Analysis of common quality defects of bearing parts after heat treatment

Home>Bearing knowledge>Analysis of the common quality defects of bearing parts after heat treatment
/*728*90 created on 2018/5/16*/ var cpro_id = "u3440131";

Analysis of common quality defects of bearing parts after heat treatment

Source: Bearing network time: 2013-02-07

/*250*250 was created on 2017/12/25*/ var cpro_id = 'u3171089';
Common quality defects of bearing parts after heat treatment include: quenching micro-arrangement overheating, underheating, quenching cracks, hardness failure, heat treatment deformation, surface decarburization, soft spots, etc.
1. Overheating can be investigated from the rough mouth of the bearing part to the overheating of the microscopic arrangement after quenching. However, it is necessary to investigate the microscopic arrangement when discriminating the degree of overheating. If coarse acicular martensite is present in the quenching arrangement of GCr15 steel, then Arrangement for quenching and overheating. The cause of the formation may be that the quenching heating temperature is too high or the heating and holding time is too long to form all the overheating, or the original arrangement of the banded carbide is severe; the low carbon area between the two bands constitutes some Markov The needle is coarse; the structure is somewhat overheated. The retained austenite is increased in the superheating arrangement; the dimensional stability is reduced. Because the quenching arrangement is overheated; the crystal of the steel is coarse; the resistance of the part is reduced; the impact resistance is reduced; the life of the bearing is reduced Also reduced. Overheating is severe and may even constitute quenching cracks.
2. If the under-heat quenching temperature is low or the cooling is poor, the tortite arrangement that exceeds the canonical rules will be attacked in the microscopic arrangement; it is called the underheating arrangement; it reduces the hardness; the wear resistance is drastically reduced; and the bearing life is affected.
3. Quenching cracked bearing parts are called quenching cracks due to internal stress during quenching and cooling. The causes of such cracks are: because the quenching heating temperature is too high or the cooling is too fast; the thermal stress and the metal mass volume change the arrangement stress It is greater than the fracture strength of the steel, the original defects of the work appearance (such as fine cracks or scratches on the surface) or the internal defects of the steel (such as slag inclusions, severe non-metallic inclusions, white spots, shrinkage holes, etc.) during quenching Constitutive stress gathering, severe surface decarburization and carbide segregation, lack of tempering after quenching of parts or tempering in time, the cold pressing stress of the previous process is too large, casting folding, deep turning tool marks, oil groove sharp edge The reason for the quenching crack may be one or more of the above factors; the existence of internal stress is the main reason for the quenching crack. The quenching crack is deep and slender; the fracture is straight; the fracture has no oxidation color. On the bearing ring, there are often longitudinal straight cracks or ring cracks. The shape of the bearing steel ball is S-shaped, T-shaped or ring-shaped. The quenching crack is arranged on both sides of the crack. Carbon appearance; significantly different from the casting crack and crack data.
4. Heat treatment of deformed bearing parts during heat treatment; there are thermal stresses and arrangement stresses; such internal stresses can be superimposed or partially offset; they are complex and variable; because they can follow heating temperature, heating rate, cooling method, cooling rate, parts The shape and the size change; therefore, the heat treatment deformation is inevitable. Knowing and grasping the changing rules can make the deformation of the bearing parts (such as the ellipse of the ferrule, the scale increase, etc.) on a controllable scale; Of course. Mechanical bumps during heat treatment can also cause deformation of the parts; but this deformation can be reduced and prevented by improved operation.
5. The outer decarburization bearing parts are in the heat treatment process; if it is heated in an oxidizing medium; the surface will have an oxidation effect to reduce the mass fraction of the surface carbon of the part; the outer surface decarburization will be formed. The depth of the outer decarburization layer exceeds the final processing allowance. The part will be invalidated. The determination of the depth of the decarburization layer can be determined by the metallographic method and the microhardness method in the metallographic examination. The surface hardness measurement curve of the surface layer is the standard; the ruling criterion can be made.
6. The soft point is lack of heating; the cooling is poor; the quenching operation is not appropriate. The appearance of the bearing parts is somewhat hard. The appearance is called quenching soft point. It can form the same wear resistance and fatigue strength as the outer surface decarburization.

Recommend to friends comments close window

Bearing related knowledge
Activities bearing arrangement and effect
NSK tapered roller bearing failure cause analysis bearing professors teach your bearings speed limit target load bearing use quantitative analysis of railway bearing grease machine


This article links to http://
Please indicate China Bearing Network http://

Previous: How to ensure the quality of bearing measurement?
Next: INA reverse support bearing

'U' Bent Stainless Steel Tubes are manufactured in our plant as per the customer requirements. Bends can be Heat Treated in accordance with Clients' requirements followed by hydrostatic testing and dye penetrant testing if required.

U bent tubes are widely used in heat-exchanger systems. Heat exchanger equipment on the basis of stainless U-tube is essential in strategically important and critical fields nuclear and petrochemical machine building.

U-tube heat exchangers Designed for high temperature applications, especially steam condensing or hot oil systems. Thïs model is selected when differential expansion makes a fixed tube sheet exchanger unsuitable and when conditions preclude a floating head type (HPF) selection.

Surface condition Finished U-tubes shall be free of scale, without scratches after bending

Stainless Steel U Bent Tube

Stainless Steel U Bend Tube,Welded Stainless Steel U Bending Tube,U Bend Seamless Stainless Steel Tube,Stainless Steel U Bend Welded Tube

Zhejiang Max Stainless Steel Co.,Ltd , http://www.cnstainlesstube.com