Revolubes was rigorously tested by AMDiagnostics, a UK-based company specializing in machinery maintenance and tribology, using block-on-ring tests to compare its performance against other lubricants.

These tests, including the seizure point and creep tests, evaluate how well lubricants maintain their properties over time and withstand varying loads.

This detailed analysis highlights the importance of selecting high-quality lubricants to ensure optimal machinery performance and longevity.

Block-on-Ring - Test Brief

 

Seizure Point Test

In the seizure point test, a stationary block is pressed against a rotating ring with increasing force to determine the maximum load capacity of the lubricant before the system seizes. The test identifies the seizure point, which is the highest load at which the lubricant can no longer prevent metal-to-metal contact, resulting in system seizure.

The key measurements taken during this test are:

  1. Maximum bearing load: The load applied to the system that causes it to seize.
  2. Seizure groove size: The extent of damage to the test sample, measured at the seizure point.

If system seizure cannot be reached, the groove size indicates the extent of wear-in necessary for the lubricant to perform effectively under high load conditions.

 

Creep Test

In contrast, the creep test maintains a constant load on the block as the ring rotates over a set period, simulating long-term operating conditions. This test evaluates the lubricant's ability to prevent wear and deformation under continuous stress, providing a measure of its durability over time.

The key measurements taken during this test are:

  1. Groove size: The extent of damage to the test sample, measured at the end of a run.
  2. Motor's current draw: Indicates the amount of friction in the system.

 

Friction

In both tests, the friction coefficient can be measured using an ammeter connected to the electric motor that drives the rotating ring.

As friction between the block and the ring increases, the motor must work harder to maintain the ring’s rotation, which leads to an increase in the current drawn by the motor.

The ammeter records this current, which is directly related to the torque required to overcome the frictional resistance. By understanding the relationship between the motor’s current draw and torque, the friction force can be calculated, allowing for the determination of the friction coefficient.

This provides real-time data on the lubricant’s performance, especially in response to changes in load and over time.

 

Data

For both tests involve measuring the friction coefficient using the above method, as well as wear measurement through microscopic analysis and the observation of material creep in the long-term test.

The seizure point test identifies the maximum load capacity, while the creep test provides insights into the lubricant’s long-term reliability.

Together, these tests are essential for selecting lubricants that can perform reliably under both short-term extreme conditions and sustained stress, ensuring the protection and longevity of mechanical systems.

 

 

Test Results - Bicycle Chain Lubes

 

Seizure Point Test

This section presents the results of the Block-on-Ring Seizure Point Test conducted on popular bicycle chain lubricants.

The data is sorted by seizure load in descending order to highlight each product's highest load-bearing capacity.

Additionally, the groove size indicates the extent of damage to the test sample, helping to evaluate how well each lubricant minimizes wear under high load conditions.

For detailed videos of the tests, including insights on the lubricants used and photographic documentation, click the link to watch on YouTube

 

Test Results - Motorbike Chain Lubes

 

Seizure point test

This section presents the results of the Block-on-Ring Seizure Point Test conducted on popular Motorcycle chain lubricants.

The data is sorted by seizure load in descending order to highlight each product's highest load-bearing capacity.

Additionally, the groove size indicates the extent of damage to the test sample, helping to evaluate how well each lubricant minimizes wear under high load conditions.

For detailed videos of the tests, including insights on the lubricants used and photographic documentation, click the link to watch on YouTube

 

Creep test 

This section presents the results of the Block-on-Ring Creep Test conducted on popular motorcycle chain lubricants.

The data is divided into three static load sections, sorted by groove size in descending order to highlight the extent of damage to the test sample.
 
This helps evaluate how well each lubricant minimizes wear under continuous stress, providing a measure of its durability over time.

To qualify for the next test section, the groove depth must not exceed 0.25[mm]. 
 

For detailed videos of the tests, including insights on the lubricants used and photographic documentation, click the link to watch on YouTube
  

Test Results - Bearing Greases

 

Seizure point test

This section presents the results of the Block-on-Ring Seizure Point Test conducted on widely available Bearing Greases.

The data is sorted by seizure load in descending order to highlight each product's highest load-bearing capacity.

Additionally, the groove size indicates the extent of damage to the test sample, helping to evaluate how well each lubricant minimizes wear under high load conditions.

For detailed videos of the tests, including insights on the lubricants used and photographic documentation, click the link to watch on YouTube

 

Creep test 

This section presents the results of the Block-on-Ring Creep Test conducted on widely available Bearing Greases.

The data is divided into three static load sections, sorted by groove size in descending order to highlight the extent of damage to the test sample.
 
This helps evaluate how well each lubricant minimizes wear under continuous stress, providing a measure of its durability over time.

To qualify for the next test section, the groove depth must not exceed 0.25[mm].
 
 
For detailed videos of the tests, including insights on the lubricants used and photographic documentation, click the link to watch on YouTube
 

Test Results - Engine Oils

 

Seizure point test

This section presents the results of the Block-on-Ring Seizure Point Test conducted on several widely available engine oils.
 
The data is divided into two categories—cold run and hot run—to reflect the different temperature conditions found in internal combustion engines.
 
The results are sorted by seizure load in descending order, highlighting each product's highest load-bearing capacity.
 
Additionally, groove size is used to indicate the extent of damage to the test sample, providing insight into how well each lubricant minimizes wear under high load conditions.
 
 
 
 
For detailed videos of the tests, including insights on the lubricants used and photographic documentation, click the link to watch on YouTube

 

Creep test 

This section presents the results of the Block-on-Ring Creep Test conducted on several widely available engine oils.

All oils were tested at their nominal operating temperature to ensure accurate assessment of their performance under typical conditions.
 
The data is divided into three static load sections, sorted by groove size in descending order to highlight the extent of damage to the test sample.
 
This helps evaluate how well each lubricant minimizes wear under continuous stress, providing a measure of its durability over time.

To qualify for the next test section, the groove depth must not exceed 0.25[mm]. 
 
 
For detailed videos of the tests, including insights on the lubricants used and photographic documentation, click the link to watch on YouTube
 

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