CN102296212A - P-Fe alloy type inoculant and method for applying P-Fe alloy type inoculant to aluminum-silicon alloy melting - Google Patents

Abstract

The invention discloses a P-Fe alloy type inoculant and a method for applying the P-Fe alloy type inoculant to aluminum-silicon alloy melting. Based on the aluminum-silicon alloy to be prepared, the P-Fe alloy type inoculant consists of the following components in percentage by weight: 0.1 to 0.2 percent of P-Fe alloy, 0.1 to 0.15 percent of sigma Re, less than or equal to 0.2 percent of Mn, and the balance of Fe, wherein the weight content of P in the P-Fe alloy is 20 to 30 percent. A phosphorus-iron inoculating process is formed in the aluminum-silicon alloy melting by adopting the P-Fe alloy type inoculant, and can inoculate and thin a material; and by the process, the efficiency can be improved, the environmental pollution can be reduced, and cost and material consumption can be reduced.

Description

P-Fe alloy-type alterant and be used in processing method in the aluminum silicon alloy melting

Technical field

The present invention relates to the alloy melting used additives, is phosphor alterative and the application method in the aluminum silicon alloy melting thereof specifically.

Background technology

At present, the general P (phosphorus) that adopts is rotten in aluminum silicon alloy is rotten, and alterant has alterant and the master alloys such as P～Cu, Al～P that adopt the red phosphorus preparation, and the former loss when handling is big, and smog is big for environment pollution, and latter's alterant cost is very high.

Along with the rise of the prices of raw and semifnished materials, it is imperative to reduce cost, and the innovation by technology, select a kind of new high phosphorus master alloy alterant on the aluminum silicon alloy of piston, to use, reduce the cost of alterant, simultaneously, employing adds in melting once stove or alloy melting, reduces the loss of material.

Summary of the invention

The purpose of this invention is to provide a kind of novel P-Fe alloy-type alterant and be used in processing method in the aluminum silicon alloy melting, to reduce spillage of material and to reduce cost.

Another object of the present invention provides above-mentioned P-Fe alloy-type alterant and is used in processing method in the aluminum silicon alloy melting.

The object of the present invention is achieved like this: a kind of P-Fe alloy-type alterant, form by following component by aluminum silicon alloy weight percent meter to be prepared:

The P-Fe alloy: 0.1%～0.2%,

∑Re：0.1％～0.15％，

Mn：≤0.2％，

In the above-mentioned P-Fe alloy, the weight content of P is 20%～30%, and all the other are Fe.

Another object of the present invention is achieved in that according to the following steps carries out:

(1) raw material crushing: use crusher silicon to be broken for the silico briquette of 20mm～50mm;

(2) reinforced melting:

A, elder generation are uniformly distributed in Sweet natural gas reverberatory furnace burner hearth bottom with required whole silico briquettes, to be equipped with 60～80% of good fine aluminium ingot total amount with loading board then and advance stove, silico briquette all be covered, again with the Cu plate, the Ni plate is added near bocca at the middle and upper levels, begins the igniting fusing;

B, be warming up to surfaces of aluminum liquid in the pasty state after, add P-Fe alloy-type alterant, divide 4～5 dispersions to be incorporated in melting aluminum liquid surface by P-Fe alloy-type alterant add-on, temperature of aluminum liquid should be less than 680 ℃; To remain the fine aluminium ingot and add, igniting continues to be warming up to 850～880 ℃ and is incubated the diffusion melting, and being incubated diffusion time is 10～20 minutes;

C, leave standstill through the aluminium liquid of insulation diffusion melting and to add insulating covering agent again in 20～30 minutes and nontoxic refining agent carries out the refining degassing processing, fully stir with stirring tool, slag hitting adds magnesium then, fully stir again, leave standstill and get a sample after 5 minutes, so that the observation modification effect treats that composition is qualified, can water outlet;

(3) on-the-spot melting: the aluminium liquid of handling through P-Fe type alterant changes the scene over to and carries out refining processing: 750～780 ℃ of temperature of aluminum liquid, handled 12 minutes with getter, and left standstill 15～20 minutes, add slagging agent and skim; Check sample, observe modification effect, can use after composition is qualified;

(4) adopt aluminium liquid after P-Fe type alloy inoculant is handled when the crucible oven smelting furnace, guaranteeing under the on-the-spot prerequisite, shorten the residence time after the refining degasification as far as possible with aluminium liquid.

Compared with prior art, the invention has the beneficial effects as follows:

1,, thinks that the implementation of ferrophosphorus modification process is feasible through the repetition test of above each material.

2, the implementation of ferrophosphorus modification process can reduce cost greatly: the cost of alterant own can reduce, simultaneously because the change of processing mode can reduce spillage of material 0.5%～1%.

3, the implementation of ferrophosphorus modification process can be raised the efficiency, and reduces environmental pollution.

4, owing to the adding of ferrophosphorus and rare earth, primary silicon is more, the influence of rare earth in addition, and the flowability of aluminium water is relatively poor relatively, must be noted that teeming temperature, to reach the purpose that promotes the use under the prerequisite of ensuring the quality of products.

Embodiment

1, experimentation:

We select the P-Fe alloy (P20%～30%, all the other are Fe) of a kind of P20% of containing～30% to test:

1) selects ZL109 aluminum silicon alloy material 100kg test: the P-Fe alloy of adding 0.1% when aluminium water is melted to 760 ℃～780 ℃, insulation diffusion 30 minutes, metallographic is done in sampling, illustrate that ferrophosphorus can reach its modification effect fully, its primary silicon reaches 40um-50um, can reach the degree of refinement of other P alterants, but rectangular Eutectic Silicon in Al-Si Cast Alloys is arranged primary silicon.

2) according to test for the first time, for solving the Eutectic Silicon in Al-Si Cast Alloys problem, we know that ∑ Re has metamorphism to Eutectic Silicon in Al-Si Cast Alloys, adding 0.1%-0.15% ∑ Re simultaneously in the test for the first time, its modification effect is good, the cast product, press material heat treatment process and handle, as follows to its Performance Detection:

Hardness: HB120;

Room temperature tensile strength: 270Mpa;

300 ℃ of high temperature tensile strength: 135Mpa;

360 ℃ of tensile strength: 73Mpa;

Reach the performance requriements of ZL109 material fully.

3) because the ferrophosphorus fusing time is longer, test efficiency is lower at the scene, to this, we directly add the ferrophosphorus master alloy when the alloyage: select a stove ZL109 reverberatory furnace to test: add-on is ferrorphosphorus (P-Fe alloy) 0.1% and ∑ Re(rare earth) 0.1%, joining day is the first round to add silicon, add fine aluminium and dissolve and add after water is arranged, and all the other are identical with conventional alloy preparation technology.Select the product of cast carry out follow-up of quality by JB T6289-2005 metallographic standard detection: metallographic is generally 2～3 grades of 2 grades of primary silicons of matrix≤0.05um iron phase, and quality product is no abnormal.

4) because of the adding of ferrophosphorus, iron level increases≤0.1%, though reach the material composition requirement, because the increase of Fe adds ∑ Re in addition, the flowability of alloy decreases.As long as guarantee teeming temperature, the Mn(of adding≤0.2% is more beneficial to the control of iron phase because of adding Mn in material simultaneously), reach casting performance preferably.

2, the utilization on the ZL109 material (reverberatory furnace alloyage):

1) P-Fe alloy-type alterant should be pressed into powdery (maximum particle size is no more than 5mm) before use, can not add with big bulk form.

3, alloy melting once technology:

1) prepare melting equipment, instrument and stokehold:

A, melting equipment: gas blower, natural gas reverberatory furnace 3T claims crusher, thermocouple temperature measurement instrument.

B, melting instrument: peel, slag hitting rake, stirring tool, obstruction, filtering net, slag waggon, the car of getting the raw materials ready, alloy ingot mould.

Prepare c, stokehold: fill in the batching advice note by Chemical Composition requirement technician, the starting material that alloy class receives acceptance(check) according to the batching advice note from storehouse (use crusher with the silicon fragmentation, attention lumpiness: 20mm～50mm), fill in the batching source recording.

The slag hitting rake: stirring tool alloy ingot mould must be coated with zinc oxide, waters the necessary graphitization aqueous solution of wooden dipper, could use after the oven dry.

2) reinforced melting:

A, elder generation are uniformly distributed in burner hearth bottom with required whole silicon, will be equipped with 60%～80% of good fine aluminium ingot total amount with loading board then and advance stove, and silicon is all covered, and with the Cu plate, the Ni plate is added near bocca at the middle and upper levels after finishing, and begin igniting and melt.

B, be warming up to surfaces of aluminum liquid in the pasty state after, high phosphorus master alloy alterant adds at ordinary times in fine aluminiumization, add ∑ Re simultaneously, the amount that high phosphorus master alloy alterant adds must divide 4～5 homodisperse to be incorporated in melting aluminum liquid surface, notice that aluminium liquid is fusing just, temperature can not be too high, should be less than 680 ℃.To remain aluminium ingot and add, igniting continues to be warming up to 850～880 ℃ and is incubated the diffusion melting, and being incubated diffusion time is 10～20 minutes.

C, the aluminium liquid through being incubated the diffusion melting must leave standstill and carry out refining degassing processing (adding insulating covering agent 0.3%～0.5% in 20～30 minutes again, nontoxic refining agent: 0.2%～0.3%) fully stir with stirring tool, slag hitting adds magnesium (adding 760 ℃～800 ℃ of magnesium temperature) and fully stirs then, leave standstill and when getting the chemical ingredients sample, get a sample after 5 minutes, so that observation modification effect, treat that composition is qualified, can water outlet.

3) on-the-spot melting:

A, melting tool using: bell jar. the slagging-off wooden dipper. thermopair before use must coating.

B, after the aluminium liquid that high phosphorus master alloy alterant is handled changes the scene over to, no longer go bad in the scene, refining processing is only carried out at the scene: 750 ℃～780 ℃ of aluminium water temps, handled 12 minutes with getter, left standstill 15～20 minutes, add slagging agent and skim.Check sample, determine gas and modification effect, iron phase can use after qualified.

4) adopt aluminium liquid after high phosphorus master alloy alterant is handled when the crucible oven smelting furnace, guaranteeing under the on-the-spot prerequisite, shorten the residence time after the refining degasification as far as possible with aluminium liquid.

3, conclusion:

1), thinks that the implementation of ferrophosphorus modification process is feasible through the repetition test of above each material.

2) implementation of ferrophosphorus modification process can reduce cost greatly: the cost of alterant own can reduce, simultaneously because the change of processing mode can reduce spillage of material 0.5%～1%.

3) implementation of ferrophosphorus modification process can be raised the efficiency, and reduces environmental pollution.

4) owing to the adding of ferrophosphorus and rare earth, primary silicon is more, the influence of rare earth in addition, and the flowability of aluminium water is relatively poor relatively, must be noted that teeming temperature, to reach the purpose that promotes the use under the prerequisite of ensuring the quality of products.

This P-Fe alloy-type alterant, form by following component by aluminum silicon alloy weight percent meter to be prepared:

The P-Fe alloy: 0.1%～0.2%,

∑Re：0.1％～0.15％，

Mn：≤0.2％，

In the above-mentioned P-Fe alloy, the weight content of P is: 20%～30%, and all the other are Fe.Example: desire preparation 100kg aluminum silicon alloy, in the alterant to be added, P-Fe alloy 0.1kg～0.2kg, ∑ Re0.1kg～0.15kg, Mn≤0.2kg.

Embodiment 1: component is composed as follows:

The P-Fe alloy: 0.1%,

∑Re：0.1％，

Mn：0.2％，

In the above-mentioned P-Fe alloy, the weight content of P is: 20%.

The modification effect parameter of embodiment 1: select the product of cast to carry out follow-up of quality: by JB T6289-2005 metallographic standard detection metallographic be generally 2 grades of 3 grades of primary silicons of matrix≤0.06um iron phase, quality product is no abnormal, reaches the metallographic standard-required.

Embodiment 2: component is composed as follows:

The P-Fe alloy: 0.2%,

∑Re：0.15％，

Mn：0.1％，

In the above-mentioned P-Fe alloy, the weight content of P is: 30%.

The modification effect parameter of embodiment 2: select the product of cast to carry out follow-up of quality: by JB T6289-2005 metallographic standard detection metallographic be generally 2～3 grades of 2 grades of primary silicons of matrix≤0.05um iron phase, quality product is no abnormal, reaches the metallographic standard-required.

Embodiment 3: component is composed as follows:

The P-Fe alloy: 0.15%,

∑Re：0.12％，

Mn：0.05％，

In the above-mentioned P-Fe alloy, the weight content of P is: 25%.

The modification effect parameter of embodiment 3: select the product of cast to carry out follow-up of quality: by JB T6289-2005 metallographic standard detection metallographic be generally 3 grades of 2 grades of primary silicons of matrix≤0.04um iron phase, quality product is no abnormal, reaches the metallographic standard-required.

Claims (5)

1. a P-Fe alloy-type alterant is characterized in that, is made up of the following component by aluminum silicon alloy weight percent meter to be prepared:

The P-Fe alloy: 0.1%～0.2%,

∑Re：0.1％～0.15％，

Mn：≤0.2％，

In the above-mentioned P-Fe alloy, the weight content of P is: 20%～30%, and all the other are Fe.

2. P-Fe alloy-type alterant according to claim 1 is characterized in that described component is composed as follows:

The P-Fe alloy: 0.1%,

∑Re：0.1％，

Mn：0.2％，

In the above-mentioned P-Fe alloy, the weight content of P is: 20%.

3. P-Fe alloy-type alterant according to claim 1 is characterized in that described component is composed as follows:

The P-Fe alloy: 0.2%,

∑Re：0.15％，

Mn：0.1％，

In the above-mentioned P-Fe alloy, the weight content of P is: 30%.

4. P-Fe alloy-type alterant according to claim 1 is characterized in that described component is composed as follows:

The P-Fe alloy: 0.15%,

∑Re：0.12％，

Mn：0.05％，

In the above-mentioned P-Fe alloy, the weight content of P is: 25%.

5. a smelting process that adopts the aluminum silicon alloy of P-Fe alloy-type alterant as claimed in claim 1 is characterized in that, carries out according to the following steps:

(1) raw material crushing: use crusher silicon to be broken for the silico briquette of 20～50mm;

(2) reinforced melting:

A, elder generation are uniformly distributed in Sweet natural gas reverberatory furnace burner hearth bottom with required whole silico briquettes, to be equipped with 60～80% of good fine aluminium ingot total amount with loading board then and advance stove, silico briquette all be covered, again with the Cu plate, the Ni plate is added near bocca at the middle and upper levels, begins the igniting fusing;

B, be warming up to surfaces of aluminum liquid in the pasty state after, add P-Fe alloy-type alterant, divide 4～5 dispersions to be incorporated in melting aluminum liquid surface by P-Fe alloy-type alterant add-on, temperature of aluminum liquid should be less than 680 ℃; To remain the fine aluminium ingot and add, igniting continues to be warming up to 850～880 ℃ and is incubated the diffusion melting, and being incubated diffusion time is 10～20 minutes;

C, leave standstill through the aluminium liquid of insulation diffusion melting and to add insulating covering agent again in 20～30 minutes and nontoxic refining agent carries out the refining degassing processing, fully stir with stirring tool, slag hitting adds magnesium then, fully stir again, leave standstill and get a sample after 5 minutes, so that the observation modification effect treats that composition is qualified, can water outlet;

(3) on-the-spot melting: the aluminium liquid of handling through P-Fe type alterant changes the scene over to and carries out refining processing: 750～780 ℃ of temperature of aluminum liquid, handled 12 minutes with getter, and left standstill 15～20 minutes, add slagging agent and skim; Check style, observe modification effect, can use after composition is qualified;

(4) adopt aluminium liquid after P-Fe type alloy inoculant is handled when the crucible oven smelting furnace, guaranteeing under the on-the-spot prerequisite, shorten the residence time after the refining degasification as far as possible with aluminium liquid.