CN1804128A - High carbon chromium bearing parts surface chemical heat-treatment process - Google Patents
High carbon chromium bearing parts surface chemical heat-treatment process Download PDFInfo
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- CN1804128A CN1804128A CN 200510057410 CN200510057410A CN1804128A CN 1804128 A CN1804128 A CN 1804128A CN 200510057410 CN200510057410 CN 200510057410 CN 200510057410 A CN200510057410 A CN 200510057410A CN 1804128 A CN1804128 A CN 1804128A
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Abstract
The disclosed surface chemical thermal treatment technique for a high-C-Cr bearing comprises: setting parameters, front cleaning, pre-oxidizing, heating, carbonitriding, cooling to diffuse, quenching, and tempering. This invention uses the treatment device in vehicle and motor cycle gear process to form one layer with special tissue and improve contact fatigue strength and surface hardness.
Description
Technical field
The present invention relates to a kind of surface treatment method of metal material part, especially high carbon chromium bearing parts surface chemical heat-treatment process.
Background technology
To the temper of quenching of high carbon chromium bearing parts such as inner ring, outer ring, normally adopt the grill-hearth travelling oven direct heating tempering process of quenching at present.The conventional heat treated typical process process of lasso is as follows:
Cold rolling part (or Vehicle Processing part) → (backfire product line of quenching) → preceding cleaning → heating → insulation → quenching → back cleaning → tempering → mill processing, heat treatment cycle curve as shown in Figure 1.
Because the user is improving constantly the requirement of bearing life, and bearing life directly is subjected to the restriction of steel product quality, it is very difficult to adopt ordinary method significantly to improve bearing contact fatigue strength, wear resistance and surface hardness.
Studies show that the quality of raw material quality has great effect to bearing life.Yet the smelting technology of China's bearing steel and quality level are compared bigger gap in addition with developed countries.Therefore, improve the evolution that bearing life is still needed and grown by improving steel product quality.
At present in automobile and motorcycle-gear surface treatment, commonly used to multipurpose furnace or push-down carbonitriding production line, by carburizing or carbonitriding, make gear surface infiltration carbon or carbon, two kinds of elements of nitrogen, improve the contact fatigue strength and the surface hardness of gear.But this equipment and technology also do not apply on the high carbon chromium bearing parts.
Summary of the invention
The object of the present invention is to provide a kind of high carbon chromium bearing parts surface chemical heat-treatment process that improves bearing contact fatigue strength and surface hardness by carbonitriding.
The present invention includes following steps:
A, on the control panel of multipurpose furnace or push-down carbonitriding production line, configure technical process and processing parameter;
B, the high carbon chromium bearing parts that shapes enter in multipurpose furnace or the push-down carbonitriding production line, and preceding cleaning 0.25-1h removes the greasy dirt of piece surface;
C, part heat temperature raising are at 300-550 ℃ of preoxidation 0.5-2h;
D, part continue heat temperature raising, feed protection gas simultaneously, when temperature reaches 800-900 ℃, feed enriched gas and nitriding medium, carry out carbonitriding, and carbon potential is 0.9%-1.5%;
After e, carbonitriding 1-8 hour, part begins cooling, carries out the diffusion of carbon nitrogen simultaneously, when temperature drops to 800-860 ℃, keeps temperature-resistant, continues the diffusion of carbon nitrogen, and carbon potential is 0.7%-1.3%;
After f, the diffusion of process 0.5-6h carbon nitrogen, under temperature 800-860 ℃, quench;
0.25-1h is cleaned in g, the back, back of quenching, and removes the piece surface greasy dirt, carries out tempering again under temperature 100-300 ℃;
Behind h, the tempering 2-5h, part withdraws from multipurpose furnace or push-down carbonitriding production line, air cooling.
The protection gas that feeds in the above-mentioned d step is gas mixture or other protective atmosphere of pure methyl alcohol or pure nitrogen gas or methyl alcohol and nitrogen.
The enriched gas that feeds in the above-mentioned d step is pure propane or pure acetone or pure kerosene or other carburizing agent.
The nitriding medium that feeds in the above-mentioned d step is pure ammonia or other nitriding medium, and flow is 0.1-10m
3/ h.
The present invention is from the angle of steel surface modification, adopt the Equipment for Heating Processing that is used for automobile and the processing of motorcycle-gear carburizing or carbonitriding at present, be multipurpose furnace or push-down carbonitriding production line, by infiltrating carbon, two kinds of elements of nitrogen, form one deck special organization after the high carbon chromium bearing parts upper layer is quenched, thereby reach the purpose that improves bearing contact fatigue strength and surface hardness.
Multipurpose furnace mainly is made up of cleaning machine, main stove and three kinds of equipment of tempering stove of same control panel control, when putting, the alignment of the front end of three kinds of equipment is laid track in their the place ahead, a transfer car(buggy) is set on the track, is responsible for realizing the turnover of workpiece automatically at each equipment according to program.
The production process of multipurpose furnace is: and material loading (workpiece pack into transfer car(buggy)) → cleaning machine (cleaning components) → main stove (carry out according to computer program: preoxidation → carbonitriding → cooling diffusion → quenching) → cleaning machine (cleaning components) → tempering stove (tempering) → discharging (workpiece takes out from transfer car(buggy)).
Push-down carbonitriding production line is made up of preceding cleaning machine, pre-oxidation furnace, main stove, back cleaning machine, each 1 of the tempering stove of same control panel control, and whole production line relies on the track UNICOM of closed cycle, and track connects all devices bottom.Workpiece places on the special square pallet and is positioned on the track, and each square pallet is adjacent mutually, applies mobile transmission of power to each pallet by push rod, realizes workpiece passing through between distinct device.
Push-down carbonitriding Production Line process is: material loading (workpiece pack into pallet) → preceding cleaning machine (cleaning components) → pre-oxidation furnace (preoxidation) → main stove (product is successively by carbonitriding district, cooling spreading area, quench zone) → back cleaning machine (cleaning components) → tempering stove (tempering) → discharging (workpiece takes out from pallet) → material loading (next circulation).
The invention has the beneficial effects as follows:
1, surface hardness significantly improves, and can reach more than the HRC66;
2, the surface forms very high stress;
3, contact fatigue strength, wear resistance significantly improve;
4, significantly improve work-ing life, doubly than the high 3-6 of normal product lifetime.
Through following standard test, meet survey requirement by the high carbon chromium bearing parts after the surface chemical heat-treatment process processing of the present invention.
Inspecting standard:
When 1) quality layer was checked, part was checked under as-quenched condition.
2) cocementation layer depth (0.40-0.60) mm.
When 3) measuring cocementation layer depth with metallographic method or hardness gradient method.During with the hardness gradient method, get the high 20HV of hardness ratio matrix hardness place and be effective depth of penetration.
4) layer depth fluctuation range: same workpiece≤0.15mm; Same batch≤0.20mm.
5) hardened face hardness HV 〉=825 are equivalent to HRC 〉=64; Measurement point is apart from surperficial 0.20mm place.Tempering surface hardness (713-795) HV is equivalent to (60-63) HRC; Measurement point is apart from surperficial 0.20mm place.
6) during quenching after strain amount: d≤Φ 30, external diameter ovality≤0.06mm; During d≤Φ 80, external diameter ovality≤0.10mm.
7) quenching back tissue
A) JB/T1255-2001 presses in heart portion ,≤5 grades;
B) diffusion layer organization is pressed the QCn29018-1991 standard;
Carboritride (1-4) level is qualified;
Residual austenite and martensite (1-4) level is qualified;
C) case case carbon (1.05-1.15) %, nitrogen content (0.20-0.35) %;
D) apart from the later infiltration layer of surperficial 0.02mm the black tissue must not be arranged;
E) crackle must not be arranged;
8) mustn't there be oxidation, Decarburized layer in the surface.
9) must not there be soft spots on the top layer.
10) surface color uniformity must not have piebald.
11) must not there be corrosion on the surface.
12) product must not bump scuffing.
See following " rolling bearing life, reliability test report " through the product life trial report after the bearing parts assembling of the present invention's processing.
Rolling bearing life, reliability test report
Bearing designation
6304/P5CS14
Kind of test
Simultaneous test
Report number | LT250201 | Name of product | Bearing |
Specifications and models | 6304/P5CS14 | Kind of inspection | Longevity test |
Trade mark | CJB | Sample mode | At random |
Physical dimension | φ 20 * φ 52 * H15 | The sampling place | Stockyard |
Quality of tolerance | P 5 | Sample size | 80 |
Material | GCr15 | The sampling date | 2005.2.3 |
Date manufactured | 2005.2.2 | Sampling person | Height eastwards |
Survey date | 2005.5.25 | Test basis | |
Check conclusion | Be longer than conventional heat treated bearing life through the bearing life of carbonitriding.May 31 2005 date of issuance | ||
Note |
Test method | Simultaneous test | Sample size | 16 | |||
The trier model | ABLT-1A | |||||
Test conditions | Equivalent moving load/dynamic load rating (P/C) | 0.5 | ||||
Radial loading (Fr) | 7950N | |||||
Thrust load (Fa) | 0 | |||||
Test speed (n) | 3000rpm | |||||
Basic rating life (L 10) | 44h | |||||
Lubricate and cooling | 32 #Oil circulation | |||||
Test-results | The test raw data is seen below page or leaf | |||||
Test start date | 5005.2.3 | The off-test date | 2005.5.17 |
Sequence number | Sample number into spectrum | Test is by the time (h) | Shut down reason | The inefficacy part | Remarks |
One | Conventional products | ||||
1 | LT250201-SN1 | 136.6 | Lost efficacy | Septal fossula fatigue | |
2 | LT250201-SN2 | 163.6 | Lost efficacy | Septal fossula fatigue | |
3 | LT250201-SN3 | 181.2 | Lost efficacy | Steel ball fatigue | |
4 | LT250201-SN4 | 181.2 | Lost efficacy | / | |
5 | LT250201-SN5 | 143.5 | The number of remodeling | / | |
6 | LT250201-SN6 | 143.5 | The number of remodeling | Septal fossula, steel ball fatigue, retainer is disconnected | |
7 | LT250201-SN7 | 157.5 | Lost efficacy | Septal fossula fatigue, retainer fracture | |
8 | LT250201-SN8 | 157.5 | Lost efficacy | Septal fossula fatigue | |
Two | The carbonitriding product | ||||
9 | LT250201-CN3 | 181.2 | The contrast bearing lost efficacy | / | |
10 | LT250201-CN4 | 181.2 | The contrast bearing lost efficacy | / | |
11 | LT250201-CN5 | 543.5 | Artificial termination test | / | |
12 | LT250201-CN6 | 703.6 | Artificial termination test | / | |
13 | LT250201-CN7 | 703.6 | Artificial termination test | / | |
14 | LT250201-CN8 | 543.5 | Artificial termination test | / | |
15 | LT250201-CN9 | 157.5 | The contrast bearing lost efficacy | / | |
16 | LT250201-CN10 | 157.5 | The contrast bearing lost efficacy | / | |
17 | |||||
18 | |||||
19 | |||||
20 | |||||
21 | |||||
22 | |||||
23 | |||||
24 | |||||
25 | |||||
26 |
Description of drawings
Fig. 1 is the conventional heat treatment cycle curve figure of high carbon chromium bearing parts.
Fig. 2 is heat treatment cycle curve figure of the present invention.
Embodiment
The invention will be further described below in conjunction with drawings and Examples:
As shown in Figure 2, the 0-T0 time period is the part initial heating temperature rise period; The T0-T1 time period is the piece surface preoxidation stage; The T1-T2 time period is that part continues the heat temperature raising stage, begins to feed from the T1 time and protects gas, and the protection part is not oxidized; The T2-T3 time period is the carbonitriding stage, begin to feed enriched gas and nitriding medium from the T2 time, decomposite active atoms of carbon and nitrogen-atoms, and penetrate into respectively in the upper layer of part, by predefined carbon potential value, multipurpose furnace or push-down carbonitriding production line can be regulated the flow of enriched gas and nitriding medium automatically; The T3-T5 time period is a part cooling diffusion phase, and active atoms of carbon and nitrogen-atoms penetrate in the more deep layer of piece surface, begins to lower the temperature from the T3 time, carries out the diffusion of carbon nitrogen simultaneously, to the T4 time, keeps temperature-resistant, continues the diffusion of carbon nitrogen; The T5-T6 time period is the quenching stage; The T6-T7 time period is the back wash phase; The T7-T8 time period is the tempering stage.
Embodiment 1, and the complete processing of high carbon chromium bearing inner race may further comprise the steps:
(1) the high carbon chromium raw materials in sequence is rolled over through forging, annealing, car and is processed into bearing inner race, 1150 ℃ of initial forging temperatures, 850 ℃ of final forging temperatures; 800 ℃ of annealing temperatures, time 15h.
(2) on the control panel of push-down carbonitriding production line, configure flow process and processing parameter,
Flow process: preceding cleaning → preoxidation → carbonitriding → cooling diffusion → quenching → back cleaning → tempering;
Parameter: preceding cleaning 0.3h; 350 ℃ of preoxidation temperature, time 1h; 850 ℃ of carbonitriding temperature, time 3h, carbon potential 1.4%; Carbon nitrogen spreads starting temperature 850, ends 820 ℃ of temperature, time 2h, carbon potential 0.9%; Ammonia flow 0.5m
3/ h; 820 ℃ of quenching temperatures, 80 ℃ of quenching oil temperature; 0.4h is cleaned in the back; 200 ℃ of tempering temperatures, time 3h.
(3) bearing inner race that shapes is packed in the pallet, start-up routine, and pallet advances along track, in the cleaning machine, cleans 0.3h by clean-out system before bearing inner race is transported into, and removes the greasy dirt of piece surface.
(4) pallet moves on along track, enters pre-oxidation furnace, and bearing inner race begins heat temperature raising, when temperature reaches 350 ℃, and preoxidation 1h.
(5) pallet moves on along track, enters the carbonitriding district of main stove, and bearing inner race continues heat temperature raising, feeds pure methyl alcohol simultaneously, when temperature reaches 850 ℃, feeds pure propane and pure ammonia, carries out carbonitriding.
(6) behind the carbonitriding 3h, pallet enters the cooling spreading area of main stove, and bearing inner race begins cooling, carries out the diffusion of carbon nitrogen simultaneously, when temperature drops to 820 ℃, keeps temperature-resistant, continues the diffusion of carbon nitrogen.
(7) behind the carbon nitrogen diffusion 2h, pallet enters the quench zone of main stove, and bearing inner race begins oil quenching.
(8) quenching butt rim track moves on, and goes out main stove, enters the back cleaning machine, in the cleaning machine of back bearing inner race is cleaned 0.3h, removes the piece surface greasy dirt.
(9) pallet continues along track bearing inner race to be transported the back cleaning machine, enters tempering stove, carries out tempering.
(10) after the tempering, pallet goes out tempering stove, and bearing inner race is taken out from pallet, and air cooling is to room temperature.
(11) roughly grind successively, correct grinding, super grinding.
(12) cleaning, oiling and packing make finished product.
Embodiment 2, and the complete processing of high-carbon-chromium bearing steel ball may further comprise the steps:
(1) the high carbon chromium raw materials in sequence becomes steel ball through cold-heading, tarry matter.
(2) on the control panel of multipurpose furnace, configure flow process and processing parameter,
Flow process: preceding cleaning → preoxidation → carbonitriding → cooling diffusion → quenching → back cleaning → tempering;
Parameter: preceding cleaning 0.8h; 400 ℃ of preoxidation temperature, time 1.5h; 880 ℃ of carbonitriding temperature, time 6h, carbon potential 1.5%; Carbon nitrogen spreads starting temperature 880, ends 850 ℃ of temperature, time 4h, carbon potential 0.8%; Ammonia flow 3m
3/ h; 850 ℃ of quenching temperatures, 80 ℃ of quenching oil temperature; 1h is cleaned in the back; 250 ℃ of tempering temperatures, time 4h.
(3) bearing steel ball that shapes is packed in the transfer car(buggy), start-up routine, and transfer car(buggy) advances along track, and bearing steel ball is sent in the cleaning machine, cleans 0.8h by clean-out system, removes the greasy dirt of piece surface.
(4) transfer car(buggy) moves on along track, enters in the main stove, and steel ball begins heat temperature raising, when temperature reaches 400 ℃, and preoxidation 1.5h.
(5) steel ball continues heat temperature raising, feeds pure nitrogen gas simultaneously, when temperature reaches 880 ℃, feeds pure kerosene and pure ammonia, carries out carbonitriding.
(6) behind the carbonitriding 6h, steel ball begins cooling, carries out the diffusion of carbon nitrogen simultaneously, when temperature drops to 850 ℃, keeps temperature-resistant, continues the diffusion of carbon nitrogen.
(7) behind the carbon nitrogen diffusion 4h, steel ball begins to carry out oil quenching.
(8) quenching back transfer car(buggy) transports main stove with steel ball, and enters in the cleaning machine, cleans 1h, removes the piece surface greasy dirt.
(9) transfer car(buggy) continues to advance along track, and steel ball is transported cleaning machine, enters tempering stove, carries out tempering.
(10) after the tempering, transfer car(buggy) goes out tempering stove, and bearing steel ball is taken out from transfer car(buggy), and air cooling is to room temperature.
(11) steel ball enters the reinforcement machine, carries out intensive treatment 1h.
(12) carry out hard grind, grinding, super grinding successively.
(13) cleaning, oiling and packing make finished product.
Claims (4)
1, a kind of high carbon chromium bearing parts surface chemical heat-treatment process is characterized in that may further comprise the steps:
A, on the control panel of multipurpose furnace or push-down carbonitriding production line, configure technical process and processing parameter;
B, the high carbon chromium bearing parts that shapes enter in multipurpose furnace or the push-down carbonitriding production line, and preceding cleaning 0.25-1h removes the greasy dirt of piece surface;
C, part heat temperature raising are at 300-550 ℃ of preoxidation 0.5-2h;
D, part continue heat temperature raising, feed protection gas simultaneously, when temperature reaches 800-900 ℃, feed enriched gas and nitriding medium, carry out carbonitriding, and carbon potential is 0.9%-1.5%;
After e, carbonitriding 1-8 hour, part begins cooling, carries out the diffusion of carbon nitrogen simultaneously, when temperature drops to 800-860 ℃, keeps temperature-resistant, continues the diffusion of carbon nitrogen, and carbon potential is 0.7%-1.3%;
After f, the diffusion of process 0.5-6h carbon nitrogen, under temperature 800-860 ℃, quench;
0.25-1h is cleaned in g, the back, back of quenching, and removes the piece surface greasy dirt, carries out tempering again under temperature 100-300 ℃;
Behind h, the tempering 2-5h, part withdraws from multipurpose furnace or push-down carbonitriding production line, air cooling.
2, high carbon chromium bearing parts surface chemical heat-treatment process according to claim 1 is characterized in that the protection gas that feeds in the above-mentioned d step is the gas mixture of pure methyl alcohol or pure nitrogen gas or methyl alcohol and nitrogen.
3, high carbon chromium bearing parts surface chemical heat-treatment process according to claim 1 is characterized in that the enriched gas that feeds in the above-mentioned d step is pure propane or pure acetone or pure kerosene.
4, high carbon chromium bearing parts surface chemical heat-treatment process according to claim 1 is characterized in that the nitriding medium that feeds in the above-mentioned d step is pure ammonia, and flow is 0.1-10m
3/ h.
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