CN106756492A - A kind of cylinder jacket high-strength corrosion-resistant steel plate and its processing technology - Google Patents

Abstract

The invention discloses a kind of cylinder jacket high-strength corrosion-resistant steel plate and its processing technology, the steel plate includes following component by mass percentage：C：0.63 0.87%, Cr：0.23 0.36%, Si：0.20 0.26%, Mn：0.70 0.83%, V：0.08 0.25%, Co：0.003 0.006%, S：0.001 0.002%, Mo：0.10 0.32%, Al：0.054 0.062%, N：0.002 0.004%, Nb：0.032 0.058%, Cu：0.02 0.05%, Ni:0.60 0.65%, W：0.12 0.17%, Mg：0.001 0.002%, Ti：0.003 0.007%, balance of Fe and inevitable impurity；Present invention manufacture corrosion resistance and good, intensity are high.

Description

A kind of cylinder jacket high-strength corrosion-resistant steel plate and its processing technology

Technical field

It is specifically a kind of cylinder jacket high-strength corrosion-resistant steel plate the present invention relates to a kind of steel plate and preparation method thereof And its processing technology.

Background technology

Cylinder jacket is one of vital part of engine, and current its material is generally common grey iron or alloy gray cast-iron.Should Class cylinder jacket is mainly by carbon equivalent and alloy strengthening is reduced to meet the requirement of intensity and wearability, and tensile strength is generally Below 350MPa, intensity and wearability are poor, it is impossible to which meeting development of the high-power engine machine to energy-conservation, consumption reduction, emission reduction will Ask.At present, cylinder sleeve cast iron products both domestic and external nearly all develops to low emission direction, and the use of EGR is to in-engine Wear-resisting, corrosion resistant the requirement of cylinder jacket is higher.Therefore exploitation high-strength abrasion-proof cylinder jacket is that prior art development is proposed The extremely urgent problem for needing to solve

The content of the invention

The technical problems to be solved by the invention are, for the shortcoming that above prior art is present, there is provided a kind of cylinder jacket With winged high intensity, corrosion resisting steel.

The present invention solve above technical problem technical scheme be：A kind of cylinder jacket high-strength corrosion-resistant steel, the steel plate Include following component by mass percentage：C：0.63-0.87%, Cr：0.23-0.36%, Si：0.20-0.26%, Mn：0.70- 0.83%, V：0.08-0.25%, Co：0.003-0.006%, S：0.001-0.002%, Mo：0.10-0.32%, Al：0.054- 0.062%, N：0.002-0.004%, Nb：0.032-0.058%, Cu：0.02-0.05%, Ni:0.60-0.65%, W：0.12- 0.17 %, Mg：0.001-0.002%, Ti：0.003-0.007%, balance of Fe and inevitable impurity；

The steel plate set surface is provided with one layer of corrosion-resistant finishes, and the corrosion-resistant finishes includes following components according to the mass fraction： Epoxy resin：30-40 parts, Petropols：15-20 parts, pigment：3-5 parts, silicon carbide micro-powder：6-12 parts, solvent：13-15 parts, Nanomaterial solution：3-8 parts, fire retardant：3-6 parts；Compound rare-earth：1-2 parts, thickener 4-6 parts；

The mass percent component of the nanomaterial solution is：Antimony doped stannum oxide nano-crystal：13~14%, nanometer titanium dioxide Titanium：10~11%, nanometer silicon carbide：3.6~3.7%, pentaerythrite three-(3- '-aziridinos)-propionic ester：4.6~4.7%, it is organic Fluoro water proofing agent：Surplus；

The fire retardant is aluminium hydroxide；

The compound rare-earth includes following component by mass percentage：Dysprosium：12-14%, cerium：23-26%, praseodymium：9-14%, neodymium：3- 6%, remaining is lanthanum element, and above lanthanide rare each component sum is 100%；

The thickener is dioctyl phthalate or dibutyl phthalate.

The technical scheme that further limits of the invention is：

The foregoing steel plate includes following component by mass percentage：C：0.67%, Cr：0.28%, Si：0.23%, Mn： 0.75%, V：0.12%, Co：0.003%, S：0.001%, Mo：0.24%, Al：0.054%, N：0.002%, Nb：0.043%, Cu： 0.03%, Ni:0.62%, W：0.12%, Mg：0.001%, Ti：0.004%, balance of Fe and inevitable impurity；

Surface of steel plate is provided with one layer of corrosion-resistant finishes, and the corrosion-resistant finishes includes following components according to the mass fraction：Asphalt mixtures modified by epoxy resin Fat：35 parts, Petropols：16 parts, pigment：4 parts, silicon carbide micro-powder：9 parts, solvent：13 parts, nanomaterial solution：It is 4 parts, fire-retardant Agent：4 parts；Compound rare-earth：1 part, 4 parts of thickener；

The mass percent component of nanomaterial solution is：Antimony doped stannum oxide nano-crystal：14%, nano titanium oxide：11%, receive Rice carborundum：3.7%, pentaerythrite three-(3- '-aziridinos)-propionic ester：4.7%, organic fluorine waterproof agent：Surplus；

Fire retardant is aluminium hydroxide；

Compound rare-earth includes following component by mass percentage：Dysprosium：12%, cerium：23%, praseodymium：10%, neodymium：4%, remaining is lanthanum unit Element, above lanthanide rare each component sum is 100%；

Thickener is dioctyl phthalate.

The foregoing steel plate includes following component by mass percentage：C：0.73%, Cr：0.31%, Si：0.25%, Mn： 0.78%, V：0.16%, Co：0.004%, S：0.0013%, Mo：0.28%, Al：0.057%, N：0.003%, Nb：0.049%, Cu： 0.04%, Ni:0.63%, W：0.15%, Mg：0.002%, Ti：0.005%, balance of Fe and inevitable impurity；

Surface of steel plate is provided with one layer of corrosion-resistant finishes, and the corrosion-resistant finishes includes following components according to the mass fraction：Asphalt mixtures modified by epoxy resin Fat：35 parts, Petropols：16 parts, pigment：4 parts, silicon carbide micro-powder：9 parts, solvent：13 parts, nanomaterial solution：It is 4 parts, fire-retardant Agent：4 parts；Compound rare-earth：1 part, 4 parts of thickener；

The mass percent component of nanomaterial solution is：Antimony doped stannum oxide nano-crystal：13%, nano titanium oxide：10%, receive Rice carborundum：3.6%, pentaerythrite three-(3- '-aziridinos)-propionic ester：4.6%, organic fluorine waterproof agent：Surplus；

Fire retardant is aluminium hydroxide；

Compound rare-earth includes following component by mass percentage：Dysprosium：13%, cerium：24%, praseodymium：11%, neodymium：5%, remaining is lanthanum unit Element, above lanthanide rare each component sum is 100%；

Thickener is dioctyl phthalate.

Foregoing high-strength corrosion-resistant steel processing technology technique, specifically includes following steps：

Step one：The slab smelted by component requirements is prepared into steel plate through thermomechanical controlled rolling and controlled cooling technique：

Roughing finishing temperature is 1300-1320 DEG C, and entrance finishing temperature is 1030-1050 DEG C, and finishing temperature is 860-890 DEG C, To use compressed air that slab is cooled into 600-610 DEG C with the cooldown rate of 2-4 DEG C/s after hot rolling, then use again water-cooled with The cooldown rate of 14-15 DEG C/s is to 340-350 DEG C then using the cooldown rate of air-cooled 6-8 DEG C/s that slab is cold by slab water-cooled To room temperature；

Step 2：By heat steel to 580-600 DEG C, and 35-40min is incubated, then with atomization cooling with the speed of 13-16 DEG C/s Degree is cooled to room temperature, is then heated to 820-850 DEG C, and room temperature is cooled to the cooling velocity of 10-12 DEG C/s with oil cooling；

Step 3：Steel are put into 980-995 DEG C is heated in heating furnace, 2-3 hours is incubated, then using water-cooled, with 23-26 DEG C/speed of s is cooled to room temperature, is then heated to 640-650 DEG C with the speed of 7-10 DEG C/s again, is incubated 4-7 hours, Ran Houkong It is cooled to room temperature；

Step 4：Steel are carried out with double tempering, is tempered for the first time：Steel plate is heated to 540-555 DEG C, 35-40min is tempered Afterwards, 3-5min is incubated, makes steel equalizing temperature, use the mode of water-cooled to be cooled to the cooldown rate of 25-26 DEG C/s afterwards After 370-380 DEG C, then it is air cooled to room temperature；

It is tempered for second：By heat steel to 700-710 DEG C, it is tempered 2- hours, is then air cooled to room temperature.

The beneficial effects of the invention are as follows：The present invention has that intensity is high, corrosion resistant advantage, and scribbling one layer in surface of steel plate prevents Corrosion layer, improves the corrosion resistance of steel plate, adds nano material, the wearability of steel plate is increased, while also improving steel The intensity of plate, epoxy resin is added, there is excellent adhesive strength with metal surface, and also hardness is high, and pliability preferably, adds Plus silicon carbide micro mist, increased wearability, while also improving intensity, add Ti, Al and thulium, alleviate steel plate Quality, increased structural strength and decay resistance；By double tempering, can holding structure stabilization, further enhance and connect Touch fatigue strength and impact flexibility.

Specific embodiment

Embodiment 1

The present embodiment provides a kind of cylinder jacket high-strength corrosion-resistant steel, and the steel plate includes following component by mass percentage： C：0.67%, Cr：0.28%, Si：0.23%, Mn：0.75%, V：0.12%, Co：0.003%, S：0.001%, Mo：0.24%, Al： 0.054%, N：0.002%, Nb：0.043%, Cu：0.03%, Ni:0.62%, W：0.12%, Mg：0.001%, Ti：0.004%, it is remaining Measure is Fe and inevitable impurity；

The surface of steel plate is provided with one layer of corrosion-resistant finishes, and the corrosion-resistant finishes includes following components according to the mass fraction：Ring Oxygen tree fat：35 parts, Petropols：16 parts, pigment：4 parts, silicon carbide micro-powder：9 parts, solvent：13 parts, nanomaterial solution：4 parts, Fire retardant：4 parts；Compound rare-earth：1 part, 4 parts of thickener；

The mass percent component of nanomaterial solution is：Antimony doped stannum oxide nano-crystal：14%, nano titanium oxide：11%, receive Rice carborundum：3.7%, pentaerythrite three-(3- '-aziridinos)-propionic ester：4.7%, organic fluorine waterproof agent：Surplus；

Fire retardant is aluminium hydroxide；

Compound rare-earth includes following component by mass percentage：Dysprosium：12%, cerium：23%, praseodymium：10%, neodymium：4%, remaining is lanthanum unit Element, above lanthanide rare each component sum is 100%；

Thickener is dioctyl phthalate.

A kind of cylinder jacket of the present embodiment high-strength corrosion-resisting processing technology technique, specifically includes following steps：

Step one：The slab smelted by component requirements is prepared into steel plate through thermomechanical controlled rolling and controlled cooling technique：

Roughing finishing temperature is 1300 DEG C, and entrance finishing temperature is 1030 DEG C, and finishing temperature is 870 DEG C, with using pressure after hot rolling Slab is cooled to 600 DEG C by contracting air with the cooldown rate of 3 DEG C/s, then uses water-cooled with the cooldown rate of 14 DEG C/s by slab again Slab is cooled to room temperature by water-cooled to 340 DEG C, then using the cooldown rate of air-cooled 6 DEG C/s；

Step 2：By heat steel to 580 DEG C, and 40min is incubated, room is then cooled to the speed of 14 DEG C/s with atomization cooling Temperature, is then heated to 830 DEG C, and room temperature is cooled to the cooling velocity of 10 DEG C/s with oil cooling；

Step 3：Steel are put into 980- DEG C is heated in heating furnace, 2 hours are incubated, then using water-cooled, with the speed of 24 DEG C/s Degree is cooled to room temperature, is then heated to 640 DEG C with the speed of 8 DEG C/s again, is incubated 5 hours, is then air cooled to room temperature；

Step 4：Steel are carried out with double tempering, is tempered for the first time：Steel plate is heated to 540-555 DEG C, 35-40min is tempered Afterwards, 3min is incubated, makes steel equalizing temperature, use the mode of water-cooled to be cooled to the cooldown rate of 25-26 DEG C/s afterwards After 370-380 DEG C, then it is air cooled to room temperature；It is tempered for second：By heat steel to 700-710 DEG C, 2 hours are tempered, then air cooling To room temperature

Embodiment 2

The present embodiment provides a kind of cylinder jacket high-strength corrosion-resistant steel, and the steel plate includes following component by mass percentage： C：0.73%, Cr：0.31%, Si：0.25%, Mn：0.78%, V：0.16%, Co：0.004%, S：0.0013%, Mo：0.28%, Al： 0.057%, N：0.003%, Nb：0.049%, Cu：0.04%, Ni:0.63%, W：0.15%, Mg：0.002%, Ti：0.005%, it is remaining Measure is Fe and inevitable impurity；

Surface of steel plate is provided with one layer of corrosion-resistant finishes, and the corrosion-resistant finishes includes following components according to the mass fraction：Asphalt mixtures modified by epoxy resin Fat：35 parts, Petropols：16 parts, pigment：4 parts, silicon carbide micro-powder：9 parts, solvent：13 parts, nanomaterial solution：It is 4 parts, fire-retardant Agent：4 parts；Compound rare-earth：1 part, 4 parts of thickener；

The mass percent component of nanomaterial solution is：Antimony doped stannum oxide nano-crystal：13%, nano titanium oxide：10%, receive Rice carborundum：3.6%, pentaerythrite three-(3- '-aziridinos)-propionic ester：4.6%, organic fluorine waterproof agent：Surplus；

Fire retardant is aluminium hydroxide；

Compound rare-earth includes following component by mass percentage：Dysprosium：13%, cerium：24%, praseodymium：11%, neodymium：5%, remaining is lanthanum unit Element, above lanthanide rare each component sum is 100%；

Thickener is dioctyl phthalate.

A kind of the present embodiment cylinder jacket high-strength corrosion-resistant steel Technology for Heating Processing, specifically includes following steps：

Step one：The slab smelted by component requirements is prepared into steel plate through thermomechanical controlled rolling and controlled cooling technique：

Roughing finishing temperature is 1310 DEG C, and entrance finishing temperature is 1040 DEG C, and finishing temperature is 880 DEG C, with using pressure after hot rolling Slab is cooled to 600 DEG C by contracting air with the cooldown rate of 4 DEG C/s, then uses water-cooled with the cooldown rate of 15 DEG C/s by slab again Slab is cooled to room temperature by water-cooled to 345 DEG C, then using the cooldown rate of air-cooled 8 DEG C/s；

Step 2：By heat steel to 985 DEG C, and 40min is incubated, room is then cooled to the speed of 14 DEG C/s with atomization cooling Temperature, is then heated to 830 DEG C, and room temperature is cooled to the cooling velocity of 141 DEG C/s with oil cooling；

Step 3：Steel are put into 990 DEG C are heated in heating furnace, 1.5 hours are incubated, then using water-cooled, with 25 DEG C/s's Speed is cooled to room temperature, is then heated to 645 DEG C with the speed of 8 DEG C/s again, is incubated 4 hours, is then air cooled to room temperature；

Step 4：Steel are carried out with double tempering, is tempered for the first time：Steel plate is heated to 550 DEG C, after tempering 37min, insulation 4min, makes steel equalizing temperature, after using the mode of water-cooled to be cooled to 370 DEG C with the cooldown rate of 25 DEG C/s afterwards then empty It is cooled to room temperature；It is tempered for second：By heat steel to 700-710 DEG C, it is tempered 2- hours, is then air cooled to room temperature

In addition to the implementation, the present invention can also have other embodiment.What all use equivalents or equivalent transformation were formed Technical scheme, all falls within the protection domain of application claims.

Claims (4)

1. a kind of cylinder jacket high-strength corrosion-resistant steel, it is characterised in that the steel plate includes following component by mass percentage： C：0.63-0.87%, Cr：0.23-0.36%, Si：0.20-0.26%, Mn：0.70-0.83%, V：0.08-0.25%, Co：0.003- 0.006%, S：0.001-0.002%, Mo：0.10-0.32%, Al：0.054-0.062%, N：0.002-0.004%, Nb：0.032- 0.058%, Cu：0.02-0.05%, Ni:0.60-0.65%, W：0.12-0.17 %, Mg：0.001-0.002%, Ti： 0.003-0.007%, balance of Fe and inevitable impurity；

The surface of steel plate is provided with one layer of corrosion-resistant finishes, and the corrosion-resistant finishes includes following components according to the mass fraction：Ring Oxygen tree fat：30-40 parts, Petropols：15-20 parts, pigment：3-5 parts, silicon carbide micro-powder：6-12 parts, solvent：13-15 parts, receive Rice material solution：3-8 parts, fire retardant：3-6 parts；Compound rare-earth：1-2 parts, thickener 4-6 parts；

The mass percent component of the nanomaterial solution is：Antimony doped stannum oxide nano-crystal：13~14%, nanometer titanium dioxide Titanium：10~11%, nanometer silicon carbide：3.6~3.7%, pentaerythrite three-(3- '-aziridinos)-propionic ester：4.6~4.7%, it is organic Fluoro water proofing agent：Surplus；

The fire retardant is aluminium hydroxide；

The compound rare-earth includes following component by mass percentage：Dysprosium：12-14%, cerium：23-26%, praseodymium：9-14%, neodymium：3- 6%, remaining is lanthanum element, and above lanthanide rare each component sum is 100%；

The thickener is dioctyl phthalate or dibutyl phthalate.

2. cylinder jacket high-strength corrosion-resistant steel according to claim 1, it is characterised in that by mass percentage including with Lower composition：C：0.67%, Cr：0.28%, Si：0.23%, Mn：0.75%, V：0.12%, Co：0.003%, S：0.001%, Mo： 0.24%, Al：0.054%, N：0.002%, Nb：0.043%, Cu：0.03%, Ni:0.62%, W：0.12%, Mg：0.001%, Ti： 0.004%, balance of Fe and inevitable impurity；

The surface of steel plate is provided with one layer of corrosion-resistant finishes, and the corrosion-resistant finishes includes following components according to the mass fraction：Ring Oxygen tree fat：35 parts, Petropols：16 parts, pigment：4 parts, silicon carbide micro-powder：9 parts, solvent：13 parts, nanomaterial solution：4 parts, Fire retardant：4 parts；Compound rare-earth：1 part, 4 parts of thickener；

The mass percent component of the nanomaterial solution is：Antimony doped stannum oxide nano-crystal：14%, nano titanium oxide： 11%, nanometer silicon carbide：3.7%, pentaerythrite three-(3- '-aziridinos)-propionic ester：4.7%, organic fluorine waterproof agent：Surplus；

The fire retardant is aluminium hydroxide；

The compound rare-earth includes following component by mass percentage：Dysprosium：12%, cerium：23%, praseodymium：10%, neodymium：4%, remaining is Lanthanum element, above lanthanide rare each component sum is 100%；

The thickener is dioctyl phthalate.

3. cylinder jacket high-strength corrosion-resistant steel according to claim 1, it is characterised in that by mass percentage including with Lower composition：C：0.73%, Cr：0.31%, Si：0.25%, Mn：0.78%, V：0.16%, Co：0.004%, S：0.0013%, Mo： 0.28%, Al：0.057%, N：0.003%, Nb：0.049%, Cu：0.04%, Ni:0.63%, W：0.15%, Mg：0.002%, Ti： 0.005%, balance of Fe and inevitable impurity；

The surface of steel plate is provided with one layer of corrosion-resistant finishes, and the corrosion-resistant finishes includes following components according to the mass fraction：Ring Oxygen tree fat：35 parts, Petropols：16 parts, pigment：4 parts, silicon carbide micro-powder：9 parts, solvent：13 parts, nanomaterial solution：4 parts, Fire retardant：4 parts；Compound rare-earth：1 part, 4 parts of thickener；

The mass percent component of the nanomaterial solution is：Antimony doped stannum oxide nano-crystal：13%, nano titanium oxide： 10%, nanometer silicon carbide：3.6%, pentaerythrite three-(3- '-aziridinos)-propionic ester：4.6%, organic fluorine waterproof agent：Surplus；

The fire retardant is aluminium hydroxide；

The compound rare-earth includes following component by mass percentage：Dysprosium：13%, cerium：24%, praseodymium：11%, neodymium：5%, remaining is Lanthanum element, above lanthanide rare each component sum is 100%；

The thickener is dioctyl phthalate.

4. according to any high-strength corrosion-resistant steel processing technologys of claim 1-3, it is characterised in that specifically include following step Suddenly：

Step one：The slab smelted by component requirements is prepared into steel plate through thermomechanical controlled rolling and controlled cooling technique：

Roughing finishing temperature is 1300-1320 DEG C, and entrance finishing temperature is 1030-1050 DEG C, and finishing temperature is 860-890 DEG C, To use compressed air that slab is cooled into 600-610 DEG C with the cooldown rate of 2-4 DEG C/s after hot rolling, then use again water-cooled with The cooldown rate of 14-15 DEG C/s is to 340-350 DEG C then using the cooldown rate of air-cooled 6-8 DEG C/s that slab is cold by slab water-cooled To room temperature；

Step 2：By heat steel to 580-600 DEG C, and 35-40min is incubated, then with atomization cooling with the speed of 13-16 DEG C/s Degree is cooled to room temperature, is then heated to 820-850 DEG C, and room temperature is cooled to the cooling velocity of 10-12 DEG C/s with oil cooling；

Step 3：Steel are put into 980-995 DEG C is heated in heating furnace, 2-3 hours is incubated, then using water-cooled, with 23-26 DEG C/speed of s is cooled to room temperature, is then heated to 640-650 DEG C with the speed of 7-10 DEG C/s again, is incubated 4-7 hours, Ran Houkong It is cooled to room temperature；

Step 4：Steel are carried out with double tempering, is tempered for the first time：Steel plate is heated to 540-555 DEG C, 35-40min is tempered Afterwards, 3-5min is incubated, makes steel equalizing temperature, use the mode of water-cooled to be cooled to the cooldown rate of 25-26 DEG C/s afterwards After 370-380 DEG C, then it is air cooled to room temperature；

It is tempered for second：By heat steel to 700-710 DEG C, it is tempered 2- hours, is then air cooled to room temperature.