CN105568042B - A kind of filter alloy components - Google Patents

Abstract

The invention provides a kind of filter alloy components, the alloy components carry out ball milling screening using the alloy powder raw material of specific alloy elements composition proportion, the powder for meeting granularity requirements is layered in batches blank is made, ultrasonic spray is carried out again, and by being heat-treated sintering process, the crushing strength under high temperature of alloy filter element is improved, while obtaining the performance parameters such as preferable pore size filter, filtration flux.

Description

A kind of filter alloy components

Technical field

It is to be related to a kind of filter alloy components specifically the present invention relates to field of alloy material.

Background technology

Mechanical property, processing performance, the corrosion resisting property of copper alloy are all preferable, and electrical and thermal conductivity performance is high, and height is chemically Matter, the good stability for resisting corrosion and the plasticity of brilliance, so, turn into the material being most widely used in every field One of.The invention belongs to field of alloy material, copper alloy has been widely used for disposal of pollutants gas deep purifying, industrial waste gas In terms of purification, wastewater treatment.Other trace elements are added in ormolu can play a part of scale removal and antiscale.Copper Alloy has the effect that in filtration treatment：1）, chlorine, oxygen and the solubility in liquid can be made by redox reaction The concentration reduction of heavy metal ion, strengthens the corrosion resistance of metal pipe-wall；2）And during water contact, the oxygen of liquid at contact interface Change reduction potential change very greatly, it is suppressed that the growth and breeding of microorganism, reduce the intensity of incrustation scale and heat exchange wall bonding；3）、 So that solid phase particles are in the state of suspended dispersed, it is suppressed that the generation of wax, dirt and corrosion.

Filter element is in the case of the identical of aperture, and when thickness changes within a certain range, the change of its infiltration capacity is several Up to the order of magnitude.Therefore, only sample can be made thin as best one can from if precision and flow consider, but this is again and intensity requirement Contradict, therefore, being exactly the effective way for solving this contradiction using sandwich construction.The method for producing multilayer filter is more, such as The methods such as powder rolling, slurry extruding, slurry centrifugal casting.And the service life of sandwich construction component is by environment and material sheet The influence of body, existing product is easily damaged in the working environment of high pressure and high temperature, and manufacture difficult, production technology cost compared with It is high.

The content of the invention

In order to solve the above-mentioned technical problem, the invention provides a kind of filter alloy components, the system of the alloy components Preparation Method is layered base in batches using the alloy powder raw material of element-specific composition proportion, by ultrasonic spray, and passes through heat Handling process, improves the crushing strength under high temperature and service life of alloy filter element.The technical solution adopted by the present invention is：It is a kind of Filter alloy components, its preparation method comprises the following steps：Ball mill mixing, layering base, ultrasonic spray and heat treatment Step, used alloy powder raw material is constituted comprising following element when prepared by alloy filter element：C:1.80-2.50%, Si: 0.30-0.40%, Cr:3.50-5.50%, Mo:2.00-2.30%, Zr:0.50-1.50%, Hf:0.05-0.10%, Mn:2.00- 2.50%, Fe:1.50-2.50%, Zn:3.50-4.50%, Nd:0.10 ~ 0.20%, S<0.005%, P<0.005%, surplus is Cu, Above-mentioned percentage is mass percent；The compression strength of alloy filter element is 700 ~ 800MPa, and maximum diameter of hole is 30 ~ 50 μm.

Ball mill mixing step is：55 ~ 65wt% alloy powder raw material is first subjected to ball milling, it is below 100 mesh to obtain granularity Alloy powder I, remaining alloy powder raw material is then milled to below 200 mesh acquisition alloy powder II again, finally, mixed Expect equipment in by alloy powder I and alloy powder II respectively with the fine copper powder below 200 mesh, according to mass ratio 2:1 ratio Mixing 1~1.5 hour, so as to obtain alloy powder I and alloy powder II respectively.

Being layered base step is：First, 35 ~ 40wt% alloy powder I is taken, thickness is obtained for 1~2mm by casting machine Piece base I；Again by alloy powder II on piece base I, thickness is obtained for 2~3mm piece bases II by casting machine；Then, measured under remainder The alloy powder I, thickness is obtained for 2.5~3.5mm piece bases III by casting machine on the basis of piece base II.

Ultrasonic spraying step is：Piece base III is preheated into 20 ~ 30mins at 200~250 DEG C, ultrasonic wave spray is then carried out Apply, spray distance is 15cm, spray gun translational speed is 15 ~ 18cm/s, and spray angle is 90 °, and the coating layer thickness after spraying is about 0.55~0.65mm；Wherein, the composition of solder wire material is included used in spraying：Cu:50 ~ 55%, Ni:5.5 ~ 7.5%, Si:0.3~ 0.5%, above-mentioned percentage is mass percent.

Heat treatment step is：Piece base III after ultrasonic spray is placed in 300~400 DEG C of heating furnace and is sintered, Soaking time is 1 ~ 1.5h, is cooled to after room temperature, then is warming up to 1000 ~ 1100 DEG C, insulation with 20 ~ 30 DEG C/min firing rate 0.5 ~ 1h, furnace cooling can obtain alloy filter element.

Preferably, the compression strength of alloy filter element finished product is 780 MPa, and maximum diameter of hole is 45 μm.

Preferably, alloy powder raw material is constituted comprising following element：C:1.80%, Si:0.35%, Cr:3.50%, Mo: 2.00%, Zr:1.20%, Hf:0.10%, Mn:2.50%, Fe:2.20%, Zn:3.50%, Nd:0.20%, S:0.002%, P: 0.001%, surplus is Cu.

Preferably, alloy powder raw material is constituted comprising following element：C:2.00%, Si:0.30%, Cr:4.50%, Mo: 2.20%, Zr:0.80%, Hf:0.08%, Mn:2.00%, Fe:1.50%, Zn:4.00%, Nd:0.15%, S:0.002%, P: 0.001%, surplus is Cu.

Preferably, alloy powder raw material is constituted comprising following element：C:2.50%, Si:0.40%, Cr:5.50%, Mo: 2.30%, Zr:1.50%, Hf:0.05%, Mn:2.20%, Fe:2.50%, Zn:4.50%, Nd:0.10%, S:0.002%, P: 0.001%, surplus is Cu.

It is an advantage of the invention that：Ball milling screening is carried out using the alloy powder raw material of specific alloy elements composition proportion, will The powder for meeting granularity requirements is layered blank is made in batches, then carries out ultrasonic spray, and by being heat-treated sintering process, improves The crushing strength under high temperature of alloy filter element, while obtain the performance parameters such as preferable pore size filter, filtration flux.

Embodiment

With reference to embodiment and comparative example, the present invention is described in more detail.

Embodiment 1：

A kind of filter alloy components, its preparation method comprises the following steps：Ball mill mixing, layering base, ultrasonic wave Spraying and heat treatment step, used alloy powder raw material is constituted comprising following element when prepared by alloy filter element：C: 1.80%, Si:0.35%, Cr:3.50%, Mo:2.00%, Zr:1.20%, Hf:0.10%, Mn:2.50%, Fe:2.20%, Zn: 3.50%, Nd:0.20%, S:0.002%, P:0.001%, surplus is Cu, and above-mentioned percentage is mass percent.Ball mill mixing step For：65wt% alloy powder raw material is first subjected to ball milling, it is the alloy powder I below 100 mesh to obtain granularity, then again will be surplus Remaining alloy powder raw material is milled to below 200 mesh acquisition alloy powder II, finally, in mixing equipment by alloy powder I and Alloy powder II respectively with the fine copper powder below 200 mesh, according to mass ratio 2:1 ratio is mixed 1 hour, so as to obtain respectively Alloy powder I and alloy powder II.Being layered base step is：40wt% alloy powder I is taken, obtaining thickness by casting machine is 1mm piece bases I；Again by alloy powder II on piece base I, thickness is obtained for 2mm piece bases II by casting machine；Then, measured under remainder Alloy powder I, thickness is obtained for 2.5mm piece bases III by casting machine on the basis of piece base II.Ultrasonic spraying step For：Piece base III is preheated into 20mins at 200 DEG C, ultrasonic spray is then carried out, spray distance is 15cm, spray gun translational speed For 18cm/s, spray angle is 90 °, and the coating layer thickness after spraying is about 0.55mm；Wherein, solder wire material used in spraying Composition is included：Cu:50%, Ni:5.5%, Si:0.3%, above-mentioned percentage is mass percent.Heat treatment step is：By piece base III It is sintered in the heating furnace for being placed in 300 DEG C, soaking time is 1.5h, is cooled to after room temperature, then with 20 DEG C/min heating speed Degree is warming up to 1000 DEG C, is incubated 1h, and furnace cooling can obtain alloy filter element.The compression strength of alloy filter element finished product For 780 MPa, maximum diameter of hole is 45 μm.

Embodiment 2：

A kind of filter alloy components, its preparation method comprises the following steps：Ball mill mixing, layering base, ultrasonic wave Spraying and heat treatment step, used alloy powder raw material is constituted comprising following element when prepared by alloy filter element：C: 2.00%, Si:0.30%, Cr:4.50%, Mo:2.20%, Zr:0.80%, Hf:0.08%, Mn:2.00%, Fe:1.50%, Zn: 4.00%, Nd:0.15%, S:0.002%, P:0.001%, surplus is Cu, and above-mentioned percentage is mass percent.Ball mill mixing step For：60wt% alloy powder raw material is first subjected to ball milling, it is the alloy powder I below 100 mesh to obtain granularity, then again will be surplus Remaining alloy powder raw material is milled to below 200 mesh acquisition alloy powder II, finally, in mixing equipment by alloy powder I and Alloy powder II respectively with the fine copper powder below 200 mesh, according to mass ratio 2:1 ratio is mixed 1.5 hours, so as to obtain respectively Obtain alloy powder I and alloy powder II.Being layered base step is：35wt% alloy powder I is taken, thickness is obtained by casting machine For 1.5mm piece bases I；Again by alloy powder II on piece base I, thickness is obtained for 2.5mm piece bases II by casting machine；Then, take The alloy powder I of remainder amount, thickness is obtained for 3mm piece bases III on the basis of piece base II by casting machine.Ultrasonic spray is walked Suddenly it is：Piece base III is preheated into 30mins at 250 DEG C, ultrasonic spray is then carried out, spray distance is 15cm, spray gun movement speed Spend for 15cm/s, spray angle is 90 °, and the coating layer thickness after spraying is about 0.60mm；Wherein, solder wire material used in spraying Composition include：Cu:55%, Ni:6.5%, Si:0.4%, above-mentioned percentage is mass percent.Heat treatment step is：By piece base III is placed in 350 DEG C of heating furnace and is sintered, and soaking time is 1h, is cooled to after room temperature, then with 25 DEG C/min heating speed Degree is warming up to 1050 DEG C, is incubated 1h, and furnace cooling can obtain alloy filter element.The compression strength of alloy filter element finished product For 750 MPa, maximum diameter of hole is 35 μm.

Embodiment 3：

A kind of filter alloy components, its preparation method comprises the following steps：Ball mill mixing, layering base, ultrasonic wave Spraying and heat treatment step, used alloy powder raw material is constituted comprising following element when prepared by alloy filter element：C: 2.50%, Si:0.40%, Cr:5.50%, Mo:2.30%, Zr:1.50%, Hf:0.05%, Mn:2.20%, Fe:2.50%, Zn: 4.50%, Nd:0.10%, S:0.002%, P:0.001%, surplus is Cu, and above-mentioned percentage is mass percent.Ball mill mixing step For：55wt% alloy powder raw material is first subjected to ball milling, it is the alloy powder I below 100 mesh to obtain granularity, then again will be surplus Remaining alloy powder raw material is milled to below 200 mesh acquisition alloy powder II, finally, in mixing equipment by alloy powder I and Alloy powder II respectively with the fine copper powder below 200 mesh, according to mass ratio 2:1 ratio is mixed 1 hour, so as to obtain respectively Alloy powder I and alloy powder II.Being layered base step is：35wt% alloy powder I is taken, obtaining thickness by casting machine is 2mm piece bases I；Again by alloy powder II on piece base I, thickness is obtained for 2.5mm piece bases II by casting machine；Then, under remainder The alloy powder I of amount, thickness is obtained for 3mm piece bases III on the basis of piece base II by casting machine.Ultrasonic spraying step For：Piece base III is preheated into 25mins at 250 DEG C, ultrasonic spray is then carried out, spray distance is 15cm, spray gun translational speed For 15cm/s, spray angle is 90 °, and the coating layer thickness after spraying is about 0.65mm；Wherein, solder wire material used in spraying Composition is included：Cu:50%, Ni:7.5%, Si:0.5%, above-mentioned percentage is mass percent.Heat treatment step is：By piece base III It is sintered in the heating furnace for being placed in 400 DEG C, soaking time is 1.5h, is cooled to after room temperature, then with 30 DEG C/min heating speed Degree is warming up to 1100 DEG C, is incubated 0.5h, and furnace cooling can obtain alloy filter element.The pressure resistance of alloy filter element finished product Spend for 800 MPa, maximum diameter of hole is 50 μm.

Comparative example 1：

The alloy powder raw material of elemental composition of the present invention and content is will differ from, after being prepared using same processing step, The compression strength of resulting filter element is only up to 500MPa.

Comparative example 2：

By elemental composition and content alloy powder raw material same as Example 1, using other heat treatment modes or technique When prepared by parameter, the tensile strength highest of the filter element obtained by it only has 520MPa, and maximum diameter of hole is less than 25 μm.

By the filter alloy components of the present invention it can be seen from embodiment 1-3 and comparative example 1 and 2, using specific The alloy powder raw material of alloy element component proportioning carries out ball milling screening, the powder for meeting granularity requirements is layered in batches base is made Material, then ultrasonic spray is carried out, and by being heat-treated sintering process, the crushing strength under high temperature of alloy filter element is improved, together When obtain the performance parameters such as preferable pore size filter, filtration flux, solve filter alloy components in complicated harsh work Technical problem under condition.

Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that：Not In the case of departing from the principle and objective of the present invention a variety of change, modification, replacement and modification can be carried out to these embodiments, this The scope of invention is limited by claim and its equivalent.

Claims (6)

1. a kind of filter alloy components, it is characterised in that：The preparation method of the alloy components includes step as described below Suddenly：Ball mill mixing, layering base, ultrasonic spray and heat treatment step；Used alloyed powder when prepared by the alloy components Powder stock is constituted comprising following element：C:1.80-2.50%, Si:0.30-0.40%, Cr:3.50-5.50%, Mo:2.00- 2.30%, Zr:0.50-1.50%, Hf:0.05-0.10%, Mn:2.00-2.50%, Fe:1.50-2.50%, Zn:3.50-4.50%, Nd:0.10 ~ 0.20%, S<0.005%, P<0.005%, surplus is Cu, and above-mentioned percentage is mass percent；The filter is used The compression strength of alloy components is 750 ~ 800 MPa, and maximum diameter of hole is 30 ~ 50 μm.

2. alloy components according to claim 1, it is characterised in that：The ball mill mixing step is：First by 55 ~ 65wt% The alloy powder raw material carry out ball milling, obtain granularity be 100 mesh below alloy powder I, then again will be remaining The alloy powder raw material is milled to below 200 mesh acquisition alloy powder II, finally, in mixing equipment by alloy powder I and Alloy powder II respectively with the fine copper powder below 200 mesh, according to mass ratio 2:1 ratio is mixed 1~1.5 hour, so that point Huo get not alloy powder I and alloy powder II；

It is described layering base step be：First, take the 35 ~ 40wt% alloy powder I, by casting machine obtain thickness for 1~ 2mm piece bases I；Again by the alloy powder II on described base I, thickness is obtained for 2~3mm piece bases II by casting machine；So Afterwards, the alloy powder I measured under remainder, thickness is obtained for 2.5~3.5mm on the basis of described base II by casting machine Piece base III；

The ultrasonic spraying step is：Described base III is preheated 20 ~ 30 minutes at 200~250 DEG C, ultrasound is then carried out Ripple is sprayed, and spray distance is 15cm, and spray gun translational speed is 15 ~ 18cm/s, and spray angle is 90 °, the coating layer thickness after spraying For 0.55 ~ 0.65mm；Wherein, the composition of solder wire material is included used in spraying：Cu:50 ~ 55%, Ni:5.5 ~ 7.5%, Si: 0.3 ~ 0.5%, above-mentioned percentage is mass percent；

The heat treatment step is：Piece base III after the ultrasonic spray is placed in 300~400 DEG C of heating furnace and carried out Pre-sintering, soaking time is 1 ~ 1.5h, is cooled to after room temperature, then be warming up to 1000 ~ 1100 with 20 ~ 30 DEG C/min firing rate DEG C, 0.5 ~ 1h is incubated, furnace cooling can obtain the alloy filter element.

3. alloy components according to claim 1 or 2, it is characterised in that：The pressure resistance of the alloy filter element finished product Spend for 780 MPa, maximum diameter of hole is 45 μm.

4. alloy components according to claim 1 or 2, it is characterised in that：The alloy powder raw material includes following element Composition：C:1.80%, Si:0.35%, Cr:3.50%, Mo:2.00%, Zr:1.20%, Hf:0.10%, Mn:2.50%, Fe:2.20%, Zn:3.50%, Nd:0.20%, S:0.002%, P:0.001%, surplus is Cu.

5. alloy components according to claim 1 or 2, it is characterised in that：The alloy powder raw material includes following element Composition：C:2.00%, Si:0.30%, Cr:4.50%, Mo:2.20%, Zr:0.80%, Hf:0.08%, Mn:2.00%, Fe:1.50%, Zn:4.00%, Nd:0.15%, S:0.002%, P:0.001%, surplus is Cu.

6. alloy components according to claim 1 or 2, it is characterised in that：The alloy powder raw material includes following element Composition：C:2.50%, Si:0.40%, Cr:5.50%, Mo:2.30%, Zr:1.50%, Hf:0.05%, Mn:2.20%, Fe:2.50%, Zn:4.50%, Nd:0.10%, S:0.002%, P:0.001%, surplus is Cu.