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Micropile
Parameters of rocks
Rock parameters of orientation with respect to strength of rock in pure compression
|
Compressive strength of rock
σci [MPa] |
Strength parameter of rock after Hoek
mi[-] |
GSI
[-] |
Cohesion of rock
c [kPa] |
Angle of internal friction of rock
φ [°] |
| 150 | 25 | 75 | 7000 - 13000 | 46 - 68 |
| 80 | 12 | 50 | 3000 - 4000 | 30 - 65 |
| 50 | 16 | 75 | 2000 - 4000 | 40 - 60 |
| 30 | 15 | 65 | 1000 - 2000 | 40 - 60 |
| 20 | 8 | 30 | 400 - 600 | 20 - 44 |
| 15 | 10 | 24 | 300 - 500 | 24 - 38 |
| 5 | 10 | 20 | 90 - 100 | 23 - 28 |
Unlike soils (both cohesive and cohesionless) the magnitude of the angle of internal friction (sometimes refer to as the angle of shear strength) varies and depends on the current state of stress in the rock body. Graphically it is represented by the angle of the tangent to the envelope of Mohr circles constructed for the ultimate stress state. The value of φ gradually decreases with the increasing value of stress σ. If the elastic regime is exceeded (onset of plastic deformation) we set φ = 0. As a representative value of the angle of internal friction φ we denote the value φ0 associated with the stress σ = 0. In practical applications the part of the Mohr envelope between tensile Rt and compressive Rd circles is usually replaced by the tangent to both circles (see Fig.) The magnitude of the angle of internal friction then follows from:
Determination φ0 from Mohr circle
The angle of internal friction can be estimated by measuring angles of slip planes on remaining parts of tested specimens together with the following formula:
Some values of orientation:
| weathered sand conglomerate, lowly cracked | 35 – 44° |
| unweathered clay slate, medium cracked | 30 - 40° |
| unweathered tuff, medium cracked | 33 – 42° |
| unweathered diabase | 39 – 50° |
| unweathered phantanite, lowly cracked | 45 – 52° |
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