CN113245911B

CN113245911B - Surface forming process method for inner hole of cylinder sleeve

Info

Publication number: CN113245911B
Application number: CN202110660858.0A
Authority: CN
Inventors: 胡卫中; 洪彦奎; 张之涛; 颜书华; 梁望; 王中民; 范亚栋; 李兵; 刘同旺; 刘彦军; 冯涛; 陈正虎
Original assignee: Hebei Huabei Diesel Engine Co Ltd
Current assignee: Hebei Huabei Diesel Engine Co Ltd
Priority date: 2021-06-15
Filing date: 2021-06-15
Publication date: 2022-10-14
Anticipated expiration: 2041-06-15
Also published as: CN113245911A

Abstract

The invention relates to the technical field of cylinder sleeve inner hole surface processing, in particular to a cylinder sleeve inner hole surface forming process method, which comprises the steps of respectively carrying out rough honing, semi-fine honing, extrusion polishing and other processing process flows, reasonably matching main process parameters such as main shaft rotating speed, main shaft reciprocating speed, honing pressure, honing time and the like by adopting proper honing oilstone characteristic combination, and finally obtaining a strengthened fine reticulated surface with good surface microstructure oil storage performance; the invention obtains a fine reticulate pattern surface with good oil storage performance and high fatigue strength, obviously improves the bearing capacity, the wear resistance and the cylinder drawing resistance of the inner hole of the cylinder sleeve, and ensures that the engine meets the requirements of high power, high detonation pressure and high reliability.

Description

Surface forming process method for inner hole of cylinder sleeve

Technical Field

The invention relates to the technical field of cylinder sleeve inner hole surface processing, in particular to a cylinder sleeve inner hole surface forming process method.

Background

The cylinder sleeve is a core part of an engine combustion system, and the surface of an inner hole of the cylinder sleeve, the top of a piston, a piston ring and the bottom of a cylinder cover form a combustion chamber and guide the piston to do reciprocating linear motion. In the working process, the surface of the inner hole of the cylinder sleeve not only bears the repeated impact of high-pressure and high-pressure heat load, but also bears the repeated impact of mechanical loads such as strong friction of a pairing pair and severe alternating side pressure caused by high-speed reciprocating motion of a piston. In order to adapt to severe working environment and ensure the working reliability of the engine, higher requirements are provided for the realization technology of the inner hole working surface form of the cylinder sleeve.

The working surface of the inner hole of the cylinder sleeve usually adopts a platform reticulate honing forming process, as shown in fig. 1, the surface of the inner hole forms a crossed reticulate surface topography structure with grooves and small platforms which are alternate, small platforms at the top are rhombic, and the groove platforms are different in size; the existing platform reticulate pattern honing process mainly has the following defects:

1. the machined surface of the finally formed inner hole of the cylinder sleeve usually has rough edges and corners with different sizes, so that the working surface of a piston ring can be damaged in the working process of an engine, the surface of the inner hole of the cylinder sleeve is easy to generate stress concentration, the fatigue stripping of a material matrix is easy to cause, and the bearing capacity and the tensile cylinder resistance of the cylinder sleeve are poor;

2. the combination of the parameters of the roughness of the inner hole is not reasonable, the lubricity and the wear resistance of the working surface of the inner hole of the cylinder sleeve are poor, the service life of the cylinder sleeve is short, and the like.

Disclosure of Invention

Aiming at the defects, the invention adopts the combined processing and forming process of the platform reticulate pattern honing and the extruding and polishing, so that the coarse edge angle of the small platform structure on the processing surface is changed to a fine and smooth shape, thereby forming the surface of a micro platform, optimizing the shape of an oil storage tank, obtaining the fine reticulate pattern surface with good oil storage performance and high fatigue strength, obviously improving the bearing capacity, the wear resistance and the anti-scuffing property of the inner hole of the cylinder sleeve, and ensuring that the engine meets the requirements of high power, high detonation pressure and high reliability.

In order to achieve the purpose, the invention provides the following technical scheme:

a forming process method for the inner hole surface of a cylinder sleeve comprises the following steps:

step 1, roughly honing an inner hole of a cylinder sleeve, namely correcting a shape error after the processing of an earlier process of the inner hole by rough honing by adopting a diamond honing oilstone to form a certain geometric shape of the surface of the inner hole;

step 2, adopting diamond honing oilstone to perform semi-fine honing on the inner hole of the cylinder sleeve, further improving the geometric form of the surface of the inner hole, and preliminarily forming a uniform cross reticulate pattern structure;

step 3, grinding off cross reticulate pattern peaks formed by semi-finish honing by using black silicon carbide honing oilstones through finish honing, thereby obtaining a fine small platform bearing surface with a high bearing rate;

and 4, extruding and polishing the inner hole of the cylinder sleeve, wherein the coarse edge angle of the small platform structure on the surface of the fine honing processing surface can be changed into a fine smooth shape by adopting the cork oilstone, so that the surface of the micro platform is formed, the shape of the oil storage tank is optimized, and the reinforced reticulate surface of the inner hole of the cylinder sleeve with fine density and good oil storage performance is obtained.

The technical scheme of the invention is further improved as follows: in the step 1, setting the parameters of the rough honing process: the main shaft rotating speed is 200r/min, the main shaft reciprocating speed is 25m/min, the honing pressure is as follows: first 37bar, second 35bar, honing time: 50-60s.

The technical scheme of the invention is further improved as follows: in the step 2, setting the technological parameters of semi-finish honing: the main shaft rotating speed is 200r/min, the main shaft reciprocating speed is 25m/min, the honing pressure is as follows: one stage 33bar, two stage 28bar, honing time: 40-60s.

The technical scheme of the invention is further improved as follows: in step 3, setting the parameters of the fine honing process: the main shaft rotating speed is 200r/min, the main shaft reciprocating speed is 25m/min, the honing pressure is as follows: one-stage 25bar, two-stage 20bar, three-stage 15bar, honing time: 9s for the first pressure, 5s for the second pressure, and 7s for the third pressure.

The technical scheme of the invention is further improved as follows: in step 4, the parameters of the extrusion polishing process are set: spindle rotation speed 245r/min, spindle reciprocating speed 25m/min, polishing pressure: 25bar, polishing time: 20 to 22s.

The technical scheme of the invention is further improved as follows: and (3) surface roughness parameters of the inner hole of the cylinder sleeve after extrusion polishing: and (Rpk) is as follows: 0.02 to 0.03 μm, rk:0.07 to 0.14 μm, rvk: 0.06-0.29 μm, mr1 (%): 4.3-8.9, mr2 (%): 79.5 to 88.5.

The technical scheme of the invention is further improved as follows: the material percentage of the cylinder sleeve is C:0.35 to 0.42, si:0.17 to 0.37, mn:0.30 to 0.60, S: less than or equal to 0.025, P: less than or equal to 0.025, cr:1.35 to 1.65, ni: less than or equal to 0.40, mo:0.15 to 0.25, al:0.70 to 1.10, cu: less than or equal to 0.25.

Compared with the prior art, the forming process method for the inner hole surface of the cylinder sleeve has the following beneficial effects:

1. the invention provides a process method for forming the surface of an inner hole of a cylinder sleeve, which effectively avoids the defects of the surface of the traditional platform reticulate pattern honing process, changes the microstructure form of the surface of the inner hole of the cylinder sleeve by adopting extrusion polishing, obviously eliminates the rough edge angle of the microstructure of the surface of the inner hole of the cylinder sleeve, ensures that the form is fine and smooth, effectively reduces the occurrence rate of stress concentration, can obviously improve the microstructure working performance, enhances the bearing capacity and the tensile cylinder capacity of the surface of the inner hole, and effectively avoids the cylinder pulling phenomenon in the working process of an engine.

2. The invention provides a process for forming the surface of an inner hole of a cylinder sleeve, which ensures that the reticulate pattern on the surface of the inner hole of the cylinder sleeve is very fine and has good oil storage performance, thereby not only shortening the initial running-in time of a diesel engine, but also improving the wear resistance of the surface of the inner hole of a steel cylinder sleeve, greatly reducing the wear loss of the surface of the inner hole and prolonging the service life of the engine.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic diagram of a surface topography structure of a platform reticulate pattern honing process on the surface of an inner hole of a cylinder sleeve.

Fig. 2 is a schematic diagram of a surface topography structure of a platform cross hatch honing and extrusion polishing combined machining of the surface of an inner bore of a cylinder sleeve.

Detailed Description

The technical solution of the present invention will be clearly and completely described by the following embodiments. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The forming process method for the inner hole surface of the cylinder sleeve comprises the following steps:

step 1, roughly honing an inner hole of a cylinder sleeve, namely correcting a shape error after the processing of an earlier process of the inner hole by rough honing by adopting a diamond honing oilstone to form a certain geometric shape of the surface of the inner hole; the inner hole rough honing is a process which reduces the honing time to the minimum degree, the process adopts 80# diamond honing oilstone, and the rough honing corrects the shape error of the inner hole after the processing of the previous process to form a certain inner hole surface geometric shape; setting the parameters of the rough honing process: the main shaft rotating speed is 200r/min, the main shaft reciprocating speed is 25m/min, the honing pressure is as follows: first 37bar, second 35bar, honing time: 50-60s;

step 2, adopting diamond honing oilstone to perform semi-fine honing on the inner hole of the cylinder sleeve, further improving the geometric form of the surface of the inner hole, and preliminarily forming a uniform cross reticulate pattern structure; the inner hole semi-finish honing is an important process for forming a reticulate pattern structure on the surface of an expected inner hole; the process adopts a No. 120 diamond honing oilstone, further improves the geometrical shape of the surface of an inner hole through semi-finish honing, preliminarily forms a uniform cross reticulate pattern structure, and makes basic preparation for obtaining a fine reticulate pattern surface roughness parameter in the subsequent finish honing process; setting parameters of a semi-finish honing process: the main shaft rotating speed is 200r/min, the main shaft reciprocating speed is 25m/min, the honing pressure is as follows: first 33bar, second 28bar, honing time: 40-60s; the surface roughness parameter of the inner hole after semi-finish honing is as follows: and (Rpk) is as follows: 0.43 to 0.89 μm, rk:1.75 to 2.29 μm, rvk: 0.74-1.48 μm, mr1 (%): 6.1-10.3, mr2 (%): 84.8 to 87.6;

step 3, grinding cross reticulate peaks formed by semi-finish honing by using black silicon carbide honing oilstones through finish honing to obtain a fine small platform bearing surface with a high bearing rate; the inner hole fine honing is a core process for finally forming a fine reticulate pattern structure on the surface of an inner hole; the process adopts 180# black silicon carbide honing oilstone, and the cross reticulate pattern peak formed by semi-finish honing is ground off through finish honing, so that a fine small platform bearing surface with high bearing rate is obtained; setting the parameters of the fine honing process: the main shaft rotating speed is 200r/min, the main shaft reciprocating speed is 25m/min, and the honing pressure is as follows: first stage 25bar, second stage 20bar, third stage 15bar, honing time: 9s at the first pressure, 5s at the second pressure and 7s at the third pressure; the surface roughness parameter of the inner hole after finish honing is as follows: and (Rpk) is as follows: 0.08 to 0.13 μm, rk:0.28 to 0.43 μm, rvk:0.20 to 0.46 μm, mr1 (%): 6.1-8.0, mr2 (%): 83.0 to 88.4;

step 4, extruding and polishing the inner hole of the cylinder sleeve, wherein the coarse edge angle of the fine honing surface small platform structure can be changed to a fine smooth shape by adopting cork oilstone through the inner hole extruding and polishing, so that the surface of a micro platform is formed, the shape of an oil storage tank is optimized, and a fine reinforced cylinder sleeve inner hole reticulated surface with good oil storage performance is obtained; the inner hole extrusion polishing is a key process for finally obtaining the microstructure of the expected working surface; the process adopts EKK600 cork oilstone, and can ensure that the coarse edge angle of a fine honing surface small platform structure is changed into a fine smooth shape through inner hole extrusion and polishing, thereby forming a micro platform surface, optimizing the shape of an oil storage tank and obtaining a reinforced cylinder sleeve inner hole reticulated surface which is fine and has good oil storage performance; the micro rough edges and corners on the surface of the small platform generated by the finish honing process are cleaned by the powerful extrusion and the rotary motion of the polishing head and repeated surface superposition micromachining, so that a hardened working surface with a superior microstructure (smoothness) and an ideal roughness (oil content) is formed. Setting parameters of the extrusion polishing process: spindle rotation speed 245r/min, spindle reciprocating speed 25m/min, polishing pressure: 25bar, polishing time: 20-22 s; and (3) the roughness parameter of the surface of the inner hole after extrusion polishing is as follows: and (Rpk) is as follows: 0.02 to 0.03 μm, rk:0.07 to 0.14 μm, rvk: 0.06-0.29 μm, mr1 (%): 4.3-8.9, mr2 (%): 79.5 to 88.5.

The honing machine is adopted to reasonably match main process parameters such as main shaft rotating speed, main shaft reciprocating speed, honing (polishing) pressure, honing (polishing) time and the like through processing process flows such as fine rough honing, semi-fine honing, extrusion polishing and the like, and finally the strengthened fine reticulated surface with good surface microstructure oil storage performance is obtained.

In the embodiment, a molybdenum spraying ring-mirror surface cylinder sleeve (polishing) and a molybdenum spraying ring-the cylinder sleeve (platform reticulate pattern honing + extrusion polishing) of the forming process are adopted, and the tensile cylinder performance test is carried out under different processes; the test is carried out by sequentially carrying out low-load running-in and high-load running-in, and oil is continuously and fully supplied at the moment; stopping oil supply when the high-load running-in stage is finished, and continuously wearing the friction pair until cylinder scuffing occurs under the conditions that the fixed rotating speed, the fixed temperature, the fixed load and other parameters are kept unchanged, namely the oil-cut friction stage; and finally stopping the machine to finish the test.

Lean test parameters of cylinder sleeve-piston ring

Test phase	Test parameters
		Low load break-in phase	200r/min 120℃ 10MPa 10min
High-load millSynthesis stage	200r/min 190℃ 40MPa 150min
		Oil cut friction phase	Keeping the temperature load at 200r/min constant, stopping oil supply and grinding until the cylinder is pulled

Cylinder sleeve-piston ring pairing auxiliary lean oil test tensile cylinder timetable

In the embodiment, through a molybdenum spraying ring-mirror surface cylinder sleeve (polishing) and a molybdenum spraying ring-the cylinder sleeve (platform reticulate pattern honing + extrusion polishing) of the forming process of the invention, friction and abrasion performance tests are carried out under different processes; the test is firstly carried out for 3 hours under the conditions of 150 ℃ and 10MPa, after the running-in period is over, the test parameters are adjusted to 180 ℃ and 60MPa, the test is continued, and the machine is stopped after 21 hours; the rotation speed of the testing machine is kept unchanged at 200r/min in the whole testing process, and oil is continuously and fully supplied.

Friction and wear performance test parameters

Testing phase	Test parameters
		Running-in phase	200r/min、150℃、10MPa、3h
Stable wear phase	200r/min、180℃、60MPa、21h

Cylinder sleeve wear gauge

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solution of the present invention by those skilled in the art without departing from the spirit of the present invention should fall within the protection scope defined by the appended claims.

Claims

1. A forming process method for the surface of an inner hole of a cylinder sleeve is characterized by comprising the following steps:

step 1, roughly honing an inner hole of a cylinder sleeve, correcting a shape error after the processing of an earlier process of the inner hole by rough honing by adopting a diamond honing oilstone to form a certain geometric shape of the surface of the inner hole, and setting rough honing process parameters: the main shaft rotating speed is 200r/min, the main shaft reciprocating speed is 25m/min, and the honing pressure is as follows: first 37bar, second 35bar, honing time: 50-60s;

step 2, adopting diamond honing oilstone to perform semi-finish honing on the inner hole of the cylinder sleeve, further improving the geometrical shape of the surface of the inner hole, preliminarily forming an even cross reticulate pattern structure, and setting the technological parameters of the semi-finish honing: the main shaft rotating speed is 200r/min, the main shaft reciprocating speed is 25m/min, and the honing pressure is as follows: one stage 33bar, two stage 28bar, honing time: 40-60s;

step 3, adopting black silicon carbide honing oilstone, and grinding the cross reticulate pattern peak formed by semi-finish honing through finish honing, so as to obtain a fine small platform bearing surface with higher bearing rate, wherein the finish honing process parameters are set as follows: the main shaft rotating speed is 200r/min, the main shaft reciprocating speed is 25m/min, the honing pressure is as follows: one-stage 25bar, two-stage 20bar, three-stage 15bar, honing time: 9s at the first pressure, 5s at the second pressure and 7s at the third pressure;

step 4, extruding and polishing the inner hole of the cylinder sleeve, adopting EKK600 cork oilstone, and enabling the coarse edge angle of the fine honing surface small platform structure to be changed into a fine smooth shape through the inner hole extruding and polishing, so that a micro platform surface is formed, the shape of an oil storage tank is optimized, a fine and strengthened cylinder sleeve inner hole reticulated surface with good oil storage performance is obtained, and the parameters of the extruding and polishing process are set: spindle rotation speed 245r/min, spindle reciprocating speed 25m/min, polishing pressure: 25bar, polishing time: 20-22 s, and the roughness parameter of the inner hole surface of the cylinder sleeve after extrusion polishing is as follows: and (Rpk) is as follows: 0.02 to 0.03 μm, rk:0.07 to 0.14 μm, rvk: 0.06-0.29 μm, mr1 (%): 4.3-8.9, mr2 (%): 79.5 to 88.5.

2. The forming process for the inner hole surface of the cylinder liner according to claim 1, wherein the material percentage of the cylinder liner is C:0.35 to 0.42, si:0.17 to 0.37, mn:0.30 to 0.60, S: less than or equal to 0.025, P: less than or equal to 0.025, cr:1.35 to 1.65, ni: less than or equal to 0.40, mo:0.15 to 0.25, al:0.70 to 1.10, cu: less than or equal to 0.25.