CN102352465A - Superhigh strength cast steel, and preparation method and welding process thereof - Google Patents

Abstract

The invention relates to superhigh strength cast steel, and a preparation method and a welding process thereof. The superhigh strength cast steel comprises the following chemical components in percentage by weight: 0.15 to 0.21 percent of C, 0.17 to 0.37 percent of Si, 0.5 to 0.8 percent of Mn, 0.7 to 1.0 percent of Cr, 0.45 to 0.55 percent of Mo, 0.02 to 0.04 percent of Ti, 0.01 to 0.02 percent of Re residue, 0.03 to 0.05 percent of Al residue, less than or equal to 0.03 percent of S, less than or equal to 0.03 percent of P and the balance of Fe. The superhigh strength cast steel reduces the C content, the Cr content and the Mo content, maintains the Si content and the Mn content unchanged, adds the elements of Ti and Re, increases one step of normalizing treatment based on the conventional industrialized heat treatment process, obviously improves comprehensive mechanical properties, has excellent welding performance and low comprehensive cost, and can meet the using requirement of cast steel materials for large mining height hydraulic brackets completely.

Description

A kind of superstrength cast steel and preparation method thereof and weldprocedure

Technical field

The present invention relates to a kind of cast steel and preparation method thereof and weldprocedure, relate in particular to a kind of superstrength cast steel and preparation method thereof and weldprocedure.

Background technology

At present, the colliery industry all adopts steel casting with some component such as column-fossa, connecting joint class, guide rail on the hydraulic support.Because support the time will bear the alternating shock load that falls to causing from the vertical pressure of top board and a large amount of coal, stone in work, therefore, require the column-fossa steel casting will have preferably comprehensive mechanical performance and good welding property.

Needs along with market; Coal machine industry is all being greatly developed high-end big mining height hydraulic support; Because fully-mechanized mining working is high; Supporting intensity requires also correspondingly to improve greatly; This just needs structural part to adopt a large amount of high tensile steel plates; The intensity rank of hydraulic support steel develops into 100kg, 110kg by 50kg, 60kg, even to the 120kg level.

The armor plate strength of structural part improves, and the intensity of column-fossa steel casting also will be complementary with it, and the yield strength of existing two kinds of material ZG27SiMn commonly used and ZG30Cr06, tensile strength are all than low R _EL, R _m＜1000MPa can not satisfy the requirement of product to material mechanical performance.

Event needs the high-strength cast steel material of development of new again, and its mechanical property mainly is requirement tensile strength R _m＞1000MPa.Through domestic and international concerned countries standard of inquiry and cast steel standard data of the same trade; Relatively the Hi-Stren steel near above-mentioned performance has forged steel AISI8620 (AISI standard A ISIA29/A29M-2005); But because its C and Cr constituent content are lower; So its intensity is not high; And because the performance of cast steel is poorer than the forged steel with sample ingredient; So it can not satisfy the needs of use properties, on its basis, still need further to improve.

Summary of the invention

The present invention is directed to the existing lower deficiency of cast steel intensity, a kind of superstrength cast steel and preparation method thereof and weldprocedure are provided.

The technical scheme that the present invention solves the problems of the technologies described above is following: a kind of trade mark is that the chemical component weight per-cent of the superstrength cast steel of ZG18CrMnMoRe is: C 0.15%～0.21%; Si 0.17%～0.37%; Mn 0.5%～0.8%; Cr 0.7%～1.0%; Mo 0.45%～0.55%; Ti 0.02%～0.04%, rare earth element Re _Residual0.01%～0.02%, Al _Residual0.03～0.05%, S≤0.03%, P≤0.03%, surplus is Fe.

On the basis of technique scheme, the present invention can also do following improvement.

Further; Said rare earth element Re is to add with the form of rare earth ferrosilicon alloy; The said rare earth ferrosilicon alloy trade mark is FeSiRe23, FeSiRe26, FeSiRe29, FeSiRe32-A, FeSiRe32-B, FeSiRe35-A or FeSiRe35-B; Wherein, Re is for mainly comprising the mixture of cerium, lanthanum and yttrium.

The present invention also provides a kind of technical scheme that solves the problems of the technologies described above following: a kind of preparation method of superstrength cast steel may further comprise the steps:

Step 10: feed intake by each chemical ingredients proportioning except that rare earth element and aluminium element in the chemical ingredients of above-mentioned superstrength cast steel, carry out melting and handle with slagging-off;

Step 20: add end-deoxidizer Al and mixed rare-earth elements in the casting ladle bottom before molten steel is come out of the stove, stir, molten steel is come out of the stove then, in casting ladle, leaves standstill once more and drags for slag, and cast at last forms workpiece;

Step 30: adopt annealing successively, normalizing and modified technological process that workpiece is heat-treated.

Further, said step 10 comprises: at first, with steel scrap and scrap iron prepare burden the back and carry out melting, smelting temperature is 1550 ℃～1580 ℃; Then, treat that steel scrap and scrap iron melt fully after, add ferrochrome, ferro-molybdenum and sheet nickel again, and at the preceding 7min～10min that comes out of the stove, carry out deslagging and handle; Then, add ferro-silicon and manganeseirom again, and, add ferro-titanium, then come out of the stove at the preceding 2min～3min that comes out of the stove.

Further; Mixed rare-earth elements is a rare earth ferrosilicon alloy in the said step 10; The said rare earth ferrosilicon alloy trade mark is FeSiRe23, FeSiRe26, FeSiRe29, FeSiRe32-A, FeSiRe32-B, FeSiRe35-A or FeSiRe35-B; Wherein, Re is for mainly comprising the mixture of cerium, lanthanum and yttrium.

Further, the temperature of the molten steel after coming out of the stove in the said step 20 is 1630 ℃～1660 ℃.

Further, the add-on of end-deoxidizer Al accounts for 0.08～0.12% of molten steel weight in the said step 20, and the add-on of said mixed rare-earth elements accounts for 0.15%～0.2% of molten steel weight.

Further, said step 20 comprises: at first, put into end-deoxidizer Al and rare earth ferrosilicon alloy in the casting ladle bottom; Stir; Molten steel is come out of the stove then, and said rare earth ferrosilicon alloy size is less than 5mm, and said rare earth ferrosilicon alloy carries out the baking of 1h～2h before adding; Then, the molten steel after coming out of the stove is transferred in the casting ladle, treats that molten steel leaves standstill after 1 minute～3 minutes to drag for slag in casting ladle, pour into a mould the formation workpiece at 1570 ℃～1600 ℃ again.

Further, said step 30 comprises:

The process of anneal is to be incubated 200min down at 890 ℃～910 ℃, when temperature in the stove drops to 500 ℃, pulls out naturally cooling;

The process of normalizing treatment is in air, to cool off behind insulation for some time t1 down at 900 ℃～920 ℃;

The modifier treatment process is shrend behind insulation for some time t1 under 890 ℃～910 ℃;

The time t1=α kD of said insulation, wherein, α is soaking time coefficient (relevant with stove), for steel alloy, in box-type furnace or pit furnace, heats, α gets 1.2min/mm～1.5min/mm; K is a workpiece shove charge coefficient, and it is confirmed according to what of batch, when batch is big; The K value also should obtain bigger, generally confirms that by experiment K gets 1.8～2.0 here; D is the net thickness (mm) of workpiece; The calculating of D: right cylinder cut-off footpath, square sectional is got the length of side, and it is long that minor face is got in the rectangle cross section; Plate is got thickness of slab; Sleeve class workpiece is got wall thickness, and cone is got the 2/3 length place diameter from the microcephaly, and spheroid is got 0.6 times of sphere diameter;

And then shrend behind insulation for some time t2 under 530 ℃～550 ℃, said soaking time t2=Bn+AnKnD, wherein, Bn is an additional period, is generally 10～20min; An is a heating coefficient; The heating coefficient of pit furnace is 1.0min/mm～1.5min/mm; The heating coefficient of box-type furnace is 2.0min/mm～2.5min/mm; But in actual production; What and charging mode according to batch; Also will add a shove charge correction factor Kn, get 1.0～1.5, D remains the net thickness of workpiece.

The present invention also provides a kind of technical scheme that solves the problems of the technologies described above following: a kind of weldprocedure of above-mentioned superstrength cast steel is included in carries out weld preheating and adopts shielded welding and high-strength low hydrogen welding wire to carry out welded seam in the heat treatment furnace; Wherein, Interlayer temperature is controlled at 150 ℃～200 ℃ during welding; Welding current 230A～260A; Weldingvoltage 26V～28V; Welding speed 350mm/min～450mm/min, manual heat input 15KJ/cm～18KJ/cm.

Further, the step back of said welded seam also is included in the step of carrying out after welding treatment in the heat treatment furnace.

Further, said weld preheating be in heat treatment furnace under 170 ℃～190 ℃, according to the difference of weldment net thickness, the insulation for some time t3; The welding condition of said welded seam is: adopt 82%Ar+18%CO ₂The high-strength low hydrogen welding wire welding of 90 feather weight is adopted in argon-rich gas shielded weldering; After the welding fully, weldment is put into heat treatment furnace carry out postweld heat treatment, be specially and between 250 ℃～350 ℃, carry out the postwelding hydrogen that disappears and handle, according to the difference of weldment net thickness, insulation for some time t4, and temperature＜200 of weldment after coming out of the stove ℃.

Further, when weldment net thickness≤20mm, soaking time t3 is 0.5 hour, and soaking time t4 is 2 hours; When 20mm＜weldment net thickness≤60mm, soaking time t3 is 1 hour, and soaking time t4 is 3 hours; When 60mm＜weldment net thickness≤100mm, soaking time t3 is 2 hours, and soaking time t4 is 4 hours.

The invention has the beneficial effects as follows: superstrength cast steel of the present invention has improved the content of Cr, Mo and Ni; Keep the content of Si and Mn constant; And element ti and RE have been added; And than conventional industrialization thermal treatment process Duoed one the step normalizing treatment; Compare with the ZG30Cr06 cast steel material with existing ZG27SiMn, comprehensive mechanical performance is significantly increased, and welding property is excellent; Comprehensive cost is not high, can satisfy the service requirements of big mining height hydraulic support with cast steel material fully.

Description of drawings

Fig. 1 is the metallographic structure figure after the superstrength cast steel of the present invention thermal treatment;

Fig. 2 welds the structural representation of test block for the present invention;

The structural representation of Fig. 3 Y type of the present invention test block;

The structural representation of Fig. 4 welding piece of the present invention.

Embodiment

Below in conjunction with accompanying drawing principle of the present invention and characteristic are described, institute gives an actual example and only is used to explain the present invention, is not to be used to limit scope of the present invention.

Cr can significantly improve intensity, hardness and wear resistance in the superstrength cast steel of the present invention, can obviously reduce toughness but add too much, so the content that needs to reduce C improves toughness; Mo can make the grain refining of steel, improves hardening capacity, the temper brittleness that is caused by Cr and Ni in the steel alloy in the time of can also suppressing tempering; Because the too much adding of Cr and Mo all can significantly reduce welding property, thus need adding Ti improve welding property, and also strong carbide forming element Ti can crystal grain thinning and precipitation strength, raising cast steel intensity; Rare earth (RE) but crystal grain thinning and improve the form and the distribution of non-metallic inclusion then significantly improves the toughness and the welding property of improving steel of steel; And the purpose that adds a step normalizing in the heat treatment process is to separate out for these alloying elements can be precipitated from sosoloid with tiny compound particle; And play the effect of crystal grain thinning simultaneously; When improving intensity; The plasticity and the toughness of steel have suitably been improved, to reach optimum properties.

The trade mark of the present invention is that the superstrength cast steel of ZG18CrMnMoRe is: tempered sorbite+tempering troostite through the metallographic structure of gained after the modifier treatment.Perlite synusia group such as is at the axle shape; Size is tiny and be evenly distributed; Shown in Fig. 1 (a); On the ferrite that waits the axle shape, be uniform-distribution with granuliform carbide; And cementite particle difficult resolution under opticmicroscope; Shown in Fig. 1 (b), both grain fineness numbers all reach (about 15 μ m) more than 9 grades.

Through test, the trade mark of producing according to the present invention is that the superstrength cast steel of ZG18CrMnMoRe and the mechanical property of existing ZG27SiMn, ZG30Cr06 and ZG22CrMnMo contrast as shown in table 1.

The mechanical property of table 1 Hi-Stren steel

Correlation data can be found out from table 1; Cast steel ZG18CrMnMoRe material hardness and existing three kinds of materials that the present invention produces are similar; Intensity has reached the performance index of forged steel AISI8620, but will specific tenacity and plasticity and toughness all are significantly improved mutually with ZG27SiMn and ZG30Cr06.

The raw materials cost contrast of table 2 Hi-Stren steel

The trade mark	Raw materials cost (unit/ton)
		ZG27SiMn	3930
ZG30Cr06	3915
		AISI8620	4890
ZG18CrMnMoRe	4661

Can find out from the cost analysis of table 2; Though ZG18CrMnMoRe compares with AISI8620; Product material cost per ton has only increased by 700 yuan; Comparing with ZG30Cr06 with ZG27SiMn has increased by 250 yuan/ton; But with the ultrahigh-strength steel of external import easily several ten thousand yuan/tons price compare and want cheap a lot, the market advantage is very big.

After superstrength cast steel thermal treatment of the present invention is accomplished, in actual production, also need strict control welding procedure parameter, avoid producing welding cold cracking and thermal crack, influence the reliability of product.So, also to carry out the welding property test to cast steel ZG18CrMnMoRe, test-results is seen table 3.

The welding property of table 3 ZG18CrMnMoRe

The crackle kind	The surface crack rate	The section crack rate
			Numerical value	0％	0％

Can find out that from table 3 after postweld heat treatment, the welding property of ZG18CrMnMoRe is fine.

In sum, the cast steel ZG18CrMnMoRe that the present invention produces has excellent mechanical property, excellent welding property and raw materials cost hangs down three big advantages, can satisfy the service requirements of hydraulic support cast steel material fully.

Be that the superstrength cast steel of ZG18CrMnMoRe is done further detailed description with three embodiment to the trade mark of the present invention below.

Embodiment 1

The preparation of superstrength cast steel and method of use comprise following smelting, cast, thermal treatment and welding procedure, and its concrete processing parameter is:

(1) smelting technology

In the 200Kg intermediate frequency furnace, carry out melting,＜0.03% the Q235 I-shaped steel scrap and the Q10 pig iron are smelted as raw material respectively to choose sulphur, phosphorus content.Melt most steel scrap 188.16kg and scrap iron 3.78kg earlier; Smelting temperature is 1550 ℃; After wholeization of aniseed are clear; Add 1.91kg low carbon ferrochromium FeCr69C0.25 again and 2.38kg ferro-molybdenum FeMo60-A carries out melting; Preceding 10min comes out of the stove; Carrying out deslagging handles; Add 0.65kg ferrosilicon FeSi75Al1.0-A again; 2.17kg mid-carbon fe-mn FeMn78C2.0; The preceding 3min that comes out of the stove adds 0.37kg ferrotianium FeTi30-A, puts into 0.24kg end-deoxidizer Al and 0.29kg rare earth ferrosilicon alloy FeSiRE23 in the casting ladle bottom at last; End-deoxidizer Al is the fine aluminium sheet; Rare earth ferrosilicon alloy is broken into bulk, and size＜5mm is with preceding baking 2h.

(2) pouring technology

The tapping temperature of the molten steel height of trying one's best is 1660 ℃, treat that molten steel leaves standstill 2min in casting ladle after, 1580 ℃ of welding test blocks that pour into standard as shown in Figure 2 with the test block of Y type as shown in Figure 3.

(3) thermal treatment process

Behind the test block castable, put into RT type bench vehicle type electrical resistance furnace and heat-treat.Adopt annealing+normalizing+modified heat treatment process, be incubated 200min down, when temperature in the stove drops to 500 ℃, pull out naturally cooling at 900 ℃; The normalizing treatment temperature is 910 ℃, in air, cools off behind the insulation 120min; Modifier treatment is shrend behind insulation 120min under 900 ℃, and then shrend behind insulation 180min under 550 ℃ (calculating t1=α KD, α gets 1.3min/mm, and k gets 1.8, and D gets 50mm, and t1=1.3min/mm * 1.8 * 50mm=117min is so get t1=120min; Calculate t2=Bn+AnKnD, Bn gets 20min, and An gets 2.3mm/min, and Kn gets 1.4, and D gets 50mm, and t2=20min+2.3mm/min * 2.3mm/min * 1.4=181min is so get t2=180min).

Through above technology, can prepare superstrength cast steel ZG18CrMnMoRe, the mass percent of its contained element consists of: C 0.17%, and Si 0.27%, and Mn 0.54%, and Cr 0.81%, and Mo 0.49%, and Ti 0.032%, Re _Residual0.012%, Al _Residual0.04%, S 0.028%, and P 0.018%; All the other are ferro element.

Make superstrength cast steel of the present invention, the mechanical property of cast steel is: tensile strength 1050MPa, yield strength 893MPa, unit elongation 15%, relative reduction in area 29%, impact absorbing energy 33J, impelling strength 40J/cm ², hardness 298HB.

After superstrength cast steel thermal treatment of the present invention is accomplished, in actual production, also need strict control welding procedure parameter, avoid producing welding cold cracking and thermal crack, influence the reliability of product.As shown in Figure 4, the weldprocedure of test specimen comprises weld preheating, welded seam, three processes of after welding treatment, and weld preheating is meant preheating in heat treatment furnace, is incubated 60min down at 180 ℃; Welding condition is: adopt 82%Ar+18%CO ₂The high-strength low hydrogen welding wire welding of 90 feather weight is adopted in argon-rich gas shielded weldering, and interlayer temperature is controlled at 150 ℃, welding current 250A, weldingvoltage 27V, welding speed 400mm/min, manual heat input 16.8KJ/cm; The postwelding hydrogen that disappears is handled, and at 300 ℃ of insulation 180min down, is cooled to below 200 ℃, pulls out the fire door cooling.Surface crack rate and section crack rate that the welding property test obtains all are 0%.

Embodiment 2

The preparation of superstrength cast steel and method of use comprise following smelting, cast, thermal treatment and welding procedure, and its concrete processing parameter is:

(1) smelting technology

In the 200Kg intermediate frequency furnace, carry out melting,＜0.03% the Q235 I-shaped steel scrap and the Q10 pig iron are smelted as raw material respectively to choose sulphur, phosphorus content.Melt most steel scrap 187.62kg and scrap iron 4.22kg earlier; Smelting temperature is 1580 ℃; After wholeization of aniseed are clear; Add 2.00kg medium carbon ferrochrome FeCr69C1.0 again and 2.12kg ferro-molybdenum FeMo70 carries out melting; Preceding 7min comes out of the stove; Carrying out deslagging handles; Add 0.75kg ferrosilicon FeSi75-A again; 2.49kg mid-carbon fe-mn mid-carbon fe-mn FeMn82C1.5; The preceding 2min that comes out of the stove adds 0.24kg ferrotianium FeTi40-A, puts into 0.27kg end-deoxidizer Al and 0.29kg rare earth ferrosilicon alloy FeSiRE26 in the casting ladle bottom at last; End-deoxidizer Al is the fine aluminium sheet; Rare earth ferrosilicon alloy is broken into bulk, and size＜5mm is with preceding baking 2h.

(2) pouring technology

The tapping temperature of the molten steel height of trying one's best is 1650 ℃, treat that molten steel leaves standstill 3min in casting ladle after, 1600 ℃ of welding test blocks that pour into standard as shown in Figure 2 with the test block of Y type as shown in Figure 3.

(3) thermal treatment process

Behind the test block castable, put into RT type bench vehicle type electrical resistance furnace and heat-treat.Adopt annealing+normalizing+modified heat treatment process, be incubated 200min down, when temperature in the stove drops to 500 ℃, pull out naturally cooling at 890 ℃; The normalizing treatment temperature is 920 ℃, in air, cools off behind the insulation 120min; Modifier treatment is shrend behind insulation 120min under 890 ℃, and then shrend behind insulation 180min under 540 ℃ (calculating t1=α KD, α gets 1.3min/mm, and k gets 1.8, and D gets 50mm, and t1=1.3min/mm * 1.8 * 50mm=117min is so get t1=120min; Calculate t2=Bn+AnKnD, Bn gets 20min, and An gets 2.3mm/min, and Kn gets 1.4, and D gets 50mm, and t2=20min+2.3mm/min * 2.3mm/min * 1.4=181min is so get t2=180min).

Through above technology, can prepare superstrength cast steel ZG18CrMnMoRe, the mass percent of its contained element consists of: C 0.19%, and Si 0.31%, and Mn 0.65%, and Cr 0.85%, and Mo 0.51%, and Ti 0.028%, Re _Residual0.015%, Al _Residual0.04%, S 0.025%, and P 0.017%; All the other are ferro element.

Make superstrength cast steel of the present invention, the mechanical property of cast steel is: tensile strength 1032MPa, yield strength 889MPa, unit elongation 14%, relative reduction in area 27%, impact absorbing energy 32J, impelling strength 41J/cm ², hardness 289HB.

After superstrength cast steel thermal treatment of the present invention is accomplished, in actual production, also need strict control welding procedure parameter, avoid producing welding cold cracking and thermal crack, influence the reliability of product.As shown in Figure 4, the weldprocedure of test specimen comprises weld preheating, welded seam, three processes of after welding treatment, and weld preheating is meant preheating in heat treatment furnace, is incubated 60min down at 190 ℃; Welding condition is: adopt 82%Ar+18%CO ₂The high-strength low hydrogen welding wire welding of 90 feather weight is adopted in argon-rich gas shielded weldering, and interlayer temperature is controlled at 160 ℃, welding current 260A, weldingvoltage 26V, welding speed 420mm/min, manual heat input 16KJ/cm; The postwelding hydrogen that disappears is handled, and at 320 ℃ of insulation 180min down, is cooled to below 200 ℃, pulls out the fire door cooling.Surface crack rate and section crack rate that the welding property test obtains all are 0%.

Embodiment 3

The preparation of superstrength cast steel and method of use comprise following smelting, cast, thermal treatment and welding procedure, and its concrete processing parameter is:

(1) smelting technology

In the 200Kg intermediate frequency furnace, carry out melting,＜0.03% the Q235 I-shaped steel scrap and the Q10 pig iron are smelted as raw material respectively to choose sulphur, phosphorus content.Melt most steel scrap 184.64kg and scrap iron 4.45kg earlier; Smelting temperature is 1560 ℃; After wholeization of aniseed are clear; Add 2.81kg medium carbon ferrochrome FeCr55C100 again and 2.81kg ferro-molybdenum FeMo55-A carries out melting; Preceding 10min comes out of the stove; Carrying out deslagging handles; Add 0.97kg ferrosilicon FeSi65 again; 3.33kg mid-carbon fe-mn FeMn84C0.4; The preceding 3min that comes out of the stove adds 0.41kg ferrotianium FeTi30-B, puts into 0.29kg end-deoxidizer Al and 0.29kg rare earth ferrosilicon alloy FeSiRE29 in the casting ladle bottom at last; End-deoxidizer Al is the fine aluminium sheet; Rare earth ferrosilicon alloy is broken into bulk, and size＜5mm is with preceding baking 2h.

(2) pouring technology

The tapping temperature of the molten steel height of trying one's best is 1640 ℃, treat that molten steel leaves standstill 2min in casting ladle after, 1570 ℃ of welding test blocks that pour into standard as shown in Figure 2 with the test block of Y type as shown in Figure 3.

(3) thermal treatment process

Behind the test block castable, put into RT type bench vehicle type electrical resistance furnace and heat-treat.Adopt annealing+normalizing+modified heat treatment process, be incubated 200min down, when temperature in the stove drops to 500 ℃, pull out naturally cooling at 910 ℃; The normalizing treatment temperature is 900 ℃, in air, cools off behind the insulation 120min; Modifier treatment is shrend behind insulation 120min under 910 ℃, and then shrend behind insulation 180min under 530 ℃ (calculating t1=α KD, α gets 1.3min/mm, and k gets 1.8, and D gets 50mm, and t1=1.3min/mm * 1.8 * 50mm=117min is so get t1=120min; Calculate t2=Bn+AnKnD, Bn gets 20min, and An gets 2.3mm/min, and Kn gets 1.4, and D gets 50mm, and t2=20min+2.3mm/min * 2.3mm/min * 1.4=181min is so get t2=180min).

Through above technology, can prepare superstrength cast steel ZG18CrMnMoRe, the mass percent of its contained element consists of: C 0.20%, and Si 0.35%, and Mn 0.77%, and Cr 0.95%, and Mo 0.53%, and Ti 0.035%, Re _Residual0.018%, Al _Residual0.05%, S 0.021%, and P 0.015%; All the other are ferro element.

Make superstrength cast steel of the present invention, the mechanical property of cast steel is: tensile strength 1043MPa, yield strength 885MPa, unit elongation 16%, relative reduction in area 31%, impact absorbing energy 35J, impelling strength 43J/cm ², hardness 303HB.

After superstrength cast steel thermal treatment of the present invention is accomplished, in actual production, also need strict control welding procedure parameter, avoid producing welding cold cracking and thermal crack, influence the reliability of product.As shown in Figure 4, the weldprocedure of test specimen comprises weld preheating, welded seam, three processes of after welding treatment, and weld preheating is meant preheating in heat treatment furnace, is incubated 60min down at 170 ℃; Welding condition is: adopt 82%Ar+18%CO ₂The high-strength low hydrogen welding wire welding of 90 feather weight is adopted in argon-rich gas shielded weldering, and interlayer temperature is controlled at 180 ℃, welding current 240A, weldingvoltage 28V, welding speed 380mm/min, manual heat input 17.6KJ/cm; The postwelding hydrogen that disappears is handled, and at 280 ℃ of insulation 180min down, is cooled to below 200 ℃, pulls out the fire door cooling.Surface crack rate and section crack rate that the welding property test obtains all are 0%.

The above only is preferred embodiment of the present invention, and is in order to restriction the present invention, not all within spirit of the present invention and principle, any modification of being done, is equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (13)

1. a superstrength cast steel is characterized in that, its chemical component weight per-cent is: C 0.15%～0.21%, and Si 0.17%～0.37%, and Mn 0.5%～0.8%, and Cr 0.7%～1.0%, and Mo 0.45%～0.55%, and Ti 0.02%～0.04%, rare earth element Re _Residual0.01%～0.02%, Al _Residual0.03～0.05%, S≤0.03%, P≤0.03%, surplus is Fe.

2. superstrength cast steel according to claim 1 is characterized in that, said rare earth element Re is to add with the form of rare earth ferrosilicon alloy, and wherein, Re is the mixture that comprises cerium, lanthanum and yttrium.

3. the preparation method of a superstrength cast steel is characterized in that, said preparation method may further comprise the steps:

Step 10: feed intake by each chemical ingredients proportioning except that rare earth element and aluminium element in the chemical ingredients of claim 1 or 2 described superstrength cast steels, carry out melting and handle with slagging-off;

Step 20: add end-deoxidizer Al and mixed rare-earth elements in the casting ladle bottom before molten steel is come out of the stove, stir, molten steel is come out of the stove then, in casting ladle, leaves standstill once more and drags for slag, and cast at last forms workpiece;

Step 30: adopt annealing successively, normalizing and modified technological process that workpiece is heat-treated.

4. the preparation method of superstrength cast steel according to claim 3 is characterized in that, said step 10 comprises: at first, with steel scrap and scrap iron prepare burden the back and carry out melting, smelting temperature is 1550 ℃～1580 ℃; Then, treat that steel scrap and scrap iron melt fully after, add ferrochrome, ferro-molybdenum and sheet nickel again, and at the preceding 7min～10min that comes out of the stove, carry out deslagging and handle; Then, add ferro-silicon and manganeseirom again, and, add ferro-titanium, then come out of the stove at the preceding 2min～3min that comes out of the stove.

5. the preparation method of superstrength cast steel according to claim 3 is characterized in that, mixed rare-earth elements is a rare earth ferrosilicon alloy in the said step 10, and wherein, Re is the mixture that comprises cerium, lanthanum and yttrium.

6. the preparation method of superstrength cast steel according to claim 3 is characterized in that, the temperature of the molten steel after coming out of the stove in the said step 20 is 1630 ℃～1660 ℃.

7. the preparation method of superstrength cast steel according to claim 3 is characterized in that, the add-on of end-deoxidizer Al accounts for 0.08～0.12% of molten steel weight in the said step 20, and the add-on of said mixed rare-earth elements accounts for 0.15%～0.2% of molten steel weight.

8. the preparation method of superstrength cast steel according to claim 3; It is characterized in that; Said step 20 comprises: at first; Put into end-deoxidizer Al and rare earth ferrosilicon alloy in the casting ladle bottom; Stir; Molten steel is come out of the stove then, and the block size of said rare earth ferrosilicon alloy is less than 5mm, and said rare earth ferrosilicon alloy carries out the baking of 1h～2h before adding; Then, the molten steel after coming out of the stove is transferred in the casting ladle, treats that molten steel leaves standstill after 1 minute～3 minutes to drag for slag in casting ladle, pour into a mould the formation workpiece at 1570 ℃～1600 ℃ again.

9. the preparation method of superstrength cast steel according to claim 3 is characterized in that, said step 30 comprises:

The process of anneal is to be incubated 200min down at 890 ℃～910 ℃, when temperature in the stove drops to 500 ℃, pulls out naturally cooling;

The process of normalizing treatment is in air, to cool off behind insulation for some time t1 down at 900 ℃～920 ℃;

The modifier treatment process is shrend behind insulation for some time t1 under 890 ℃～910 ℃;

The time t1=α kD of said insulation, wherein, α is the soaking time coefficient, gets 1.2min/mm～1.5min/mm when in box-type furnace or pit furnace, heating; K is a workpiece shove charge coefficient, gets 1.8～2.0, and D is the net thickness of workpiece;

And then shrend behind insulation for some time t2 under 530 ℃～550 ℃, said soaking time t2=Bn+AnKnD, wherein, Bn is an additional period, gets 10min～20min; An is a heating coefficient, gets 1.0 min/mm～1.5 min/mm when in pit furnace, heating, and gets 2.0min/mm～2.5min/mm when in box-type furnace, heating; Kn shove charge correction factor gets 1.0～1.5.

10. the weldprocedure of a superstrength cast steel as claimed in claim 1 or 2; It is characterized in that; Said weldprocedure is included in carries out weld preheating and adopts shielded welding and high-strength low hydrogen welding wire to carry out welded seam in the heat treatment furnace; Wherein, Interlayer temperature is controlled at 150 ℃～200 ℃ during welding, welding current 230A～260A, weldingvoltage 26V～28V; Welding speed 350 mm/min～450mm/min, manual heat input 15 KJ/cm～18KJ/cm.

11. the weldprocedure of superstrength cast steel according to claim 10 is characterized in that, the step back of said welded seam also is included in the step of carrying out after welding treatment in the heat treatment furnace.

12. the weldprocedure of superstrength cast steel according to claim 11 is characterized in that, said weld preheating be in heat treatment furnace under 170 ℃～190 ℃, according to the difference of weldment net thickness, the insulation for some time t3; The welding condition of said welded seam is: adopt 82%Ar+18%CO ₂The high-strength low hydrogen welding wire welding of 90 feather weight is adopted in argon-rich gas shielded weldering; After the welding fully, weldment is put into heat treatment furnace carry out postweld heat treatment, be specially and between 250 ℃～350 ℃, carry out the postwelding hydrogen that disappears and handle, according to the difference of weldment net thickness, insulation for some time t4, and temperature＜200 of weldment after coming out of the stove ℃.

13. the weldprocedure of superstrength cast steel according to claim 12 is characterized in that, when weldment net thickness≤20mm, soaking time t3 is 0.5 hour, and soaking time t4 is 2 hours; When 20mm＜weldment net thickness≤60mm, soaking time t3 is 1 hour, and soaking time t4 is 3 hours; When 60mm＜weldment net thickness≤100mm, soaking time t3 is 2 hours, and soaking time t4 is 4 hours.

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