Design of simple drapery systems to guide the rock falls ... · systems to guide the rock falls...
Transcript of Design of simple drapery systems to guide the rock falls ... · systems to guide the rock falls...
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Design of simple drapery systems to guide the rock falls along the slope
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Simple drapery with the mesh opened at the bottom
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Simple drapery with the mesh fixed at the bottom
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Main questions: - Which is the calculation
procedure for the top supporting system : cable and anchors?
- … and for the facing?
Simple Drapery Top anchors
Mesh
? Mesh facing + anchors at the top (bottom) + upper longitudinal cable
Goal: - Drive the instable block at the
toe of the slope - Reduce the velocity and the
energy of the blocks
Top cable
?
?
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To verify: 1. Mesh resistance
2. Top cable resistance under
mesh load
3. Intermediate anchors resistance
4. Lateral anchors resistance
Simple drapery design
1 2
4
3
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Mesh Design
The simple drapery system is a passive system capable to contain the debris at the bottom of the slope. It has to be designed by taking into account all the weights able to transmit a stress on the mesh per linear meter: 1. The proper weight of the chosen mesh 2. The weight of the debris accumulated at the toe of the mesh 3. External weight like the snow or ice accumulation on the drapery These three loads may be described by the following formulas, based on the researched of the U.S. Department of Transportation FHA.
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Security factors: reduction of resistance forces, increase of destabilizing forces.
Design principle(1)
Meshtensile resistance ≥ Loaddebris + Loadsnow + Weightmesh
(1) Muhunthan B., Shu S., Sasiharan N., Hattamleh O.A., Badger T.C., Lowell S.M., Duffy J.D. (2005). “Analysis and design of wire mesh/cable net slope protection - Final Research Report WA-RD 612.1” Washington State Transportation Commission - Department of Transportation/U.S. Department of Transportation Federal Highway Administration.
Simple drapery design Step 1: Mesh design
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Total load due to the mesh (Wm)
Wm = γm Hs / sinβ (sinβ – cosβ tanδ) g Where: • γm = steel mesh unit weight [ML-3] • Hs =total height of the slope [L] • β = inclination of the slope [deg] • δ = friction angle between mesh and slope [deg] • g = acceleration of gravity [LT-2]
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Total stress transmitted from the debris to the mesh (Wd)
Wd = ½ γd Hd2 (1/tanBd – 1/tanβ) (sinβ – cosβ tanϕd) g
Where: • γd = debris unit weight [ML-3] • Hd =debris accumulation height [L] • ϕd = debris friction angle [deg] • Bd = debris external inclination value (Muhunthan equation)
[deg]: = arctan[Hd / (Td + Hd / tanβ)] • Td = debris accumulation width [L]
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Total stress transmitted from the external loads (i.e. snow) (Ws)
Ws = γs ts Hs / sinβ (sinβ - cosβ tanϕs) g Where: • γs = snow unit weight [ML-3] • ts = snow thickness [L] • ϕs = friction angle between soil and snow [deg]
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SIMPLE DRAPERY - FORCES
Under load (weight, debris, snow) The top horizontal rope is uniformly loaded The wire mesh is uniformly tensioned
1 – Theoretical case 2 – Mesh weight 3 – weight of the debris
Reaction of the top cable
Forces loading the mesh
Development
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Tensile Strength 1- Fixed Frame 2- Moving Beam 3- Free Lateral Constrain 4- Side Beam
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Tensile Strength
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Sample Code
Tensile Force (kN)
Displacement (mm)
Side Reaction to Tensile Force (kN)
Local Cell 25
Local Cell 26
Local Cell 27
Local Cell 28
HEA 300 F8 (P1)
261.6 113 62.7 65.5 69.2 50.1
HEA 300 F8 (P2)
264.1 123 65.5 60.9 71.5 66.0
HEA 300 F8 (P3)
266.8 121 65.4 65.9 71.8 65.7
Average 264.2 119 65.6 64.1 70.8 60.6
Tensile Strength - HEA Panel 300 mm with 8 mm Wire Rope
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The inclusion of vertical ropes in addition to a top horizontal rope reduces the stress concentration on the mesh, as well as along the top horizontal rope only if they are woven in the mesh and not applied on the mesh at the job site (*)
Mesh stress in the drapery with interwoven cables
Top anchors
(*) ANALYSIS AND DESIGN OF WIRE MESH/CABLE NET SLOPE Department of Transportation - U.S. Department of Transportation - Federal Highway Administration - April 2005
Loading capacity without deformation
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Steelgrid MO 400 - DEFORMATION
RockMesh does not strain due to its weight Deformations due to the debris loads are localized
1 – Theoretical case 2 – Mesh weight 3 – Weight of debris
Development
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Steelgrid MO 400 - FORCES
RockMesh transfers forces from the mesh to the edge ropes -The edge ropes transfer forces on top anchors -The horizontal top cable is only partially loaded -The wire mesh is only partially loaded on top
1 – Theoretical case 2 – Mesh weight 3 – Weight of debris
Reaction of the top cable
Forces loading the mesh
Reaction forces of the SteelGrid edge ropes
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Steelgrid HR50 - FORCES
RockMesh transfers forces from the mesh to the steel ropes -The ropes transfer forces on top anchors -The horizontal top cable is only partially loaded -The wire mesh is only partially loaded on top
1 – Theoretical case 2 – Mesh weight 3 – Weight of debris
Reaction of the top cable
Forces loading the mesh
Reaction forces of the Rockmesh edge ropes
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MACRO 2 Software:
The calculation is done using the Limit State Design (LSD) approach. This method provides margin of safety, against attaining the limit state of collapse by introducing some safety factors:
• Partial Factors: resisting forces are decreased to produce the design strength (Rd);
• Load factors: permanent and variable loads are increased to produce the design load acting on the system (Ed).
The equation at the base of the LSD calculation method is
described with the following formula:
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Mesh Design
Resisting force: design tensile strength of the mesh
Acting force: design total stress on the mesh
Ultimate tensile strength of the mesh (laboratory test)
Safety coefficient on the resisting forces (suggested > 2.0)
Safety coefficient for the variable load (suggested 1.5)
Safety coefficient for the permanent load (suggested 1.3)
Total load due to the mesh
Total load due to the debris accumulation at the top
Total load due to the snow
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Suggested values for the partial and load factors
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Cable Design
Anchor distance
Rop
e
defo
rmat
ion
Sw
Fcbl Sw/2 Sw/2
Ultimate tensile strength of the cable divided by a safety coefficient (suggested 1.5)
Maximum tensile strength acting on the cable (Catenary theory, function of Sw)
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Anchors design (1): 1. anchor diameter
Working shear resistance of the anchor (j)
Force acting on the anchor (j), developed by the mesh and the cable (catenary solution)
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Stabilizing contribution of anchorage bar yield 430 N/mm2 diam = 24.0 mm (Fos = 1.75)
55.00
65.00
75.00
85.00
95.00
105.00
115.00
0 10 20 30 40 50 60 70
Angle between axis of the bar and normal to sliding surface
Stab
ilizi
ng c
ontr
ibut
ion
(kN
)
0°
10°
Bar subjected to pure traction ( case “b” ): the joint dilatency does not affect the resistance contribution due to the bar.
Bar subjected to pure shear ( case “e” ): the greater the joint dilatancy, the higher the resistance contribution of the bar.
1
2
3
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Anchors design (2): 2. anchor length
Minimum foundation length : calculated with Bustamante-Doix ( Ls = P / (π φdrill τlim / γgt) )
Length of hole with plasticity phenomena in firm part of the rock mass (generally 30-50 cm)
NOTE: the final suitable length of the anchor has to be evaluated during the drilling in order to verify the exact nature of the soil and confirmed with pull-out tests.
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Anchors are frequently enough to the lateral and intermediate stability
Lateral anchor
Mesh
Intermediate anchor
Intermediate anchor
Intermediate anchor
Lateral anchor
Lateral anchor
Mesh
Lateral steel cables are often required for high slope without significant friction
Superior structural system geometry
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Peerless Park, Missouri
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Upper Section
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Upper slope Input data
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Upper slope Input data
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Minimum Pullout was 19.3 Kips
Maximum volume 1.67 m3 per m (59 ft3)
Anchors were ¾ Wire rope cable 52 kips
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CONCLUSION:
Even if the software allows a quick and simple calculation approach, onsite observations are always recommended to achieve a good
design, with the ultimate goal of protecting property and the public.
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It is always better to design the System!!