Mud rotary geotechnical drilling is a method that uses a rotating drill bit to create a borehole, with a bentonite or polymer-based drilling mud pumped down the drill rods, circulating up to the surface to carry cuttings, stabilize the hole, and prevent collapse, especially in unstable formations like sand and gravel. This process allows for the collection of geotechnical samples, such as Standard Penetration Tests (SPT) samples, for subsurface analysis and informed design decisions in construction projects. 

How it Works

1. 1. Drill Bit and Rotation:A drill bit attached to a rotating drill rod creates the borehole. 
2. 2. Mud Circulation:A drilling mud, typically a bentonite or polymer slurry, is pumped down through the hollow drill rods and exits through the bit. 
3. 3. Cuttings Removal:The pressurized mud flows up the borehole’s annulus (the space between the rod and the hole wall), carrying the removed rock and soil cuttings to the surface. 
4. 4. Estabilización de perforaciones:The mud helps to stabilize the walls of the borehole, preventing collapses, which is particularly important in unconsolidated soils. 
5. 5. Sample Collection:Once a desired depth is reached, the drill bit and rods are withdrawn, and geotechnical sampling tools (like SPT split spoons) are lowered into the hole to collect samples. 

Key Applications in Geotechnical Investigations 

• Subsurface Characterization: Gathers new data about soil and rock conditions for site investigations.
• Hazard Identification: Helps identify potential risks and hazards in the ground.
• Informed Design: Provides crucial information for engineers to make better design decisions, especially for complex projects.
• Sampling: Enables the collection of various types of samples for laboratory testing.

Advantages

• Versatile:Works well in various geological materials, including sand, gravel, and broken rock. 
• Borehole Stability:Effectively stabilizes the borehole walls, especially in unstable or unconsolidated formations. 
• Faster Drilling:Often a faster drilling method compared to others, resulting in less disturbance to the sampled soil. 
• Reduced Wear:Helps to reduce drill pressure and wear on the drilling equipment. 

Considerations

• Higher Costs: Can be more expensive than other methods, particularly in hard rock formations. 
• Waste Generation: Can produce large volumes of drilling waste and water, potentially increasing disposal costs. 
• Mud Contamination: Mud can sometimes contaminate the samples being collected for analysis.