top of page
banner ince 1.png

Technical Knowledge Center

Answers to Your Powder Metallurgy Questions

Self-Lubricating Sintered Bronze Bearings – FAQ

What is a self-lubricating bronze bearing?

Self-lubricating bronze bearings are porous sintered bronze bearing elements impregnated with specially formulated lubricating oils. During operation, they supply lubrication from the oil stored within their porous structure, significantly reducing maintenance requirements. Their low-noise operation, long service life, and cost-effective production make them ideal for applications ranging from electric motors to agricultural machinery.

How do self-lubricating bronze bearings work?

The porous structure of the bearing acts as an oil reservoir. As the shaft begins to rotate, a hydrodynamic oil film forms between the bearing and the shaft. This film prevents direct metal-to-metal contact. When the shaft stops, the oil is reabsorbed into the pores, preparing the bearing for the next operating cycle.

Where are self-lubricating bronze bearings used?

They are commonly used in electric motors, fans, pumps, gearboxes, agricultural machinery, home appliances, automotive systems, office equipment, textile machinery, and many other applications where regular lubrication is difficult or impractical.

What shaft hardness is recommended?

For most applications, hardened and ground shafts are recommended. Insufficient shaft hardness accelerates wear and reduces bearing life. Depending on the application, a shaft hardness of 50 HRC or higher is generally preferred.

What shaft surface finish is recommended?

The shaft surface should neither be excessively rough nor mirror-polished. Rough surfaces disrupt the oil film, while overly smooth surfaces may reduce oil retention. A ground shaft surface generally provides the best performance.

Should the housing tolerance be H7 or H8?

For most standard applications, an H7 housing tolerance is recommended, providing the proper interference fit and controlled assembly. H8 should only be considered for specific applications.

How should the bearing clearance be selected?

Bearing clearance should be determined according to shaft diameter, operating temperature, rotational speed, and applied load. Too little clearance may cause seizure, while excessive clearance can result in vibration and noise.

How is the bearing length determined?

Increasing bearing length increases the load-bearing area. However, excessively long bearings increase cost and may create alignment issues. In general, selecting a bearing length approximately equal to or slightly greater than the shaft diameter provides good performance.

How should sintered bronze bearings be press-fitted?

During installation, force should be applied only to the outside diameter of the bearing. Press-fitting must be performed in a controlled axial direction. Incorrect installation may damage the porous structure.

Can self-lubricating bearings be installed with a hammer?

No. Hammer installation may deform the bearing, create cracks, and close the pores, significantly reducing lubrication performance.

Is sizing necessary?

Sizing is recommended for applications requiring high dimensional accuracy. It improves bore tolerances and surface geometry.

What are the advantages of self-lubricating bearings?

  • Maintenance-free operation

  • Low-noise performance

  • Self-contained lubrication

  • High dimensional accuracy

  • Cost-effective high-volume production

Should I choose a sintered bronze bearing or a sintered iron bearing?

Bronze bearings are recommended where high corrosion resistance is required. In applications where corrosion resistance is less critical, sintered iron bearings provide a more economical alternative.

How do self-lubricating bearings lubricate themselves?

The lubricant stored within the bearing's porous structure is transported to the bearing surface by pressure variations generated during operation. When rotation stops, the oil returns to the pores.

Why are the pores important?

The pores serve as an internal lubricant reservoir. With porosity reaching approximately 30% of the total volume, they provide long-term lubrication throughout the bearing's service life.

Where is the lubricant when the bearing is not operating?

Most of the lubricant remains stored within the porous structure. As the shaft begins rotating, it migrates to the bearing surface.

What is hydrodynamic lubrication?

As the shaft rotates, a thin oil film forms between the shaft and the bearing. This film minimizes direct metal contact and significantly reduces wear.

What is mixed lubrication?

When rotational speed is low or applied loads are high, the oil film may not be thick enough to completely separate the surfaces. Partial metal-to-metal contact occurs under these conditions, known as mixed lubrication.

Why is the shaft so important in self-lubricating bearing applications?

The performance of the bearing system depends not only on the bearing itself but also on the correct interaction between the bearing, lubricant, and shaft.

What factors determine bearing performance?

  • Bearing material

  • Porous structure

  • Lubricant type

  • Shaft properties

  • Operating temperature

  • Applied load

  • Rotational speed

Why is surface finish important?

Surface characteristics directly influence the formation and stability of the lubricating oil film.

Why can conventional Ra measurements be misleading for sintered bearings?

Because of the porous structure, standard surface roughness measurements may indicate a rougher surface than actually exists.

How are sintered bearing surfaces evaluated?

For certain applications, surface characteristics can be evaluated using the Abbott Bearing Area Curve.

 

Which lubricants can be used?

  • Mineral oils

  • Ester-based synthetic oils

  • Synthetic hydrocarbon oils

  • Polyglycol oils

  • Silicone oils

  • Perfluoropolyether (PFPE) oils

What are the advantages of mineral oils?

  • Cost-effective

  • Widely available

  • Excellent lubrication performance

What operating temperatures can self-lubricating bearings withstand?

With the appropriate lubricant selection, they can typically operate within a temperature range of approximately −65°C to +200°C.

What factors affect the service life of self-lubricating bearings?

  • Applied load

  • Rotational speed

  • Operating temperature

  • Bearing clearance

  • Lubricant type

  • Lubricant loss

  • Shaft design

What is the typical service life of a self-lubricating bearing?

  1. Up to 2,000 hours under normal operating conditions without additional lubrication and without lubricant loss.

  2. Up to 5,000 hours under normal operating conditions with supplemental grease lubrication but without lubricant recirculation.

  3. More than 5,000 hours under normal operating conditions with supplemental lubrication and guaranteed lubricant recirculation.

Does additional lubrication extend bearing life?

Yes. Supplemental lubrication and external lubricant reservoirs can significantly increase bearing service life.

 

 

When does lubricant loss become critical?

Bearing performance is significantly reduced when approximately 40% of the total lubricant has been lost.

 

 

What are solid lubricants?

Solid lubricants are used in applications where conventional liquid lubricants are inadequate, such as operating temperatures around 300°C or applications involving frequent boundary lubrication conditions.

Why is graphite used?

Graphite is one of the most widely used and effective solid lubricants for both bronze and iron sintered bearings due to its excellent lubricating properties under demanding operating conditions.

bottom of page