This project explores the influence of different surface textures on the temperature rise in contact areas of rolling bearings. It investigates the impact of texture depths, types, and slip ratios on lubrication effectiveness and temperature distribution.

1. Chapter 3 Overview:
   • Summarizes the key findings and insights from Chapter 3 of the analysis.
2. Data and Results:
   • Includes data tables, graphs, and figures showcasing temperature distributions, texture types, and slip ratios.
3. Conclusion:
   • Discusses the implications of the analysis and provides recommendations for practical applications.
4. Code:
   • Contains the code used for data analysis, simulations, and visualization.

This section examines the influence of different surface texture depths on contact area temperature rise. It also investigates the impact of various texture types and slip ratios on temperature distribution.

• Surface Texture Depths: Results indicate a general trend of temperature rise with increasing texture depth, attributed to oil film rupture.
• Texture Types: Cross-shaped grooves demonstrate lower temperatures due to their ability to store lubricating oil effectively.
• Slip Ratios: Higher slip ratios lead to increased temperature in contact areas, emphasizing the importance of controlling slip for temperature management.

The analysis highlights the importance of surface texture design and slip control in optimizing lubrication effectiveness and managing temperature rise in rolling bearings. Practical recommendations include avoiding excessive texture depths and controlling slip ratios to prevent surface failure.