods are all not involved with how processing and produce at zirconium oxide During the by-product that generates, be also not involved with water in production process recycles problem.If By-product in production process is directly discharged in environment, natural water and composition of the soil can be changed, Cause environmental pollution.

Summary of the invention

For disadvantages described above or the Improvement requirement of prior art, the invention provides one and produce oxygen simultaneously Change zirconium powder body and the method for ammonium salt and product, its object is to by twice solid-liquid separation and reclaim separation After liquid phase carry out post processing, thus solve existing Zirconium powder production method and cannot reclaim by-product The cyclic utilization rate of thing, chemical reagent and pure water is low and by-product causes the technology of environmental pollution to ask Topic.

For achieving the above object, according to one aspect of the present invention, it is provided that one produces oxidation simultaneously Zirconium powder body and the method for ammonium salt, comprise the following steps:

(1) by zirconium precursor liquid solution, there is chemical reaction in heating so that zirconium is cation ic-converted to be become to aoxidize Zirconium, zirconium hydroxide or its hydrate, react to zirconium cationic monomer conversion more than or equal to 90%, prepare Containing zirconium reactant mixture；Described zirconium precursor liquid solution, its zirconium cation concn is less than or equal to 5.0 mol/L；

(2) by step (1) prepare containing zirconium reactant mixture, with mineral acid, inorganic base or urine Element regulation pH, less than or equal to 2.0, then carries out solid-liquid separation process, obtains containing zirconium solid and solution A；

(3) the solid pure water containing zirconium prepared in step (2) is configured to mass concentration 5% to 70% Between containing zirconium serosity, and according to required stoichiometric proportion to described containing in zirconium serosity add burning Thing M_xO_yPresoma so that M in product_xO_yAccount for key component ZrO₂Molar percentage less than or Equal to one in yttrium, calcium, magnesium, cerium, praseodymium, vanadium, molybdenum and titanium elements of 15 moles of %, M or Multiple；

(4) by step (3) prepares containing zirconium serosity, regulate with mineral acid, inorganic base or carbamide PH value be more than or equal to 6.0, then carry out solid-liquid separation process, obtain main component precursor solid and Solution B；

(5) the main component precursor solid prepared in step (4) is dried and calcines, wash pelletize After i.e. prepare described Zirconium powder.

(6) solution A prepared in step (2) and step (4) and solution B are merged, use Mineral acid or inorganic base regulation pH are between 5.0 to 8.0, and transpiring moisture separates out ammonium salt.

Preferably, described method, its step (2), step (4) and/or step (6) are described inorganic Acid conventional example hydrochloric acid, nitric acid, sulphuric acid, phosphoric acid etc..

Preferably, described method, its step (2), step (4) and/or step (6) are described inorganic Alkali is conventional such as ammonium hydroxide.

Preferably, described method, its step (2), step (4) and/or step (6) use nitrogenous Mineral acid or inorganic base regulation pH value.

Preferably, described method, its step (1) described zirconium precursor body be basic zirconium chloride, zirconium chloride, The combination of one or more in zirconium nitrate, Disulfatozirconic acid., zirconium carbonate and zirconium phosphate.

Preferably, described method, its described step (1) reaction temperature between 40 DEG C to 400 DEG C, Pressure is between 0.1MPa to 3.25MPa；Preferable temperature is between 50 DEG C to 250 DEG C, and pressure exists Between 0.1MPa to 1.2MPa；More preferably temperature is between 80 DEG C to 150 DEG C, and pressure is at 0.1MPa Between 0.5MPa.

Preferably, described method, its described step (5) calcining heat between 800 DEG C to 1100 DEG C, Heating rate, between 200 DEG C/h to 1200 DEG C/h, maintains calcining maximum temperature 0.5 hour to 5 hours.

It is another aspect of this invention to provide that provide a kind of Zirconium powder, provide according to the present invention Prepared by the method simultaneously producing Zirconium powder and ammonium salt.

Preferably, described Zirconium powder, its key component is ZrO₂+HfO₂+M_xO_y, wherein M_xO_y For metal-oxide, its content less than or equal to 15 moles of %, M selected from yttrium, calcium, magnesium, cerium, praseodymium, One or more in vanadium, molybdenum and titanium elements, described main component accounts for the percent mass of Zirconium powder Ratio more than 90%, other metal-oxides every kind account for the mass fraction of described Zirconium powder less than or Equal to 0.01%.

Preferably, described Zirconium powder, its other metal-oxides described are silicon dioxide, oxidation Ferrum, aluminium oxide, Cs2O, cobalt oxide, strontium oxide, oxidation polonium, radium oxide, urania, oxidation Thorium, plutonium oxide, fracium oxide.

Preferably, described Zirconium powder, wherein chlorine element mass percent is less than or equal to 0.05%.

Preferably, described Zirconium powder, its ratio radiation activity recorded according to ISO 13356:2008 Less than or equal to 100Bq/kg.

Preferably, described Zirconium powder, the four directions of its Zirconium powder and the content of cube crystalline phase are big In or equal to 90%.

In general, by the contemplated above technical scheme of the present invention compared with prior art, it is possible to Obtain following beneficial effect:

(1) method that the present invention provides, during chemical method synthesis is zirconic, can be by all The liquid of solid-liquid separation process collects, and regulates it by adding mineral acid, inorganic base or carbamide PH so that it is pH is more than or equal to 5.0 less than or equal to 8.0, and then the way by evaporation is permissible Reclaim ammonium salt, and Water circulation condensation obtained is to zirconium oxide production technology.The most both warp can have been increased Ji benefit, can reduce again the production technology impact on environment.Thus solve chemical method and produce oxidation Zirconium technique affects problem to environment.

(2) method that the present invention provides, it is possible to separate the impurity in zirconium oxide preparation, reduce chlorine element Discharge, thus reduce pollution to environment.Highly purified Zirconium powder can be produced in a large number simultaneously, Preparation for high purity ceramic.

Accompanying drawing explanation

Fig. 1 is to produce zirconium oxide and the preparation process schematic diagram of ammonium salt while the present invention provides；

Fig. 2 is embodiment 1 and the prepared zirconic X-ray diffracting spectrum of comparative example 11.

Detailed description of the invention

In order to make the purpose of the present invention, technical scheme and advantage clearer, below in conjunction with accompanying drawing And embodiment, the present invention is further elaborated.Should be appreciated that described herein specifically Embodiment only in order to explain the present invention, is not intended to limit the present invention.Additionally, it is disclosed below Just may be used as long as technical characteristic involved in each embodiment of the present invention does not constitutes conflict each other To be mutually combined.

The present invention produces Zirconium powder and the method for ammonium salt, as it is shown in figure 1, include while providing Following steps:

(1) by zirconium precursor liquid solution, there is chemical reaction in heating so that zirconium is cation ic-converted to be become to aoxidize Zirconium, zirconium hydroxide or its hydrate, react to zirconium cationic monomer conversion more than or equal to 90%, prepare Containing zirconium reactant mixture；Described zirconium precursor liquid solution, its zirconium cation concn is less than or equal to 5.0 mol/L；The pH of zirconium precursor liquid solution is regulated and controled with mineral acid, inorganic base or carbamide.

Described zirconium precursor body is basic zirconium chloride, zirconium chloride, zirconium nitrate, Disulfatozirconic acid., zirconium carbonate and phosphoric acid The combination of one or more of zirconium.The concentration of zirconium precursor liquid solution is less than or equal to 5.0 mol/L, excellent Be selected between 0.1 mol/L to 2.0 mol/L, more preferably 0.3 mol/L to 1.2 mol/L it Between.

The pH of reaction solution is less than or equal to 12.0, and preferably pH is less than or equal to 10.0, more preferably pH Less than or equal to 8.0.

Reaction temperature is between 40 DEG C to 400 DEG C, and pressure is between 0.1MPa to 3.25MPa；Preferably Temperature is between 50 DEG C to 250 DEG C, and pressure is between 0.1MPa to 1.2MPa；More preferably temperature exists Between 80 DEG C to 150 DEG C, pressure is between 0.1MPa to 0.5MPa.

Response time is as the criterion with the conversion ratio of zirconium ion in reaction solution, it is to be ensured that the conversion ratio of zirconium ion More than or equal to 90%, more preferably more than or equal to 95%, optimal it is more than or equal to 98%. If the conversion ratio of zirconium is less than 90%, then on the one hand, can cause during follow-up solid-liquid separation The loss of unconverted zirconium ion, thus reduce the utilization ratio of raw material, increase the manufacture of Zirconium powder Cost；On the other hand, unconverted zirconium ion can enter ammonium salt manufacturing process during solid-liquid separation, Together separate out with ammonium salt and affect the purity of ammonium salt.

If the pH of solution is more than 2.0, understands the metal cation beyond some zirconium and form precipitation, Cause solid-liquid separation can not fully remove the metal impurities beyond zirconium, thus cause product zirconia powder The content overproof or more higher than radiation activity of impurity in body.

The conversion ratio of so-called zirconium cation refers to what zirconium precursor body aqueous solution converted during reacting by heating Zirconium ion amount, divided by the primary quantity before reaction, is the value calculated according to following formula.

Here C_iThe concentration of zirconium, C before finger reacting by heating_fThe concentration of zirconium after finger reacting by heating, V refers to reaction The volume of solution.

(2) by step (1) prepare containing zirconium reactant mixture, with mineral acid, inorganic base or urine Element regulation pH, less than or equal to 2.0, then carries out solid-liquid separation process, obtains containing zirconium solid and solution A.Conventional mineral acid example hydrochloric acid, nitric acid, sulphuric acid, phosphoric acid etc.；Conventional inorganic base such as ammonium hydroxide, i.e. Ammonia；Preferably, nitrogenous mineral acid or inorganic base are used.

This method does not limit the technological means of solid-liquid separation, if can be sufficiently separated containing zirconium solid and One or the combination of technology such as the technological means of liquid such as centrifugal, filtration, filter pressing, ultrafiltration etc. can be selected With.

(3) the solid pure water containing zirconium prepared in step (2) is configured to mass concentration 5% to 70% Between containing zirconium serosity, and according to required stoichiometric proportion to described containing in zirconium serosity add burning Thing M_xO_yPresoma so that M in product_xO_yAccount for key component ZrO₂Molar percentage less than or Equal to 15 moles of %, preferably between 2 moles of % to 8 mole of %, more preferably at 2.5 moles of % to 3.5 Between mole %, M one or many in yttrium, calcium, magnesium, cerium, praseodymium, vanadium, molybdenum and titanium elements Kind.Pure water containing zirconium River Bank Stability is that (U.S. faces for the one-level that specifies according to GB GB 6682-2000 The Type I of bed pathology meeting CAP is suitable) pure water.

Containing zirconium River Bank Stability method, (U.S. faces the one-level that addition specifies according to GB GB 6682-2000 The Type I of bed pathology meeting CAP is suitable) pure water, between mass concentration preferably 20% to 60%, more Between preferably 35% to 50%.

Metal-oxide M_xO_yPresoma be that the oxide of respective metal, hydroxide, salt etc. all may be used To select.Its form added both can be compound itself, it is also possible to be to prepare with this compound Solution, it is also possible to be the nanometer or this burning of micron size existed with the form such as colloidal sol or gel The granule of thing.

(4) by step (3) prepares containing zirconium serosity, regulate with mineral acid, inorganic base or carbamide PH value is more than or equal to 6.0, preferably greater than or equal to 7.0, more preferably equal to or greater than 8.0, then Carry out solid-liquid separation process, obtain main component precursor solid and solution B.Conventional mineral acid example hydrochloric acid, Nitric acid, sulphuric acid, phosphoric acid etc.；Conventional inorganic base such as ammonium hydroxide, i.e. ammonia；Preferably, employing contains The mineral acid of nitrogen or inorganic base.

Regulation pH value so that the metal oxide precursor of interpolation changes into precipitation, it is to avoid follow-up Run off during solid-liquid separation, thus affect the zirconic structural stability of product.Through fully After stirring, the serosity of aforementioned regulation and control pH is carried out solid-liquid separation.

The technological means of solid-liquid separation, to be sufficiently separated the technology of solid and liquid, as being centrifuged, The one of the technology such as filtration, filter pressing, ultrafiltration or combination.

From containing zirconium solid removes the aniones such as chlorine, come from during subsequent calcination can be significantly decreased The discharge of the poisonous and corrosive gas of anion, thus alleviate the corrosion to process units and to environment Pollution.

Described drying steps, as long as the form of solids is not brought the dry technology significantly changed, As air-dried, oven drying at low temperature, be spray-dried, be vacuum dried, lyophilization, the one of supercritical drying Or combine and can select.

Described calcining step, the atmosphere to calcining, can be in atmosphere, it is also possible at noble gas atmosphere Carry out in enclosing.Mode of heating can use electrical heating, chemical combustion heating, microwave heating etc. one or More than one.The highest calcining heat is between 600 DEG C to 1100 DEG C, preferably at 850 DEG C to 1050 DEG C Between, more preferably between 900 DEG C to 1000 DEG C, and keep 0.5 hour extremely in the highest calcining heat 5.0 hours, preferably 1.0 hours to 3.0 hours, more preferably between 1.5 hours to 2.5 hours.Forge The heating rate burnt may be set between 200 DEG C/h to 1200 DEG C/h, preferably at 300 DEG C/h extremely Between 600 DEG C/h.

One-level (the U.S. clinical pathology that described washing step specifies according to GB GB 6682-2000 Can the Type I of CAP suitable) pure water carries out drip washing, with remove be attached to zirconia powder surface can Molten cation and anion.

Described granulation step, can add according to GB GB 6682-2000 regulation Zirconium powder One-level (the Type I of U.S. clinical pathology meeting CAP is suitable) pure water carries out wet type physical pulverization, thing Manage the toughener that can also add including nano-particle including aluminium oxide etc. when pulverizing and/or include polyethylene The binding agents such as alcohol, polyacrylic acid, polymethylacrylic acid, paraffin, cellulose and its derivates, until After obtaining the particle diameter wanted, then it is spray-dried.

(6) solution A prepared in step (2) and step (4) and solution B are merged, use nothing Between machine acid or inorganic base regulation pH to 5.0 to 8.0, transpiring moisture separates out ammonium salt.It is specifically grasped As: the solution A and the solution B that prepare in step (2) and step (4) are mixed, adds Enter mineral acid example hydrochloric acid, nitric acid, sulphuric acid, phosphoric acid etc. or inorganic base such as ammonium hydroxide etc. or carbamide is adjusted Control its pH so that its pH is between 5.0 to 8.0, preferably between 6.0 to 7.5, more preferably exist Between 6.5 to 7.5.Evaporate above-mentioned solution until the solids content forming serosity is more than or equal to 50%, Preferably greater than or equal to 70%, more preferably equal to or greater than 90%.And the water of evaporation is reclaimed by condensation Point, and the Water Cycle of recovery is used any step needing water of above-mentioned zirconium oxide production technology Suddenly.Above-mentioned serosity is dried process, it is possible to prepare ammonium salt.

Conventional mineral acid example hydrochloric acid, nitric acid, sulphuric acid, phosphoric acid etc.；Conventional inorganic base such as ammonium hydroxide, I.e. ammonia.

This step can make this method reclaim ammonium salt while prepared Zirconium powder, and condensation is obtained Water circulation to zirconium oxide production technology.The most both can increase economic benefit, production can have been reduced again The technique impact on environment.

According to the product obtained by the zirconia powder preparation that the present invention provides, its key component is ZrO₂+HfO₂+M_xO_y, wherein M_xO_yFor metal-oxide, its content is less than or equal to 15 moles of %, Preferably between 2 moles of % to 8 mole of %, more preferably between 2.5 moles of % to 3.5 mole of %, M One or more in yttrium, calcium, magnesium, cerium, praseodymium, vanadium, molybdenum and titanium elements, described main one-tenth Divide and account for the mass percent of Zirconium powder more than 90%.Other metal-oxides, as silicon dioxide, Ferrum oxide, aluminium oxide, Cs2O, cobalt oxide, strontium oxide, oxidation polonium, radium oxide, urania, Thorium oxide, plutonium oxide, fracium oxide etc., every kind of mass fraction accounting for described Zirconium powder less than or etc. In 0.01%, preferably lower than or equal to 0.005%, more preferably less than or equal to 0.001%；Chlorine unit quality Amount percentage ratio is less than or equal to 0.05%.

Described Zirconium powder, the ratio radiation activity recorded according to ISO 13356:2008 is less than or equal to 100Bq/kg, preferably lower than or equal to 50Bq/kg.Wherein four directions and cube crystalline phase content more than or Equal to 90%, preferably greater than or equal to 95%, more preferably equal to or greater than 99%.

Described Zirconium powder, the ratio radiation activity recorded according to ISO 13356:2008 is less than or equal to 100Bq/kg, preferably lower than or equal to 50Bq/kg.Its four directions and cube crystalline phase content more than or etc. In 90%, preferably greater than or equal to 95%, more preferably equal to or greater than 99%.

Described metal-oxide M_xO_y, M be selected from yttrium (Y), calcium (Ca), magnesium (Mg), cerium (Ce), The one of the elements such as praseodymium (Pr), vanadium (V), molybdenum (Mo), titanium (Ti) or a combination thereof, x and y be greater than 0 and Integer less than or equal to 10, its molar percentage accounting for key component refers to the value being calculated as follows out.

The content of described four directions and cube crystalline phase refers to utilize the powder x-ray diffraction (XRD) recorded (111) and (11-1) face of monocline crystalline phase in collection of illustrative plates, (111) face of tetragonal phase, cube crystalline phase The diffracted intensity in (111) face, be calculated as follows the value obtained.

Wherein, I is the diffracted intensity of corresponding lattice, subscript m, t and c refer to respectively monocline, four directions and cube Crystalline phase.As the zirconium oxide of structural ceramic material with tetragonal phase for the most preferable.Its crystalline phase, outward appearance (face Normal complexion light transmittance) and water resistant heat deterioration performance depend in building-up process add solid solution burning The kind of thing and amount.

Chlorine element mass percent refers to, by the Zirconium powder of certain massWith HNO₃ Clearing up at 150 DEG C with the mixed acid of HF and the silver nitrate aqueous solution of excess, zirconium powder body to be oxidized is complete After dissolving, measure surplus by methods such as induced plasma emission spectrum (ICP) or Atomic Absorption (AS) Remaining Ag⁺Amount, thus inverse goes out the chlorine ions in Zirconium powderFurther according to following formula The value calculated.

In described Zirconium powder, owing to hafnium is difficult to separate with zirconium, therefore hafnium is always deposited with certain proportion , do not affect Zirconium powder properties.

If the content of metallic additions is the lowest, just it is not enough to stop zirconic Tetragonal to single The conversion of monoclinic phase, the tetragonal content causing zirconium oxide product is on the low side.If on the other hand metal adds If the content of thing is the highest, then metallic additions can be caused in the segregation at zirconia grains edge, impact The sintering character of Zirconium powder.In order to improve biocompatibility and the safety of zirconia ceramics powder body, The metals content impurity beyond above-mentioned metal-oxide additive should be reduced, particularly to pottery as far as possible The influential aluminium oxide of sintering character, silicon oxide, the influential ferrum oxide of outward appearance on pottery, and Content on the ratio radiation influential caesium of activity, cobalt, strontium, radium, uranium and the thorium etc. of pottery.

The Zirconium powder that the present invention provides can prepare press body by compacting sintering, and therefore its composition and ratio are put Penetrate activity identical with described Zirconium powder.This press body, can prepare ceramic material further, its tool There are excellent mechanical performance and biocompatibility, lower than radiation activity.Described ceramic material, the suitableeest For as bioceramic material, the life-span is long, radiates low, is used for example as grinding blank into artificial tooth processing, Concrete such as orthodontic bracket, or artificial bone turned blank, specifically such as bioceramices such as artificial femur joints Material.

It is below embodiment:

Embodiment 1

The preparation method of a kind of Zirconium powder, comprises the following steps:

(1) by the zirconium oxychloride solution of 0.5mol/L, heating occur chemical reaction so that zirconium sun from Son changes into zirconium oxide, zirconium hydroxide or its hydrate, reacts to zirconium cationic monomer conversion 98.8%, system Zirconium reactant mixture must be contained.

Reacting by heating temperature 150 DEG C, pressure 0.41MPa.

(2) by step (1) prepare containing zirconium reactant mixture, regulate pH=1.0 with ammonia, so Rear employing is centrifuged 30 minutes under 6000 × g centrifugal force, carries out solid-liquid separation process, obtains containing zirconium solid Body and solution A.

(3) the solid pure water containing zirconium prepared in step (2) being configured to mass concentration is 45% Containing zirconium serosity, and to add relative to key component be 5.6 moles of % Yttrium chloride(Y2Cl6)s.

(4) by step (3) prepares containing zirconium serosity, use ammonia regulation pH=8.5, then exist It is centrifuged 30 minutes under 4000 × g centrifugal force, carries out solid-liquid separation process, obtain main component precursor solid And solution B.

(5) spray after the main component precursor solid pure water prepared in step (4) being configured to serosity Mist is dried and calcines, and i.e. prepares described Zirconium powder after washing pelletize.

Described calcining step, in air atmosphere, uses electrical heating.The highest calcining heat 1000 DEG C, Keep 2.0 hours in the highest calcining heat.The heating rate of calcining can be set as 300 DEG C/h.

One-level (the U.S. clinical pathology that described washing step specifies according to GB GB 6682-2000 Can the Type I of CAP suitable) pure water carries out drip washing 3 times.

Described granulation step, can add pure water to Zirconium powder and carry out, put in ball grinder, with Ball milling 5 hours together with the zirconia ball of a diameter of 6mm with 2mm, add toughener during physical pulverization Aluminum oxide nanoparticle (particle diameter is between 10 to 20nm) and binding agent polyacrylic acid, until averagely After particle diameter is less than 1.0 microns, then it is spray-dried, obtains the powder body that mean diameter is 3.5 microns.

(6) solution A prepared in step (2) and step (4) and solution B are merged, use ammonia Water regulation pH=7.0, evaporates above-mentioned solution until the solids content forming serosity is 95%.And by cold The solidifying moisture reclaiming evaporation, uses appointing of above-mentioned zirconium oxide production technology by the Water Cycle of recovery What is the need for and want the step of water.Above-mentioned serosity is dried process, ammonium chloride can be prepared, production Ammonium chloride is 96% relative to the response rate of chlorine element in raw material basic zirconium chloride.

The Zirconium powder prepared according to the method described above, its key component is ZrO₂+HfO₂+Y₂O₃, Y₂O₃The molar percentage accounting for main component is 2.8%, and described main component accounts for The mass percent of Zirconium powder is 99.9%.Containing other metal oxide contents, specifically it is shown in Table 1, Chlorine element mass percent is 0.035%.

Other metal oxide contents of table 1 (mass fraction)

Note: detection is limited to 0.00001%

Described Zirconium powder, the ratio radiation activity recorded according to ISO 13356:2008 is 80Bq/kg.

Described Zirconium powder, the result characterized with X-ray diffraction shows, the inventive method prepares Zirconium powder is calcined 2 hours at 1000 DEG C, and its crystalline phase is the Tetragonal of 100%, according to thanking to Le equation The grain size that (Scherrer equation) calculates is 28.3nm.

Embodiment 2

(1) by the zirconium nitrate solution of 1.2mol/L, there is chemical reaction in heating so that zirconium cation turns Chemical conversion zirconium oxide, zirconium hydroxide or its hydrate, reaction, to zirconium cationic monomer conversion 99.2%, prepares and contains Zirconium reactant mixture.

Reacting by heating temperature 250 DEG C, pressure 1.5MPa.

(2) by step (1) prepare containing zirconium reactant mixture, regulate pH=1.6 with carbamide, so After under 6000 × g centrifugal force centrifugal 30 minutes, carry out solid-liquid separation process, obtain containing zirconium solid and Solution A.

(3) the solid pure water containing zirconium prepared in step (2) being configured to mass concentration is 50% Containing zirconium serosity, and add relative to the Yttrium chloride(Y2Cl6) that key component is 5.0 moles of %.

(4) by step (3) prepares containing zirconium serosity, use ammonia regulation pH=8.0, then exist It is centrifuged 30 minutes under 5000 × g centrifugal force, carries out solid-liquid separation process, obtain main component precursor solid And solution B.

(5) the main component precursor solid prepared in step (4) is vacuum dried and calcines, washing Described Zirconium powder is i.e. prepared after pelletize.

Described calcining step, in air atmosphere, uses electrical heating.The highest calcining heat 950 DEG C, The highest calcining heat keeps 2.5 hours.The heating rate of calcining can be set as 200 DEG C/h.

Described granulation step, can add pure water to Zirconium powder and carry out, put in ball grinder, with Ball milling 5 hours together with the zirconia ball of a diameter of 6mm with 2mm, add toughener during physical pulverization Aluminum oxide nanoparticle (particle diameter 10 to 20nm) and adhesive polyethylene alcohol, until mean diameter is little After 1.0 microns, then it is spray-dried.

(6) solution A prepared in step (2) and step (4) and solution B are merged, use ammonia Water regulation pH=8.0, evaporates above-mentioned solution until the solids content forming serosity is 90%.And by cold The solidifying moisture reclaiming evaporation, uses appointing of above-mentioned zirconium oxide production technology by the Water Cycle of recovery What is the need for and want the step of water.Above-mentioned serosity is dried process, ammonium nitrate can be prepared, prepared Ammonium nitrate is 97% relative to the response rate of the nitrate anion of zirconium nitrate.

The Zirconium powder prepared according to the method described above, its key component is ZrO₂+HfO₂+Y₂O₃, wherein Y₂O₃The molar percentage accounting for main component is 2.5%, described mainly Composition accounts for the mass percent 99.9% of Zirconium powder.Containing other metal-oxides, specifically it is shown in Table 2, Chlorine element mass percent is 0.043%.

Other metal oxide contents of table 2 (mass fraction)

Note: detection is limited to 0.00001%

Described Zirconium powder, ratio radiation activity 75Bq/kg recorded according to ISO 13356:2008. Wherein the content of four directions and cube crystalline phase is 99.5%.

Embodiment 3

(1) by the zirconium oxychloride solution of 0.3mol/L, heating occur chemical reaction so that zirconium sun from Son changes into zirconium oxide, zirconium hydroxide or its hydrate, reacts to zirconium cationic monomer conversion 98.2%, system Zirconium reactant mixture must be contained.

Reacting by heating temperature 400 DEG C, pressure 3.25MPa.

(2) by step (1) prepare containing zirconium reactant mixture, regulate pH=1.8 with ammonia, so After under 6000 × g centrifugal force centrifugal 30 minutes, carry out solid-liquid separation process, obtain containing zirconium solid and Solution A.

(3) the solid pure water containing zirconium prepared in step (2) being configured to mass concentration is 60% Containing zirconium serosity, and add the Yttrium chloride(Y2Cl6) relative to 7.0 moles of % of key component.

(4) by step (3) prepares containing zirconium serosity, use ammonia regulation pH=7.0 value, then Centrifugal, carry out sucking filtration with the cellulose membrane that aperture is 0.1 micron as filter membrane, reach the mesh of solid-liquid separation , obtain main component precursor solid and solution B.

(5) the main component precursor solid prepared in step (4) is air-dried in room temperature and calcines, wash Described Zirconium powder is i.e. prepared after washing pelletize.

Described calcining step, in air atmosphere, uses electrical heating.The highest calcining heat 900 DEG C, The highest calcining heat keeps 3.0 hours.The heating rate of calcining is set as 450 DEG C/h.

Described granulation step, can add pure water to Zirconium powder and carry out, put in ball grinder, with Ball milling 5 hours together with the zirconia ball of diameter 6mm with 2mm, add toughener oxygen during physical pulverization Change aluminum nanoparticles (particle diameter is between 10 to 20nm) and binding agent polymethylacrylic acid, until After being less than 1.0 microns to particle diameter, then it is spray-dried.

(6) solution A prepared in step (2) and step (4) and solution B are merged, use ammonia Water regulation pH=7.5, evaporates above-mentioned solution until the solids content forming serosity is 70%.And by cold The solidifying moisture reclaiming evaporation, uses appointing of above-mentioned zirconium oxide production technology by the Water Cycle of recovery What is the need for and want the step of water.Above-mentioned serosity is dried process, ammonium chloride can be prepared, prepared Ammonium chloride is 95% relative to the response rate of the chloride ion of basic zirconium chloride.

The Zirconium powder prepared according to the method described above, its key component is ZrO₂+HfO₂+Y₂O₃, wherein Y₂O₃The molar percentage accounting for main component is 3.5%, described mainly Composition accounts for the mass percent 99.9% of Zirconium powder.Containing other metal-oxides, specifically it is shown in Table 3, Chlorine element mass percent is 0.038%.

Other metal oxide contents of table 3 (mass fraction)

Note: detection is limited to 0.00001%

Described Zirconium powder, ratio radiation activity 68Bq/kg recorded according to ISO 13356:2008. Wherein the content of four directions and cube crystalline phase is 98.7%.

Embodiment 4

(1) by the Disulfatozirconic acid. solution of 2.0mol/L, there is chemical reaction in heating so that zirconium cation Change into zirconium oxide, zirconium hydroxide or its hydrate, react to zirconium cationic monomer conversion 95.3%%, system Zirconium reactant mixture must be contained.

Reacting by heating temperature 110 DEG C, pressure 0.15MPa.

(2) by step (1) prepare containing zirconium reactant mixture, regulate pH=0.56 with ammonia, so After under 6000 × g centrifugal force centrifugal 30 minutes, carry out solid-liquid separation process, obtain containing zirconium solid and molten Liquid A.

(3) the solid pure water containing zirconium prepared in step (2) being configured to mass concentration is 70% Containing zirconium serosity, and add relative to the Yttrium chloride(Y2Cl6) that key component is 4.0 moles of %.

(4) by step (3) prepares containing zirconium serosity, use ammonia regulation pH=6.0, then exist It is centrifuged 30 minutes under 6000 × g centrifugal force, carries out solid-liquid separation process, obtain main component precursor solid And liquor B.

(5) the main component precursor solid prepared in step (4) is spray-dried and calcines, clean Described Zirconium powder is i.e. prepared after pelletize.

Described calcining step, in nitrogen atmosphere, uses electrical heating.The highest calcining heat 1100 DEG C, Keep 0.5 hour in the highest calcining heat.The heating rate of calcining can be set as 600 DEG C/h.

Described granulation step, can add pure water to Zirconium powder and carry out, put in ball grinder, with Ball milling 5 hours together with the zirconia ball of a diameter of 6mm with 2mm, add toughener during physical pulverization Aluminum oxide nanoparticle (particle diameter is between 10 to 20nm) and binding agent carboxymethyl cellulose, until Obtain particle diameter less than after 1.0 microns, then be spray-dried.

(6) solution A prepared in step (2) and step (4) and solution B are merged, use ammonia Water regulation pH=6.5, evaporates above-mentioned solution until the solids content forming serosity is 50%.And by cold The solidifying moisture reclaiming evaporation, uses appointing of above-mentioned zirconium oxide production technology by the Water Cycle of recovery What is the need for and want the step of water.Above-mentioned serosity is dried process, ammonium sulfate can be prepared, obtain Ammonium sulfate is 98% relative to the response rate of the sulfate radical in Disulfatozirconic acid..

The Zirconium powder prepared according to the method described above, its key component is ZrO₂+HfO₂+Y₂O₃, wherein Y₂O₃The molar percentage accounting for main component is 2.0%, described mainly Composition accounts for the mass percent 99.9% of Zirconium powder.Containing other metal-oxides, specifically it is shown in Table 4, Chlorine element mass percent is 0.026%.

Other metal oxide contents of table 4 (mass fraction)

Note: detection is limited to 0.00001%

Described Zirconium powder, ratio radiation activity 95Bq/kg recorded according to ISO 13356:2008. Wherein the content of four directions and cube crystalline phase is 95%.

Embodiment 5

(1) by the zirconium oxychloride solution of 5.0mol/L, heating occur chemical reaction so that zirconium sun from Son changes into zirconium oxide, zirconium hydroxide or its hydrate, reacts to zirconium cationic monomer conversion 90%, system Zirconium reactant mixture must be contained.

Reacting by heating temperature 80 DEG C, pressure 0.1MPa.

(2) by step (1) prepare containing zirconium reactant mixture, regulate pH=0.1 with ammonia, so After, under 6000 × g centrifugal force centrifugal 30 minutes, carry out solid-liquid separation process, obtain containing zirconium solid and molten Liquid A.

(3) the solid pure water containing zirconium prepared in step (2) being configured to mass concentration is 20% Containing zirconium serosity, and add relative to the Yttrium chloride(Y2Cl6) that key component is 6.0 moles of % and 12.0 moles of % Titanium chloride.

(4) by step (3) prepares containing zirconium serosity, use sodium hydroxide regulation pH=10.5, so Rear employing 4000 × g centrifugal force carries out solid-liquid separation process in 30 minutes, obtains main component precursor Solid and solution B.

Described calcining step, in air atmosphere, uses electrical heating.The highest calcining heat 850 DEG C, The highest calcining heat keeps 5.0 hours.The heating rate of calcining can be set as 1200 DEG C/h.

One-level (the U.S. clinical pathology meeting that described cleaning step specifies according to GB GB 6682-2000 The Type I of CAP is suitable) pure water carries out drip washing 5 times.

Described granulation step, can add pure water to Zirconium powder and carry out, put in ball grinder, with Ball milling 5 hours together with the zirconia ball of a diameter of 6mm with 2mm, add toughener during physical pulverization Aluminum oxide nanoparticle (particle diameter is between 10 to 20nm) and binding agent polyacrylic acid, until obtaining After particle diameter is less than 1.0 microns, then it is spray-dried.

(6) solution A prepared in step (2) and step (4) and solution B are merged, use urine Element regulation pH=6.0, evaporates above-mentioned solution until the solids content forming serosity is 92%.And lead to then Cross condensation and reclaim the moisture of evaporation, the Water Cycle of recovery is used above-mentioned zirconium oxide production technology Any step needing water.Above-mentioned serosity is dried process, ammonium chloride can be prepared, To ammonium chloride relatively and in basic zirconium chloride the response rate of chloride ion be 97%.

The Zirconium powder prepared according to the method described above, its key component is ZrO₂+HfO₂+TiO₂+Y₂O₃, wherein TiO₂And Y₂O₃The molar percentage accounting for main component respectively is 12.0% and 3.0%, described main component accounts for the mass percent 99.8% of Zirconium powder.Containing other gold Belonging to oxide, be specifically shown in Table 5, chlorine element mass percent is 0.045%.

Other metal oxide contents of table 5 (mass fraction)

Note: detection is limited to 0.00001%

Described Zirconium powder, ratio radiation activity 98Bq/kg recorded according to ISO 13356:2008. Wherein the content of four directions and cube crystalline phase is 90.5%.

Embodiment 6

(1) by the zirconium oxychloride solution of 0.1mol/L, heating occur chemical reaction so that zirconium sun from Son changes into zirconium oxide, zirconium hydroxide or its hydrate, reacts to zirconium cationic monomer conversion 99.9%, system Zirconium reactant mixture must be contained.

Reacting by heating temperature 40 DEG C, pressure 0.1MPa.

(2) by step (1) prepare containing zirconium reactant mixture, regulate pH=2.0 with HCl, so After under 6000 × g centrifugal force centrifugal 30 minutes, carry out solid-liquid separation process, obtain containing zirconium solid and Solution A.

(3) the solid pure water containing zirconium prepared in step (2) being configured to mass concentration is 5% contain Zirconium serosity, and to add relative to key component be 6.0 moles of % Yttrium chloride(Y2Cl6)s and the magnesium chloride of 5.0 moles of %.

(4) by step (3) prepares containing zirconium serosity, use sodium hydroxide regulation pH=11.0, so After under 3000 × g centrifugal force centrifugal 30 minutes, carry out solid-liquid separation process, before obtaining main component Body solid and solution B.

(5) by step (4) prepare 110 DEG C of oven drying at low temperatures of main component precursor solid and calcine, Described Zirconium powder is i.e. prepared after washing pelletize.

Described calcining step, in air atmosphere, uses electrical heating.The highest calcining heat 600 DEG C, The highest calcining heat keeps 5.0 hours.The heating rate of calcining is set as 300 DEG C/h.

Described granulation step, can add pure water to Zirconium powder and carry out, put in ball grinder, with Ball milling 5 hours together with the zirconia ball of a diameter of 6mm with 2mm, add toughener during physical pulverization Aluminum oxide nanoparticle (particle diameter is between 10 to 20nm) and binding agent POLYPROPYLENE GLYCOL, until obtaining After particle diameter is less than 1.0 microns, then it is spray-dried.

(6) solution A prepared in step (2) and step (4) and solution B are merged, use ammonia Water regulation pH=5.0, evaporates above-mentioned solution until the solids content forming serosity is 95%.And lead to then Cross condensation and reclaim the moisture of evaporation, the Water Cycle of recovery is used above-mentioned zirconium oxide production technology Any step needing water.Above-mentioned serosity is dried process, ammonium chloride can be prepared, To ammonium chloride be 97% relative to the response rate of chloride ion in basic zirconium chloride.

The Zirconium powder prepared according to the method described above, its key component is ZrO₂+HfO₂+MgO+Y₂O₃, wherein MgO and Y₂O₃Account for the molar percentage of main component respectively Being 5.0 moles of % and 3.0 moles of %, described main component accounts for the mass percent of Zirconium powder 99.87%.Containing other metal-oxides, being specifically shown in Table 6, chlorine element mass percent is 0.039%.

Other metal oxide contents of table 6 (mass fraction)

Note: detection is limited to 0.00001%

Described Zirconium powder, ratio radiation activity 76Bq/kg recorded according to ISO 13356:2008. Wherein the content of four directions and cube crystalline phase is 92.1%.

Embodiment 7

(1) by the zirconium oxychloride solution of 0.6mol/L, heating occur chemical reaction so that zirconium sun from Son changes into zirconium oxide, zirconium hydroxide or its hydrate, reacts to zirconium cationic monomer conversion 99.7%, system Zirconium reactant mixture must be contained.

Reacting by heating temperature 50 C, pressure 0.1MPa.

(2) by step (1) prepare containing zirconium reactant mixture, regulate pH=0.23 with ammonia, so After under 6000 × g centrifugal force centrifugal 30 minutes, carry out solid-liquid separation process, obtain containing zirconium solid and Solution A.

(3) the solid pure water containing zirconium prepared in step (2) being configured to mass concentration is 35% Containing zirconium serosity, and to add relative to key component be 16.0 moles of % Yttrium chloride(Y2Cl6)s.

(4) by step (3) prepares containing zirconium serosity, use ammonia regulation pH value=8.5, then It is centrifuged 30 minutes under 4000 × g centrifugal force, carries out solid-liquid separation process, obtain main component precursor Solid and solution B.

Described calcining step, in air atmosphere, uses electrical heating.The highest calcining heat 1050 DEG C, Keep 1.5 hours in the highest calcining heat.The heating rate of calcining is set as 300 DEG C/h.

(6) solution A prepared in step (2) and step (4) and solution B are merged, use ammonia Water regulation pH=7.0, evaporates above-mentioned solution until the solids content forming serosity is 92%.And by cold The solidifying moisture reclaiming evaporation, uses appointing of above-mentioned zirconium oxide production technology by the Water Cycle of recovery What is the need for and want the step of water.Above-mentioned serosity is dried process, ammonium chloride can be prepared, obtain Ammonium chloride is 99% relative to the response rate of the chloride ion in basic zirconium chloride.

The Zirconium powder prepared according to the method described above, its key component is ZrO₂+HfO₂+Y₂O₃, wherein Y₂O₃The molar percentage accounting for main component is 8.0%, described mainly Composition accounts for the mass percent 99.9% of Zirconium powder.Containing other metal-oxides, specifically it is shown in Table 7, Chlorine element mass percent is 0.047%.

Other metal oxide contents of table 7 (mass fraction)

Note: detection is limited to 0.00001%

Described Zirconium powder, ratio radiation activity 45Bq/kg recorded according to ISO 13356:2008. Wherein the content of four directions and cube crystalline phase is 99.9%.

Embodiment 8

(1) by the zirconium oxychloride solution of 2.5mol/L, heating occur chemical reaction so that zirconium sun from Son changes into zirconium oxide, zirconium hydroxide or its hydrate, reacts to zirconium cationic monomer conversion 94.8%, system Zirconium reactant mixture must be contained.

Reacting by heating temperature 105 DEG C, pressure 0.12MPa.

(2) by step (1) prepare containing zirconium reactant mixture, regulate pH=0.46 with ammonia, so After under 6000 × g centrifugal force centrifugal 30 minutes, carry out solid-liquid separation process, obtain containing zirconium solid and Solution A.

(3) the solid pure water containing zirconium prepared in step (2) being configured to mass concentration is 40% Containing zirconium serosity, and to add relative to key component be 6.0 moles of % Yttrium chloride(Y2Cl6)s and the chlorination of 8.0 moles of % Cerium.

(4) by step (3) prepares containing zirconium serosity, use ammonia regulation pH value=9.0, then It is centrifuged 30 minutes under 4000 × g centrifugal force, carries out solid-liquid separation process, obtain main component precursor Solid and solution B.

Described calcining step, in air atmosphere, uses electrical heating.The highest calcining heat 1000 DEG C, Keep 1.0 hours in the highest calcining heat.The heating rate of calcining is set as 300 DEG C/h.

(6) solution A prepared in step (2) and step (4) and solution B are merged, use ammonia Water regulation pH=7.3, evaporates above-mentioned solution until the solids content forming serosity is 95%.And by cold The solidifying moisture reclaiming evaporation, uses appointing of above-mentioned zirconium oxide production technology by the Water Cycle of recovery What is the need for and want the step of water.Above-mentioned serosity is dried process, ammonium chloride can be prepared, obtain Ammonium chloride is 98% relative to the response rate of the chloride ion in basic zirconium chloride.

The Zirconium powder prepared according to the method described above, its key component is ZrO₂+HfO₂+CeO₂+Y₂O₃, wherein CeO₂And Y₂O₃Account for the molar percentage of main component respectively Being 8.0% and 3.0%, it is 99.7% that described main component accounts for the percent mass of Zirconium powder.Containing other Metal-oxide, is specifically shown in Table 8, and chlorine element mass percent is 0.047%.

Other metal oxide contents of table 8 (mass fraction)

Note: detection is limited to 0.00001%

Embodiment 9

The preparation method of a kind of Zirconium powder, same as in Example 1, only step (2) pH is adjusted Control is to 1.0.

The ammonium chloride prepared according to the method described above, it is relative to the recovery of chloride ion in basic zirconium chloride Rate is 98%.

The Zirconium powder prepared according to the method described above, its key component is ZrO₂+HfO₂+Y₂O₃, Y₂O₃The molar percentage accounting for main component is 3.0%, and described main component accounts for The mass percent of Zirconium powder is 99.9%.Containing other metal oxide contents, specifically it is shown in Table 9, Chlorine element mass percent is 0.034%.

Other metal oxide contents of table 9 (mass fraction)

Note: detection is limited to 0.00001%

Described Zirconium powder, ratio radiation activity 91Bq/kg recorded according to ISO 13356:2008. Wherein the content of four directions and cube crystalline phase is 99.9%.

Embodiment 10

The preparation method of a kind of Zirconium powder, same as in Example 1, only step (4) pH is adjusted Control is to 7.0.

The Zirconium powder prepared according to the method described above, its key component is ZrO₂+HfO₂+Y₂O₃, Y₂O₃The molar percentage accounting for main component is 3.0%, and described main component accounts for The mass percent of Zirconium powder is 99.9%.Containing other metal oxide contents, specifically it is shown in Table 10, Chlorine element mass percent is 0.034%.

Other metal oxide contents of table 10 (mass fraction)

Note: detection is limited to 0.00001%

Described Zirconium powder, ratio radiation activity 72Bq/kg recorded according to ISO 13356:2008. Wherein the content of four directions and cube crystalline phase is 99.9%.

Embodiment 11 (comparative example)

(1) by the basic zirconium chloride of 0.5mol/L, there is chemical reaction in heating so that zirconium cation turns Chemical conversion zirconium oxide, zirconium hydroxide or its hydrate, reaction, to zirconium cationic monomer conversion 98.6%, prepares and contains Zirconium reactant mixture.

Reacting by heating temperature 150 DEG C, pressure 0.41MPa.

(2) in step (1) prepare containing zirconium reactant mixture adds relative to key component be 6.0 moles of % Yttrium chloride(Y2Cl6)s.It is spray-dried after stirring and calcines, i.e. preparing after washing pelletize and compare use Zirconium powder.

Described calcining step, in air atmosphere, uses electrical heating.The highest calcining heat 1000 DEG C, Keep 2.0 hours in the highest calcining heat.The heating rate of calcining is set as 300 DEG C/h.

One-level (the U.S. clinical pathology meeting that described washing step specifies according to GB GB 6682-2000 The Type I of CAP is suitable) pure water carries out drip washing 3 times.

Described granulation step, can add pure water to Zirconium powder and carry out, put in ball grinder, with Ball milling 5 hours together with the zirconia ball of a diameter of 6mm with 2mm, add binding agent during physical pulverization Polyacrylic acid, until obtaining particle diameter less than after 1.0 microns, then is spray-dried.

The Zirconium powder prepared according to the method described above, its key component is ZrO₂+HfO₂+Y₂O₃, wherein Y₂O₃The molar percentage accounting for main component is 3.0%, described mainly Composition accounts for the mass percent 96.6% of Zirconium powder.Containing other metal-oxides, specifically it is shown in Table 11, Chlorine element mass percent is 1.34%.

Other metal oxide contents of table 11 (mass fraction)

Note: detection is limited to 0.00001%

Described Zirconium powder, ratio radiation activity 357Bq/kg recorded according to ISO 13356:2008. Wherein the content of four directions and cube crystalline phase is 85%.

Relatively understand the present invention to be removed by twice regulation and control pH and solid-liquid separation raw material contains The impurity such as Si, Al, Fe and radioelement so that the impurity content of prepared Zirconium powder and ratio Radiation activity significantly reduces, it is possible to fully meet the ISO 13356:2008 corresponding requirements to bioceramic. Furthermore it is also possible to find out in second time centrifugal process, the yttrium presoma of interpolation almost without loss, So the structural stability of final Zirconium powder is not had any impact.

The zirconic X-ray diffracting spectrum that embodiment 1 and comparative example 11 prepare, as shown in Figure 2. From Figure 2 it can be seen that the Zirconium powder that comparative example 11 prepares is before being calcined, it is less than without at pH Or the solid-liquid separation under the conditions of being more than or equal to 6.0 two equal to 2.0 and pH, except Si, Al, Fe And the impurity such as radioelement will not be removed, and add during from the chloride ion of raw material and pH regulation and control Acid or alkali can form crystallization in dry run.In calcination process subsequently, these impurity can turn Turn to corrosivity and the environmental contaminants such as chlorine, hydrogen chloride, NOx.And the side of the embodiment of the present invention 1 The Zirconium powder that method prepares before being calcined, after twice solid-liquid separation, is just not detected by The crystallization of ammonium chloride, also will not be formed in follow-up calcination process and have corrosiveness to equipment and to ring The influential gas in border.

As it will be easily appreciated by one skilled in the art that and the foregoing is only presently preferred embodiments of the present invention, Not in order to limit the present invention, all made within the spirit and principles in the present invention any amendment, etc. With replacement and improvement etc., should be included within the scope of the present invention.

Claims

1. one kind produces Zirconium powder and the method for ammonium salt simultaneously, it is characterised in that include following step Rapid:

(5) the main component precursor solid prepared in step (4) is dried and calcines, wash pelletize After i.e. prepare Zirconium powder；

(6) solution A prepared in step (2) and step (4) and solution B are merged, use nothing Machine acid or inorganic base regulation pH are between 5.0 to 8.0, and transpiring moisture separates out ammonium salt；

Described step (2), (4) and (6) uses ammonia or carbamide regulation pH value at least one times.

2. the method for claim 1, it is characterised in that step (1) described zirconium precursor body For one or more in basic zirconium chloride, zirconium chloride, zirconium nitrate, Disulfatozirconic acid., zirconium carbonate and zirconium phosphate Combination.

3. the method for claim 1, it is characterised in that described step (1) reaction temperature Between 40 DEG C to 400 DEG C, pressure is between 0.1MPa to 3.25MPa.

4. method as claimed in claim 3, it is characterised in that described temperature is at 50 DEG C to 250 DEG C Between, pressure is between 0.1MPa to 1.2MPa.

5. method as claimed in claim 4, it is characterised in that described temperature is at 80 DEG C to 150 DEG C Between, pressure is between 0.1MPa to 0.5MPa.

6. the method for claim 1, it is characterised in that described step (5) calcining heat Between 800 DEG C to 1100 DEG C, heating rate, between 200 DEG C/h to 1200 DEG C/h, maintains calcining Maximum temperature 0.5 hour to 5 hours.

7. a Zirconium powder, it is characterised in that according to such as Claims 1-4 any one institute Prepared by the method stated.

8. Zirconium powder as claimed in claim 7, it is characterised in that its key component is ZrO₂+HfO₂+M_xO_y, wherein M_xO_yFor metal-oxide, its content accounts for key component ZrO₂Rub You are selected from yttrium, calcium, magnesium, cerium, praseodymium, vanadium, molybdenum and titanium less than or equal to 15 moles of %, M by percentage ratio One or more in element, described main component account for the mass percent of Zirconium powder 90% with On, other metal-oxides every kind account for the mass fraction of described Zirconium powder less than or equal to 0.01%.

9. Zirconium powder as claimed in claim 8, it is characterised in that other burnings described Thing is silicon dioxide, ferrum oxide, aluminium oxide, Cs2O, cobalt oxide, strontium oxide, oxidation polonium, oxygen Change radium, urania, thorium oxide, plutonium oxide, fracium oxide.

10. Zirconium powder as claimed in claim 7, it is characterised in that wherein chlorine element quality Percentage ratio is less than or equal to 0.05%.

11. Zirconium powders as claimed in claim 7, it is characterised in that described Zirconium powder The ratio radiation activity recorded according to ISO13356:2008 is less than or equal to 100Bq/kg.

12. Zirconium powders as claimed in claim 7, it is characterised in that described Zirconium powder Four directions and the content of cube crystalline phase more than or equal to 90%.