capacidad portante
DESCRIPTION
Hoja de calculo para capacidad portanteTRANSCRIPT
Φ (GRADOS) Φ (RAD)0 0 10.85 0.0872664626 12.2
10 0.1745329252 14.715 0.2617993878 18.620 0.3490658504 2525 0.436332313 3530 0.5235987756 5235 0.6108652382 8240 0.6981317008 14145 0.7853981634 29850 0.872664626 800
Pi 3.1415926536
Kpɣ
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 10
100
200
300
400
500
600
700
800
900
f(x) = 57073.1 x⁶ − 121295 x⁵ + 97733.3 x⁴ − 36181.8 x³ + 6075.1 x² − 335.134 x + 11.4151R² = 0.999833490957061
Kpy
φ (GRADOS)
Kpy
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 10
100
200
300
400
500
600
700
800
900
f(x) = 57073.1 x⁶ − 121295 x⁵ + 97733.3 x⁴ − 36181.8 x³ + 6075.1 x² − 335.134 x + 11.4151R² = 0.999833490957061
Kpy
φ (GRADOS)
Kpy
CAPACIDAD PORTANTE TERZAGHIΦ (GRADOS) Φ (RAD) a Nc Nq
0 0.00000 0 5.70 1.00 0.000 10.80 0.00000 1.000 5.70 1.00 0.000 11.415
Nɣ Kpɣ
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 10
100
200
300
400
500
600
700
800
900
f(x) = 57073.14 x⁶ − 121295.5 x⁵ + 97733.34 x⁴ − 36181.83 x³ + 6075.103 x² − 335.134 x + 11.41512R² = 0.999833490957061
Kpy
φ (GRADOS)
Kpy
Pi 3.14159265445 0.78540
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 10
100
200
300
400
500
600
700
800
900
f(x) = 57073.14 x⁶ − 121295.5 x⁵ + 97733.34 x⁴ − 36181.83 x³ + 6075.103 x² − 335.134 x + 11.41512R² = 0.999833490957061
Kpy
φ (GRADOS)
Kpy
CAPACIDAD PORTANTE HANSENΦ (GRADOS) Φ (RAD) Nc Nq
0 0.00000 5.14 1.00 0.000 0.00000 5.14 1.00 0.00
Nɣ
Pi 3.141592653645 0.78540
CAPACIDAD PORTANTE MEYERHOFΦ (GRADOS) Φ (RAD) Nc Nq
0 0.00000 5.14 1.00 0.000 0.00000 5.14 1.00 0.00
Nɣ
Pi 3.141592653645 0.78540
CAPACIDAD PORTANTE VESICΦ (GRADOS) Φ (RAD) Nc Nq
0 0.00000 5.14 1.00 0.000 0.00000 5.14 1.00 0.00
Nɣ
Pi 3.141592653645 0.78540
CAPACIDAD PORTANTE MEYERHOF, HANSEN Y VESIC
Φ (GRADOS) Φ (RAD) Nc Nq Nq/Nc0 0.000 5.140 1.00 0.0 0.0 0.0 0.1951 0.017 5.38 1.09 0.0 0.0 0.1 0.2032 0.035 5.63 1.20 0.0 0.0 0.2 0.2123 0.052 5.90 1.31 0.0 0.0 0.2 0.2224 0.070 6.19 1.43 0.0 0.0 0.3 0.2325 0.087 6.49 1.57 0.1 0.1 0.4 0.2426 0.105 6.81 1.72 0.1 0.1 0.6 0.2527 0.122 7.16 1.88 0.2 0.2 0.7 0.2628 0.140 7.53 2.06 0.2 0.2 0.9 0.2739 0.157 7.92 2.25 0.3 0.3 1.0 0.285
10 0.175 8.34 2.47 0.4 0.4 1.2 0.29611 0.192 8.80 2.71 0.5 0.5 1.4 0.30812 0.209 9.28 2.97 0.6 0.6 1.7 0.32013 0.227 9.81 3.26 0.8 0.7 2.0 0.33314 0.244 10.37 3.59 1.0 0.9 2.3 0.34615 0.262 10.98 3.94 1.2 1.1 2.6 0.35916 0.279 11.63 4.34 1.4 1.4 3.1 0.37317 0.297 12.34 4.77 1.7 1.7 3.5 0.38718 0.314 13.10 5.26 2.1 2.0 4.1 0.40119 0.332 13.93 5.80 2.5 2.4 4.7 0.41620 0.349 14.83 6.40 2.9 2.9 5.4 0.43121 0.367 15.81 7.07 3.5 3.4 6.2 0.44722 0.384 16.88 7.82 4.1 4.1 7.1 0.46323 0.401 18.05 8.66 4.9 4.8 8.2 0.48024 0.419 19.32 9.60 5.7 5.7 9.4 0.49725 0.436 20.72 10.66 6.8 6.8 10.9 0.51526 0.454 22.25 11.85 7.9 8.0 12.5 0.53327 0.471 23.94 13.20 9.3 9.5 14.5 0.55128 0.489 25.80 14.72 10.9 11.2 16.7 0.57029 0.506 27.86 16.44 12.8 13.2 19.3 0.59030 0.524 30.14 18.40 15.1 15.7 22.4 0.61131 0.541 32.67 20.63 17.7 18.6 26.0 0.63132 0.559 35.49 23.18 20.8 22.0 30.2 0.65333 0.576 38.64 26.09 24.4 26.2 35.2 0.67534 0.593 42.16 29.44 28.8 31.1 41.1 0.69835 0.611 46.12 33.30 33.9 37.2 48.0 0.72236 0.628 50.59 37.75 40.1 44.4 56.3 0.74637 0.646 55.63 42.92 47.4 53.3 66.2 0.77238 0.663 61.35 48.93 56.2 64.1 78.0 0.79839 0.681 67.87 55.96 66.8 77.3 92.2 0.82540 0.698 75.31 64.20 79.5 93.7 109.4 0.85241 0.716 83.86 73.90 95.1 114.0 130.2 0.88142 0.733 93.71 85.37 114.0 139.3 155.5 0.91143 0.750 105.11 99.01 137.1 171.1 186.5 0.94244 0.768 118.37 115.31 165.6 211.4 224.6 0.974
Nɣ(H) Nɣ(M) Nɣ(V)
45 0.785 133.87 134.87 200.8 262.7 271.7 1.00746 0.803 152.10 158.50 244.6 328.7 330.3 1.04247 0.820 173.64 187.21 299.5 414.3 403.7 1.07848 0.838 199.26 222.30 368.7 526.5 496.0 1.11649 0.855 229.92 265.50 456.4 674.9 613.1 1.15550 0.873 266.88 319.06 568.6 873.9 762.9 1.196
45 0.78540
CAPACIDAD PORTANTE MEYERHOF, HANSEN Y VESIC
0.00000.03370.06510.09410.12100.14580.16860.18940.20830.22540.24080.25460.26670.27740.28660.29440.30090.30620.31030.31320.31520.31610.31600.31510.31340.31090.30770.30380.29930.29430.28870.28260.27620.26930.26210.25460.24690.23900.23080.22250.21410.20570.19710.18860.1801
2tanφ(1-senφ)^2
0.17160.16310.15480.14650.13840.1305
C T/M^2 4.57 cohesion Sobrecargaɸ ° 0 CNcɸ Radianes 0.000 T 33.86 1.60
kN/M^3 1.6 M 31.00 1.60D M 1 H 0.00 1.60B M 1.6 V 0.00 1.60L M 1.85
kN/M^2 1.6kN/M^2 1.28
FS 3D/B 0.625θ 0Hi 0.000000Af 2.96Ca 2.742 0.6 1
M mB 1.536231884mL 1.463768116
V 0β 0η 0
TerzaghiNc 5.70Nq 1.00
0
CorridaSc 1S𝜸 1
cuadradaSc 1.3S𝜸 0.8
RedondaSc 1.3S𝜸 0.6
𝛾
𝑞 ̅�1/2𝛾B
1/2𝛾𝐵𝑁𝑟(𝑞𝑁𝑞) ̅�
𝑵𝜸
Geometria Esfuer ultimo Qmax Esfuerzo netoσn σns Q
0.00 35.46 33.412 33.864 11.288 00.00 32.60 30.584 31.317 10.4390.00 1.600 0.000 -1.400 -0.4670.00 1.60 0.000 0.975 0.325
Hansen MeyerhofNc 5.14 Nc 5.14Nq 1.00 Nq 1.00
0.00 0.00k 0.625 Kp 1
dc 1.25 Sc 1.17297297dq 1 Sq = S𝛾 1d𝜸 1 dc 1.1250Sc 0.17297297297 dq = d𝛾 1.0000Sq 1 ic=iq 1S𝜸 0.65405405405 i𝛾 0ic 1iq 1i𝜸 1gc 1.000
gq = g𝜸 1.000bc 0.000bq 1.000b𝜸 1.000α1 2.5 α2 2
lu (T/M^2)1/2𝛾𝐵𝑁𝑟
𝑵𝜸 𝐍𝛄
CARGA NVesic FORMA S
Nc 5.14 PROFUNDIDAD dNq 1.00 INDIRECCION i
0.00 TALUD gSc 1.168 inclinacion BASE b
CORRIDA 1Sq 1.0000S𝛾 0.654054054k 0.625
dc 0.25dq 1.0000d𝛾 1ic 1iq 1i𝜸 1gc 0
gq = g𝜸 1bc 0
bq = b𝜸 1
𝑁𝛾
T,MM
M,H,VM,H,VM,H,V