CN103436800A - Iron-chromium alloy having high wear and corrosion resistance and corrosion resistance - Google Patents

Abstract

The invention relates to an iron-chromium alloy having high wear and corrosion resistance and corrosion resistance, and belongs to the field of material invention. The iron-chromium alloy comprises the ingredients by mass fraction: 0.5-2.0% of carbon, 0.5-2.0% of manganese, 0.5-2.0% of silicon, 27.0-35.0% of chromium, 0.5-3.0% of nickel, 0.5-3.0% of molybdenum, 0.5-3.0% of copper, and 49.0-71.0% of iron. A double-phase matrix contains a large amount of alloy chromium, molybdenum, copper and other elements which are easy to passivate and have good pitting resistance; under the composite action of nickel, molybdenum and copper, chromium greatly improves performance of the material resisting corrosion of reducing media, organic acids and other media, can also improve the material excellent corrosion resistance endowed by the double-phase matrix; and at the same time, the material is endowed with the excellent wear and corrosion resistance by a chromium-containing carbide distributed on grain boundaries and a secondary carbide precipitated on the matrix.

Description

A kind of high wear resistant and corrosion resistant ferrochrome exothermic

Technical field

This patent relates to a kind of high wear resistant and corrosion resistant ferrochrome exothermic, belongs to the material invention field.

Background technology

In flue gas desulphurization limestone-gypsum technique, there is low PH for the lime stone slurry that absorbs flue gas SO2, high Cl-concentration, the high characteristic containing solid particle, the pump housing that circulation is absorbed, impeller, stirring arm, nozzle, pipeline etc. have very high corrosion and abrasive action, therefore harsh especially to the material requirements of these local parts.

This station medium situation is: lime-lime stone slurry, and proportion 1.15-1.3, solid content 15-35%, temperature 40-70 ℃, chloride ion content is at 20000-50000ppm, and PH is between 4-6.5.

The current circulating pump impeller at this station, external pump industry mainly adopts the highly corrosion resistant material, as super-duplex stainless steel 2507, super austenitic stainless steel 254SMo, 654SMo, the materials erosion resistance can meet the requirement of this station fully, but hardness is basically all below HRC30, can not meet the requirement that the medium solid content is high, affect its work-ing life.Other domestic and international well-known pump corporate boss will adopt the line with rubber technology, and the rubber served as a contrast can meet the requirement of medium erosion resistant, but rubber use after certain hour can be aging and come off, change trouble and easy plug nozzle, cause desulfuration efficiency to descend.Some pump enterprises adopts the high chromium cast iron material of high abrasion, although hardness very high energy reach the HRC50-60 left and right, not corrosion-resistant in this acidity and the very high medium of chloride ion content, also impact and work-ing life.

Summary of the invention

The objective of the invention is in order to solve in prior art material or corrosion resistant but not wear-resisting, or wear-resisting but corrosion resistant not, thereby the problem that can't satisfy the demands provides a kind of high wear resistant and corrosion resistant ferrochrome exothermic.

The objective of the invention is to be achieved through the following technical solutions.

A kind of high wear resistant of the present invention and corrosion resistant ferrochrome exothermic, its composition comprises: carbon, manganese, silicon, chromium, nickel, molybdenum, copper, iron; Their massfraction is respectively: 0.5-2.0%, 0.5-2.0%, 0.5-2.0%, 27.0-35.0%, 0.5-3.0%, 0.5-3.0%, 0.5-3.0%, 49-71%; Its display organization is ferrite+austenite+granular eutectic carbides+proeutectoid carbide;

Described ferrochrome exothermic also comprises sulphur, phosphorus and other inclusion;

Preparation method's concrete steps of a kind of high wear resistant of the present invention and corrosion resistant ferrochrome exothermic are as follows:

Step 1, melting operation

1, be ready to the furnace charges such as soft steel, high carbon chromium, middle carbon chromium, molybdenum-iron, nickel plate, electrolytic copper, electrolytic manganese, graphite, silico-calcium by the alloying element requirement;

2, prepare scarfing cinder material and deoxidation material; The scarfing cinder material is lime and fluorite, and the preparation ratio is CaO: CaF2=3: 1; Deoxidation material is aluminium lime, and the preparation ratio is Al: CaO=2: 1;

3,, by ready material in step 11, after weighing weight according to the massfraction of ferrochrome exothermic, according to the order of soft steel, nickel plate, ferrochrome, molybdenum-iron, electrolytic copper, electrolytic manganese, silico-calcium, join successively in finishing stove;

4, monitoring device starts the melting of switching on after intact, obtains molten steel after dissolving; Top temperature is 1560 ℃; When being 1540-1560 ℃, temperature gets the on-the-spot sample analysis sample; Starts scarfing cinder with the scarfing cinder material after sampling, the addition of scarfing cinder material is Metal Weight 1%, divides and adds for 3 times; In the time of 1540 ± 20 ℃, start, with deoxidation material diffusive deoxidation 5-7 time, to add the deoxidation material of Metal Weight 0.05%, every crowd of interval 2-3 minute at every turn.In scarfing cinder and deoxidation process, according to the slag condition, with fluorite, slag is adjusted dense, then artificial slag hitting.

5, the on-the-spot sample analysis sample of step 14 being obtained is detected, and detects consistent that in the on-the-spot sample analysis sample, whether each component content requires with ferrochrome exothermic; If inconsistent, according to standard, composition is adjusted, reach the requirement of desired chemical composition; Finally obtain standard compliant molten steel;

6, the standard compliant molten steel of step 5 gained is come out of the stove 1540-1560 ℃ the time, the 0.2%-0.4% by this stove Metal Weight adds rare earth silicon to breed simultaneously, and the incubation time must not surpass 6 minutes, nucleating agent granularity≤15mm; Molten steel is poured in prefabricated sample die cavity, be cooled to room temperature, obtain sample.

Step 2, heat treatment step

The temperature of maintenance stove≤50 ℃, be positioned over the sample of step 16 gained in stove; The temperature of rising stove, per hour≤40 ℃ of heat-up rates, until between 600-800 ℃; Now be incubated 6-8 hour; Then after below furnace cooling to 100 ℃, be placed in air and be cooled to room temperature, can obtain high wear resistant and corrosion resistant ferrochrome exothermic.

Described " ferrite " refers to the body-centered cubic iron containing solid solution chromium;

Described " austenite " refers to the face-centered cubic iron containing solid solution carbon and chromium;

Beneficial effect

A kind of high wear resistant of the present invention and corrosion resistant ferrochrome exothermic, contain the elements such as the good alloy chromium of a large amount of easily passivation and pitting resistance, molybdenum, copper in the two-phase matrix, chromium is under the compound action of nickel, molybdenum, copper, greatly improve the corrosive nature of the media such as material reducing resistance medium, organic acid, can also improve material and be given the erosion resistance of material excellence by the two-phase matrix, simultaneously, the chromium containing carbide that is distributed in crystal boundary gives material good wear-corrosion resistance with the proeutectoid carbide be deposited on matrix.

The accompanying drawing explanation

Microstructure before the thermal treatment that Fig. 1 is this patent alloy;

Microstructure after the thermal treatment that Fig. 2 is this patent alloy.

Embodiment

Embodiment 1

A kind of high wear resistant and corrosion resistant ferrochrome exothermic comprise: carbon, manganese, silicon, chromium, nickel, molybdenum, copper, iron; Their massfraction is respectively: 0.5%, 0.5%, 0.5%, 27%, 0.5%, 0.5%, 0.5%, 70%; Its display organization is ferrite+austenite+granular eutectic carbides+proeutectoid carbide;

Described ferrochrome exothermic also comprises sulphur, phosphorus and other inclusion;

A kind of high wear resistant of this example and preparation method's concrete steps of corrosion resistant ferrochrome exothermic are as follows:

Step 1, melting operation

1, be ready to soft steel, high carbon chromium, middle carbon chromium, molybdenum-iron, nickel plate, electrolytic copper, electrolytic manganese, graphite, silico-calcium furnace charge by the alloying element requirement;

2, prepare scarfing cinder material and deoxidation material; The scarfing cinder material is lime and fluorite, and the preparation ratio is CaO: CaF2=3: 1; Deoxidation material is aluminium lime, and the preparation ratio is Al: CaO=2: 1;

3, by ready material in step 11, according to the molten steel gross weight of 60kg, according to the massfraction calculating of ferrochrome exothermic, required all kinds of charging weight (kg) is respectively soft steel 31.7, high carbon chromium 3.0, middle carbon chromium 24.0, nickel plate 0.3, molybdenum-iron 0.5, electrolytic manganese 0.1, electrolytic copper 0.3, silico-calcium 0.1, weigh weight by this requirement, then the order according to soft steel, nickel plate, ferrochrome, molybdenum-iron, electrolytic copper, electrolytic manganese, silico-calcium joins in finishing stove successively;

4, monitoring device starts the melting of switching on after intact, obtains molten steel after dissolving; Top temperature is 1560 ℃; When being 1550 ℃, temperature gets the on-the-spot sample analysis sample; Start scarfing cinder with the scarfing cinder material after sampling, the addition of scarfing cinder material is 6kg, divides and adds each 2kg 3 times; Start, with deoxidation material diffusive deoxidation 6 times, to add the deoxidation material of 0.03kg 3 minutes, the every batch of interval in the time of 1540 ℃ at every turn.With fluorite, the concentration of slag is coagulated the soup and made its gathering in scarfing cinder and deoxidation process.

5, the on-the-spot sample analysis sample of step 14 being obtained detects analysis, the composition of each alloying element is respectively: carbon 0.052%, manganese 0.49%, silicon 0.51%, chromium 27.02%, nickel 0.49%, molybdenum 0.50%, copper 0.51%, iron 70.43%, this component content does not need to carry out the composition adjustment in the limit of error of target component.

6, the standard compliant molten steel of step 5 gained is come out of the stove 1560 ℃ the time, add rare earth silicon 0.2kg to breed, 5 minutes incubation times, nucleating agent granularity≤15mm simultaneously; Molten steel is poured in prefabricated sample die cavity, be cooled to room temperature; Obtain sample;

Step 2, heat treatment step

The temperature of maintenance stove≤50 ℃, be positioned over the sample of step 16 gained in stove; The temperature of rising stove, per hour 40 ℃ of heat-up rates, until 700 ℃; Now be incubated 8 hours; Then after below furnace cooling to 100 ℃, be placed in air and be cooled to room temperature, can obtain the needed ferrochrome exothermic of embodiment 1.

As follows by after normal smelting and annealing thermal treatment, detecting performance:

Embodiment 2

A kind of high wear resistant and corrosion resistant ferrochrome exothermic comprise: carbon, manganese, silicon, chromium, nickel, molybdenum, copper, iron; Their massfraction is respectively: 2.0%, 2.0%, 2.0%, 35.0%, 3.0%, 3.0%, 3.0%, 50%.

Described ferrochrome exothermic also comprises sulphur, phosphorus and other inclusion;

A kind of high wear resistant of this example and preparation method's concrete steps of corrosion resistant ferrochrome exothermic are as follows:

Step 1, melting operation

1, be ready to soft steel, high carbon chromium, middle carbon chromium, molybdenum-iron, nickel plate, electrolytic copper, electrolytic manganese, graphite, silico-calcium furnace charge by the alloying element requirement;

2, prepare scarfing cinder material and deoxidation material; The scarfing cinder material is lime and fluorite, and the preparation ratio is CaO: CaF2=3: 1; Deoxidation material is aluminium lime, and the preparation ratio is Al: CaO=2: 1;

3, by ready material in step 11, according to the molten steel gross weight of 60kg, according to the massfraction calculating of ferrochrome exothermic, required all kinds of charging weight (kg) is respectively soft steel 16.3, high carbon chromium 13.0, middle carbon chromium 22.0, nickel plate 1.8, molybdenum-iron 3.0, electrolytic manganese 1.1, electrolytic copper 1.8, silico-calcium 1.0, weigh weight by this requirement, then the order according to soft steel, nickel plate, ferrochrome, molybdenum-iron, electrolytic copper, electrolytic manganese, silico-calcium joins in finishing stove successively;

4, monitoring device starts the melting of switching on after intact, obtains molten steel after dissolving; Top temperature is 1560 ℃; When being 1550 ℃, temperature gets the on-the-spot sample analysis sample; Start scarfing cinder with the scarfing cinder material after sampling, the addition of scarfing cinder material is 6kg, divides and adds each 2kg 3 times; Start, with deoxidation material diffusive deoxidation 6 times, to add the deoxidation material of 0.03kg 3 minutes, the every batch of interval in the time of 1540 ℃ at every turn.With fluorite, the concentration of slag is coagulated the soup and made its gathering in scarfing cinder and deoxidation process.

5, the on-the-spot sample analysis sample of step 14 being obtained detects analysis, the composition of each alloying element is respectively: carbon 1.998%, manganese 2.08%, silicon 2.04%, chromium 35.0%, nickel 3.0%, molybdenum 2.98%, copper 3.0%, iron 49.9%, this component content does not need to carry out the composition adjustment in the limit of error of target component.

6, the standard compliant molten steel of step 5 gained is come out of the stove 1560 ℃ the time, add rare earth silicon 0.2kg to breed, 5 minutes incubation times, nucleating agent granularity≤15mm simultaneously; Molten steel is poured in prefabricated sample die cavity, be cooled to room temperature; Obtain sample;

Step 2, heat treatment step

The temperature of maintenance stove≤50 ℃, be positioned over the sample of step 16 gained in stove; The temperature of rising stove, per hour 40 ℃ of heat-up rates, until 700 ℃; Now be incubated 8 hours; Then after below furnace cooling to 100 ℃, be placed in air and be cooled to room temperature, can obtain the needed ferrochrome exothermic of embodiment 2.

As follows by after normal smelting and annealing thermal treatment, detecting performance:

Embodiment 3

A kind of high wear resistant and corrosion resistant ferrochrome exothermic comprise: carbon, manganese, silicon, chromium, nickel, molybdenum, copper, iron; Their massfraction is respectively: 1.3%, 1.3%, 1.3%, 31.0%, 1.7%, 1.7%, 1.7%, 60%.

Described ferrochrome exothermic also comprises sulphur, phosphorus and other inclusion;

A kind of high wear resistant of this example and preparation method's concrete steps of corrosion resistant ferrochrome exothermic are as follows:

Step 1, melting operation

1, be ready to soft steel, high carbon chromium, middle carbon chromium, molybdenum-iron, nickel plate, electrolytic copper, electrolytic manganese, graphite, silico-calcium furnace charge by the alloying element requirement;

2, prepare scarfing cinder material and deoxidation material; The scarfing cinder material is lime and fluorite, and the preparation ratio is CaO: CaF2=3: 1; Deoxidation material is aluminium lime, and the preparation ratio is Al: CaO=2: 1;

3, by ready material in step 11, according to the molten steel gross weight of 60kg, according to the massfraction calculating of ferrochrome exothermic, required all kinds of charging weight (kg) is respectively soft steel 24.4, high carbon chromium 8.0, middle carbon chromium 23.0, nickel plate 1.0, molybdenum-iron 1.7, electrolytic manganese 0.6, electrolytic copper 1.0, silico-calcium 0.3, weigh weight by this requirement, then the order according to soft steel, nickel plate, ferrochrome, molybdenum-iron, electrolytic copper, electrolytic manganese, silico-calcium joins in finishing stove successively;

4, monitoring device starts the melting of switching on after intact, obtains molten steel after dissolving; Top temperature is 1560 ℃; When being 1550 ℃, temperature gets the on-the-spot sample analysis sample; Start scarfing cinder with the scarfing cinder material after sampling, the addition of scarfing cinder material is 6kg, divides and adds each 2kg 3 times; Start, with deoxidation material diffusive deoxidation 6 times, to add the deoxidation material of 0.03kg 3 minutes, the every batch of interval in the time of 1540 ℃ at every turn.With fluorite, the concentration of slag is coagulated the soup and made its gathering in scarfing cinder and deoxidation process.

5, the on-the-spot sample analysis sample of step 14 being obtained detects analysis, the composition of each alloying element is respectively: carbon 1.301%, manganese 1.29%, silicon 1.29%, chromium 31.0%, nickel 1.67%, molybdenum 1.69%, copper 1.67%, iron 60.09%, the limit of error of nickel and copper miss the mark composition in this composition, calculating need to add electrolytic copper 0.02kg, nickel plate 0.02kg.

6, the standard compliant molten steel of step 5 gained is come out of the stove 1560 ℃ the time, add rare earth silicon 0.2kg to breed, 5 minutes incubation times, nucleating agent granularity≤15mm simultaneously; Molten steel is poured in prefabricated sample die cavity, be cooled to room temperature; Obtain sample;

Step 2, heat treatment step

The temperature of maintenance stove≤50 ℃, be positioned over the sample of step 16 gained in stove; The temperature of rising stove, per hour 40 ℃ of heat-up rates, until 700 ℃; Now be incubated 8 hours; Then after below furnace cooling to 100 ℃, be placed in air and be cooled to room temperature, can obtain the needed ferrochrome exothermic of embodiment 3.

As follows by after normal smelting and annealing thermal treatment, detecting performance:

Embodiment 4

Composition (w%)

C	Mn	Si	Cr	Ni	Mo	Cu
							1.36	0.8	0.8	28.0	2.0	2.0	1.5

A kind of high wear resistant and corrosion resistant ferrochrome exothermic comprise: carbon, manganese, silicon, chromium, nickel, molybdenum, copper, iron; Their massfraction is respectively: 1.36%, 0.8%, 1.2%, 28.0%, 2.0%, 2.0%, 1.5%, 63.1%.

Described ferrochrome exothermic also comprises sulphur, phosphorus and other inclusion;

A kind of high wear resistant of this example and preparation method's concrete steps of corrosion resistant ferrochrome exothermic are as follows:

Step 1, melting operation

1, be ready to soft steel, high carbon chromium, middle carbon chromium, molybdenum-iron, nickel plate, electrolytic copper, electrolytic manganese, graphite, silico-calcium furnace charge by the alloying element requirement;

2, prepare scarfing cinder material and deoxidation material; The scarfing cinder material is lime and fluorite, and the preparation ratio is CaO: CaF2=3: 1; Deoxidation material is aluminium lime, and the preparation ratio is Al: CaO=2: 1;

3, by ready material in step 11, according to the molten steel gross weight of 60kg, according to the massfraction calculating of ferrochrome exothermic, required all kinds of charging weight (kg) is respectively soft steel 27.3, high carbon chromium 8.5, middle carbon chromium 19.5, nickel plate 1.2, molybdenum-iron 2.0, electrolytic manganese 0.3, electrolytic copper 0.9, silico-calcium 0.3, weigh weight by this requirement, then the order according to soft steel, nickel plate, ferrochrome, molybdenum-iron, electrolytic copper, electrolytic manganese, silico-calcium joins in finishing stove successively;

4, monitoring device starts the melting of switching on after intact, obtains molten steel after dissolving; Top temperature is 1560 ℃; When being 1550 ℃, temperature gets the on-the-spot sample analysis sample; Start scarfing cinder with the scarfing cinder material after sampling, the addition of scarfing cinder material is 6kg, divides and adds each 2kg 3 times; Start, with deoxidation material diffusive deoxidation 6 times, to add the deoxidation material of 0.03kg 3 minutes, the every batch of interval in the time of 1540 ℃ at every turn.With fluorite, the concentration of slag is coagulated the soup and made its gathering in scarfing cinder and deoxidation process.

5, the on-the-spot sample analysis sample of step 14 being obtained detects analysis, the composition of each alloying element is respectively: carbon 1.364%, manganese 0.82%, silicon 1.21%, chromium 28.1%, nickel 2.0%, molybdenum 1.98%, copper 1.51%, iron 63.0%, this component content does not need to carry out the composition adjustment in the limit of error of target component.

6, the standard compliant molten steel of step 5 gained is come out of the stove 1560 ℃ the time, add rare earth silicon 0.2kg to breed, 5 minutes incubation times, nucleating agent granularity≤15mm simultaneously; Molten steel is poured in prefabricated sample die cavity, be cooled to room temperature; Obtain sample;

Step 2, heat treatment step

The temperature of maintenance stove≤50 ℃, be positioned over the sample of step 16 gained in stove; The temperature of rising stove, per hour 40 ℃ of heat-up rates, until 700 ℃; Now be incubated 8 hours; Then after below furnace cooling to 100 ℃, be placed in air and be cooled to room temperature, can obtain the needed ferrochrome exothermic of embodiment 1.

As follows by after normal smelting and annealing thermal treatment, detecting performance:

By choose minimum in composition range, maximum, middle and and optimum value contrast and carries out mechanicl test and simulate the industrial and mineral corrosion test, can find, it is four kinds of optimum values in composition that composition in example 4 casts out the tensile strength, yield strength, ballistic work, hardness, the corrosion rate that carry out product, is also to meet most the needed mechanical property of flow passage part and corrosion-proof wear performance under this operating mode.

Claims (5)

1. a high wear resistant and corrosion resistant ferrochrome exothermic, it is characterized in that: composition comprises: carbon, manganese, silicon, chromium, nickel, molybdenum, copper, iron; Their massfraction is respectively: 0.5-2.0%, 0.5-2.0%, 0.5-2.0%, 27.0-35.0%, 0.5-3.0%, 0.5-3.0%, 0.5-3.0%, 49-71%.

2. a kind of high wear resistant as claimed in claim 1 and corrosion resistant ferrochrome exothermic, it is characterized in that: described ferrochrome exothermic also comprises sulphur, phosphorus and other inclusion.

3. preparation method's concrete steps of a high wear resistant and corrosion resistant ferrochrome exothermic are as follows:

Step 1, melting operation

1), be ready to the furnace charges such as soft steel, high carbon chromium, middle carbon chromium, molybdenum-iron, nickel plate, electrolytic copper, electrolytic manganese, graphite, silico-calcium by the alloying element requirement;

2), prepare scarfing cinder material and deoxidation material; The scarfing cinder material is lime and fluorite, and the preparation ratio is CaO: CaF2=3: 1; Deoxidation material is aluminium lime, and the preparation ratio is Al: CaO=2: 1;

3), by ready material in step 11, after weighing weight according to the massfraction of ferrochrome exothermic, according to the order of soft steel, nickel plate, ferrochrome, molybdenum-iron, electrolytic copper, electrolytic manganese, silico-calcium, join successively in finishing stove;

4), monitoring device starts the melting of switching on after intact, obtains molten steel after dissolving; Top temperature is 1560 ℃; When being 1540-1560 ℃, temperature gets the on-the-spot sample analysis sample; Starts scarfing cinder with the scarfing cinder material after sampling, the addition of scarfing cinder material is Metal Weight 1%, divides and adds for 3 times; In the time of 1540 ± 20 ℃, start, with deoxidation material diffusive deoxidation 5-7 time, to add the deoxidation material of Metal Weight 0.05%, every crowd of interval 2-3 minute at every turn; In scarfing cinder and deoxidation process, according to the slag condition, with fluorite, slag is adjusted dense, then artificial slag hitting;

5), on-the-spot sample analysis sample that step 14 is obtained detected, and detects consistent that in the on-the-spot sample analysis sample, whether each component content requires with ferrochrome exothermic; If inconsistent, according to standard, composition is adjusted, reach the requirement of desired chemical composition; Finally obtain standard compliant molten steel;

6), the standard compliant molten steel of step 5 gained is come out of the stove 1540-1560 ℃ the time, the 0.2%-0.4% by this stove Metal Weight adds rare earth silicon to breed simultaneously, and the incubation time must not surpass 6 minutes, nucleating agent granularity≤15mm; Molten steel is poured in prefabricated sample die cavity, be cooled to room temperature, obtain sample;

Step 2, heat treatment step

The temperature of maintenance stove≤50 ℃, be positioned over the sample of step 16 gained in stove; The temperature of rising stove, per hour≤40 ℃ of heat-up rates, until between 600-800 ℃; Now be incubated 6-8 hour; Then after below furnace cooling to 100 ℃, be placed in air and be cooled to room temperature, can obtain high wear resistant and corrosion resistant ferrochrome exothermic.

4. a kind of high wear resistant as described as claim 1 or 3 and corrosion resistant ferrochrome exothermic is characterized in that: described " ferrite " refers to the body-centered cubic iron containing solid solution chromium.

5. a kind of high wear resistant as described as claim 1 or 3 and corrosion resistant ferrochrome exothermic is characterized in that: described " austenite " refers to the face-centered cubic iron containing solid solution carbon and chromium.

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