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7. Output
Terminal output

p r o g r a m I S O _ 1 9 9 0 5 _ 1 w32 version 00.11
———————————— at 07:23:30 on 19-JUL-2024
jackup leg penetration assessment during preload according to ISO 19905-1 (2016)
(c) S.Kay Consultant, Leiderdorp, The Netherlands.
Please read the ISO_19905_1 Users Manual [ref SKA/MAN/001]
and the ISO_19905_1 FAQ File [ref SKA/FAQ/001].

Q23-AS-PWD_SOFF_CPT002_LB_ENSCO

out_sp_pen_sub: PTS>GSC
7.90 9.40 4.80 6.30 1.50 PTS>GSC
9.40 11.9 6.30 8.80 2.50 GSC
11.9 15.6 8.80 12.5 3.70 SQC
15.6 16.3 12.5 13.2 0.700 PTC>PTS>SQC
16.3 16.4 13.2 13.3 0.100 SQC
16.4 16.9 13.3 13.8 0.500 PTC>PTS>SQC
16.9 17.0 13.8 13.9 0.100 SQC
17.0 17.3 13.9 14.2 0.300 PTC>PTS>SQC
17.3 17.4 14.2 14.3 0.100 SQC
17.4 17.5 14.3 14.4 0.100 PTC>PTS>SQC
17.5 17.6 14.4 14.5 0.100 PTC>PTS>PTC>PTS>SQC
17.6 17.7 14.5 14.6 0.100 PTC>PTS>SQC
17.7 17.8 14.6 14.7 0.100 PTC>PTS>PTC>PTS>SQC
17.8 17.9 14.7 14.8 0.100 SQC
17.9 18.0 14.8 14.9 0.100 PTC>PTS>PTC>PTS>SQC
18.0 18.1 14.9 15.0 0.100 PTC>PTS>SQC
18.1 18.2 15.0 15.1 0.100 PTC>PTS>PTC>PTS>PTC>GSS
18.2 18.3 15.1 15.2 0.100 PTS>PTC>PTS>PTC>GSS
——————————————————————-
from to from to thickness
z_tip z_tip D D T Qv_fmode
[m] [m] [m] [m] [m] [-]
——————————————————————-

iso_19905_1: nlines_errors : 0
iso_19905_1: nlines_warnings: 5

WARNING. gmdata: soil layer # 3; BDEN=7.00 kN/m^3 is inconsistent with SU_TOP=90.00 kPa.
WARNING. gmdata: soil layer # 4; PHI < 20 degrees [ISO 19905-1 Table A.9.3-3].
WARNING. gmdata: soil layer # 7; BDEN=7.00 kN/m^3 is inconsistent with SU_TOP=71.00 kPa.
WARNING. gmdata: soil layer # 9; BDEN=7.00 kN/m^3 is inconsistent with SU_TOP=78.00 kPa.
WARNING. gmdata: soil layer # 10; PHI < 20 degrees [ISO 19905-1 Table A.9.3-3].

z_tip_penetration [m]: 6.61
out_sp_pen_sub: END — >

input file: “JOB.I01”
output file: “JOB.O01”
iso_19905_1: normal program end

Output file contents

p r o g r a m I S O _ 1 9 9 0 5 _ 1 w32 version 00.11
———————————— at 07:23:30 on 19-JUL-2024
jackup leg penetration assessment during preload according to ISO 19905-1 (2016)
(c) S.Kay Consultant, Leiderdorp, The Netherlands.
Please read the ISO_19905_1 Users Manual [ref SKA/MAN/001]
and the ISO_19905_1 FAQ File [ref SKA/FAQ/001].

pidata:

gmdata:

spfdat:

ssidat:

resdat:

s__out:

spudcan_mat_X_sub: sp_H sp_B
> [m] [m]
0.00 0.00
3.00 1.22
15.3 3.10
0.00 7.61
spudcan_mat_X_sub: END — >

D_B_eq_sub: < — BEGIN
D [m]: 4.80
> B_eq [m]: 15.3
D_B_eq_sub: END — >

sp_beta_fun: < — BEGIN
sp_beta [rad]: 2.54
> sp_beta/deg [deg]: 146.
sp_beta_fun: END — >

gamma_sub_av [kN/m^3]: 6.94
A [m^2]: 184.
H_cav [m]: 4.30
V_spud [m^3]: 227.
V_D [m^3]: 145.
W_BF = gamma_sub_av [ A (D – H_cav) – (V_spud – V_D ) ]
> W_BF [kN]: 68.10682
W_BF_fun: END — >

Qv_Dpt_sub: < — BEGIN
< D [m]: 4.80
< B_eq [m]: 15.3

Q_ub_sub: < — BEGIN
< D [m]: 4.80
< D_pt [m]: 4.80
< B_pt [m]: 15.3

Qv_GSS_fun: < — BEGIN
< D [m]: 4.80
< B_eq [m]: 15.3

phi_av_fun: < — BEGIN
< z1 [m]: 4.80
phi_av [rad]: 0.305
> phi_av/deg [deg]: 17.5
phi_av_fun : END — >

is_D_clay [t/f]: F
gamma_sub_av [kN/m^3]: 7.15
phi_rad_av [rad]: 0.305
phi_rad_av/deg [deg]: 17.5
N_gamma [-]: 2.10
N_q [-]: 8.40
d_gamma [-]: 1.00
d_q [-]: 1.09
p0 [kPa]: 33.3
gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8
[kN]: 0.211E+05
p0*d_q*N_q*pi*B_eq*B_eq/4 [kN]: 0.563E+05
Qv_GSS = gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8 + p0*d_q*N_q*pi*B_eq*B_eq/4
> Qv_GSS [kN]: 77398.30
Qv_GSS_fun: END — >

phi_lay_deg1 [deg]: 17.5
phi_lay_deg2 [deg]: 17.5
> Q_ub [kN]: 77398.30
> Qv_fmode_pt :GSS
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 4.80
< B_pt [m]: 15.3
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 4.80
< B_pt [m]: 15.3
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 0.000000
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 4.80
< D_pt [m]: 6.30
< B_pt [m]: 16.1

Qv_SQC_fun: < — BEGIN
< D [m]: 6.30
< B_eq [m]: 16.1

ZTOP_sq_fun: < — BEGIN
< D [m]: 6.30
ZTOP_sq_fun [m bsf]: 6.30
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 6.30
T_sq [m]: 6.70
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 6.70
b_sq [-]: 0.330
B_eq [m]: 16.1
T_sq/b_sq [m]: 20.3
* B_eq > T_sq/b_sq [t/f]: F
ztop_sq [m bsf]: 6.30
B_eq [m]: 16.1
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.393
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 1000000.
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 6.30
< B_eq [m]: 16.1
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 6.30
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 48.0
D [m]: 6.30
z_top_first_CLAY_layer_aboveD [m bsf]: 6.30
sum = su0 – rho_av*D [kPa]: 48.0
sum_modified = max(sum,0) [kPa]: 48.0
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 16.1
lambda = D/B_eq [-]: 0.393
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 6.87
su0 * Nc0 [kPa]: 330.
p0 [kPa]: 43.8
su0*Nc0 + p0 [kPa]: 373.
pi * B_eq * B_eq /4 [m^2]: 202.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 75561.31
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 17.5
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 75561.31
> Qv_fmode_pt :GSC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 4.80
< B_pt [m]: 16.1
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 4.80
< B_pt [m]: 16.1
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 2124.563
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 6.30
< D_pt [m]: 13.0
< B_pt [m]: 16.1

Qv_GSS_fun: < — BEGIN
< D [m]: 13.0
< B_eq [m]: 16.1

phi_av_fun: < — BEGIN
< z1 [m]: 13.0
phi_av [rad]: 0.464
> phi_av/deg [deg]: 26.6
phi_av_fun : END — >

is_D_clay [t/f]: F
gamma_sub_av [kN/m^3]: 8.19
phi_rad_av [rad]: 0.464
phi_rad_av/deg [deg]: 26.6
N_gamma [-]: 8.15
N_q [-]: 22.9
d_gamma [-]: 1.00
d_q [-]: 1.21
p0 [kPa]: 92.4
gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8
[kN]: 0.108E+06
p0*d_q*N_q*pi*B_eq*B_eq/4 [kN]: 0.516E+06
Qv_GSS = gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8 + p0*d_q*N_q*pi*B_eq*B_eq/4
> Qv_GSS [kN]: 624740.1
Qv_GSS_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 25.0
> Q_ub [kN]: 624740.1
> Qv_fmode_pt :GSS
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 6.30
< B_pt [m]: 16.1
Rs_pt [kN]: 177110.6
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 6.30
< B_pt [m]: 16.1
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 9829.926
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 13.0
< D_pt [m]: 14.4
< B_pt [m]: 16.8

Qv_SQC_fun: < — BEGIN
< D [m]: 14.4
< B_eq [m]: 16.8

ZTOP_sq_fun: < — BEGIN
< D [m]: 14.4
ZTOP_sq_fun [m bsf]: 14.4
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 14.4
T_sq [m]: 2.00
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 2.00
b_sq [-]: 0.330
B_eq [m]: 16.8
T_sq/b_sq [m]: 6.06
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 14.4
B_eq [m]: 16.8
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.860
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 160970.9
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 14.4
< B_eq [m]: 16.8
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 14.4
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 71.0
D [m]: 14.4
z_top_first_CLAY_layer_aboveD [m bsf]: 14.4
sum = su0 – rho_av*D [kPa]: 71.0
sum_modified = max(sum,0) [kPa]: 71.0
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 16.8
lambda = D/B_eq [-]: 0.860
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.52
su0 * Nc0 [kPa]: 534.
p0 [kPa]: 106.
su0*Nc0 + p0 [kPa]: 640.
pi * B_eq * B_eq /4 [m^2]: 220.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 140951.0
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 25.0
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 160970.9
> Qv_fmode_pt :SQC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 13.0
< B_pt [m]: 16.8
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 13.0
< B_pt [m]: 16.8
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 3007.270
dW_pt_fun: END — >

Qv_SQC_fun: < — BEGIN
< D [m]: 14.4
< B_eq [m]: 16.8

ZTOP_sq_fun: < — BEGIN
< D [m]: 14.4
ZTOP_sq_fun [m bsf]: 14.4
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 14.4
T_sq [m]: 2.00
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 2.00
b_sq [-]: 0.330
B_eq [m]: 16.8
T_sq/b_sq [m]: 6.06
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 14.4
B_eq [m]: 16.8
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.860
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 160970.9
Qv_SQC_fun: END — >

Qv_SQC_fun: < — BEGIN
< D [m]: 14.4
< B_eq [m]: 15.3

ZTOP_sq_fun: < — BEGIN
< D [m]: 14.4
ZTOP_sq_fun [m bsf]: 14.4
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 14.4
T_sq [m]: 2.00
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 2.00
b_sq [-]: 0.330
B_eq [m]: 15.3
T_sq/b_sq [m]: 6.06
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 14.4
B_eq [m]: 15.3
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.941
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 132460.8
Qv_SQC_fun: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 13.0
< B_pt [m]: 15.3
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 13.0
< B_pt [m]: 15.3
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 2509.144
dW_pt_fun: END — >

D, D_pt [m]: 13.0 14.4
D_pt layer # [-]: 4
Qv_Fmode_PT [-]:PTS>SQC
decreasing dW for punch-through layer#[-]: 3
using B_eq (was B_pt), B_eq , B_pt [m]: 15.3 16.8
(B_eq/B_pt)^2 [-]: 0.834
old dW, new dW [kN]: 0.301E+04 0.251E+04
old Qv_SQC, new Qv_SQC (ie Q_ub) [kN]: 0.161E+06 0.132E+06

Q_ub_sub: < — BEGIN
< D [m]: 14.4
< D_pt [m]: 16.4
< B_pt [m]: 16.8

Qv_GSS_fun: < — BEGIN
< D [m]: 16.4
< B_eq [m]: 16.8

phi_av_fun: < — BEGIN
< z1 [m]: 16.4
phi_av [rad]: 0.451
> phi_av/deg [deg]: 25.8
phi_av_fun : END — >

is_D_clay [t/f]: F
gamma_sub_av [kN/m^3]: 8.18
phi_rad_av [rad]: 0.451
phi_rad_av/deg [deg]: 25.8
N_gamma [-]: 7.08
N_q [-]: 20.6
d_gamma [-]: 1.00
d_q [-]: 1.24
p0 [kPa]: 120.
gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8
[kN]: 0.107E+06
p0*d_q*N_q*pi*B_eq*B_eq/4 [kN]: 0.675E+06
Qv_GSS = gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8 + p0*d_q*N_q*pi*B_eq*B_eq/4
> Qv_GSS [kN]: 782035.7
Qv_GSS_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 30.0
> Q_ub [kN]: 782035.7
> Qv_fmode_pt :GSS
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 14.4
< B_pt [m]: 16.8
Rs_pt [kN]: 56988.92
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 14.4
< B_pt [m]: 16.8
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 3085.376
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 16.4
< D_pt [m]: 17.3
< B_pt [m]: 17.2

Qv_SQC_fun: < — BEGIN
< D [m]: 17.3
< B_eq [m]: 17.2

ZTOP_sq_fun: < — BEGIN
< D [m]: 17.3
ZTOP_sq_fun [m bsf]: 17.3
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 17.3
T_sq [m]: 0.600
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 0.600
b_sq [-]: 0.330
B_eq [m]: 17.2
T_sq/b_sq [m]: 1.82
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 17.3
B_eq [m]: 17.2
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 1.01
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 313609.1
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 17.3
< B_eq [m]: 17.2
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 17.3
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 78.0
D [m]: 17.3
z_top_first_CLAY_layer_aboveD [m bsf]: 17.3
sum = su0 – rho_av*D [kPa]: 78.0
sum_modified = max(sum,0) [kPa]: 78.0
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 17.2
lambda = D/B_eq [-]: 1.01
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.70
su0 * Nc0 [kPa]: 600.
p0 [kPa]: 128.
su0*Nc0 + p0 [kPa]: 728.
pi * B_eq * B_eq /4 [m^2]: 232.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 169178.6
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 30.0
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 313609.1
> Qv_fmode_pt :SQC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 16.4
< B_pt [m]: 17.2
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 16.4
< B_pt [m]: 17.2
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 1777.290
dW_pt_fun: END — >

Qv_SQC_fun: < — BEGIN
< D [m]: 17.3
< B_eq [m]: 17.2

ZTOP_sq_fun: < — BEGIN
< D [m]: 17.3
ZTOP_sq_fun [m bsf]: 17.3
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 17.3
T_sq [m]: 0.600
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 0.600
b_sq [-]: 0.330
B_eq [m]: 17.2
T_sq/b_sq [m]: 1.82
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 17.3
B_eq [m]: 17.2
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 1.01
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 313609.1
Qv_SQC_fun: END — >

Qv_SQC_fun: < — BEGIN
< D [m]: 17.3
< B_eq [m]: 15.3

ZTOP_sq_fun: < — BEGIN
< D [m]: 17.3
ZTOP_sq_fun [m bsf]: 17.3
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 17.3
T_sq [m]: 0.600
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 0.600
b_sq [-]: 0.330
B_eq [m]: 15.3
T_sq/b_sq [m]: 1.82
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 17.3
B_eq [m]: 15.3
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 1.13
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 235313.7
Qv_SQC_fun: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 16.4
< B_pt [m]: 15.3
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 16.4
< B_pt [m]: 15.3
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 1406.320
dW_pt_fun: END — >

D, D_pt [m]: 16.4 17.3
D_pt layer # [-]: 6
Qv_Fmode_PT [-]:PTS>SQC
decreasing dW for punch-through layer#[-]: 5
using B_eq (was B_pt), B_eq , B_pt [m]: 15.3 17.2
(B_eq/B_pt)^2 [-]: 0.791
old dW, new dW [kN]: 0.178E+04 0.141E+04
old Qv_SQC, new Qv_SQC (ie Q_ub) [kN]: 0.314E+06 0.235E+06

Q_ub_sub: < — BEGIN
< D [m]: 17.3
< D_pt [m]: 17.9
< B_pt [m]: 17.2

Qv_GSS_fun: < — BEGIN
< D [m]: 17.9
< B_eq [m]: 17.2

phi_av_fun: < — BEGIN
< z1 [m]: 17.9
phi_av [rad]: 0.305
> phi_av/deg [deg]: 17.5
phi_av_fun : END — >

is_D_clay [t/f]: F
gamma_sub_av [kN/m^3]: 9.00
phi_rad_av [rad]: 0.305
phi_rad_av/deg [deg]: 17.5
N_gamma [-]: 2.10
N_q [-]: 8.40
d_gamma [-]: 1.00
d_q [-]: 1.25
p0 [kPa]: 132.
gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8
[kN]: 0.378E+05
p0*d_q*N_q*pi*B_eq*B_eq/4 [kN]: 0.321E+06
Qv_GSS = gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8 + p0*d_q*N_q*pi*B_eq*B_eq/4
> Qv_GSS [kN]: 359111.6
Qv_GSS_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 17.5
> Q_ub [kN]: 359111.6
> Qv_fmode_pt :GSS
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 17.3
< B_pt [m]: 17.2
Rs_pt [kN]: 17726.09
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 17.3
< B_pt [m]: 17.2
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 976.0607
dW_pt_fun: END — >

D D_pt B_pt T_pt Q_ub Rs_pt dW_pt lay_D_pt sum_W_pt sum_Rs_pt Qv_D . Qv_fmode
[m] [m] [m] [m] [kN] [kN] [kN] [-] [kN] [kN] [kN]
4.80 4.80 15.3 0.00 77398.30 0.000000 0.000000 4 0.000000 0.000000 77398.30 2 GSS
4.80 6.30 16.1 1.50 75561.31 0.000000 2124.563 5 2124.563 0.000000 73436.75 * 1 PTS>GSC
6.30 13.0 16.1 6.70 624740.1 177110.6 9829.926 6 11954.49 177110.6 789896.3 6 PTS>PTC>GSS
13.0 14.4 15.3 1.40 132460.8 0.000000 2509.144 7 13372.50 177110.6 296198.9 3 PTS>PTC>PTS>SQC
14.4 16.4 16.8 2.00 782035.7 56988.92 3085.376 8 19112.63 234099.5 997022.6 7 PTS>PTC>PTS>PTC>GSS
16.4 17.3 15.3 0.900 235313.7 0.000000 1406.320 9 17353.13 234099.5 452060.1 4 PTS>PTC>PTS>PTC>PTS>SQC
17.3 17.9 17.2 0.600 359111.6 17726.09 976.0607 10 22906.73 251825.6 588030.5 5 PTS>PTC>PTS>PTC>PTS>PTC>GSS
> Qv_Dpt [kN]: 73436.75
Qv_Dpt_sub: END — >

ioutd_z_tip_verify: < — BEGIN
< z_tip_verify [m]: 7.90

Qv, GROSS resistances at foundation depth D ——:
————————————————–:

Qv_Dpt_sub: < — BEGIN
< D [m]: 4.80
< B_eq [m]: 15.3

Q_ub_sub: < — BEGIN
< D [m]: 4.80
< D_pt [m]: 4.80
< B_pt [m]: 15.3

Qv_GSS_fun: < — BEGIN
< D [m]: 4.80
< B_eq [m]: 15.3

phi_av_fun: < — BEGIN
< z1 [m]: 4.80
phi_av [rad]: 0.305
> phi_av/deg [deg]: 17.5
phi_av_fun : END — >

is_D_clay [t/f]: F
gamma_sub_av [kN/m^3]: 7.15
phi_rad_av [rad]: 0.305
phi_rad_av/deg [deg]: 17.5
N_gamma [-]: 2.10
N_q [-]: 8.40
d_gamma [-]: 1.00
d_q [-]: 1.09
p0 [kPa]: 33.3
gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8
[kN]: 0.211E+05
p0*d_q*N_q*pi*B_eq*B_eq/4 [kN]: 0.563E+05
Qv_GSS = gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8 + p0*d_q*N_q*pi*B_eq*B_eq/4
> Qv_GSS [kN]: 77398.30
Qv_GSS_fun: END — >

phi_lay_deg1 [deg]: 17.5
phi_lay_deg2 [deg]: 17.5
> Q_ub [kN]: 77398.30
> Qv_fmode_pt :GSS
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 4.80
< B_pt [m]: 15.3
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 4.80
< B_pt [m]: 15.3
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 0.000000
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 4.80
< D_pt [m]: 6.30
< B_pt [m]: 16.1

Qv_SQC_fun: < — BEGIN
< D [m]: 6.30
< B_eq [m]: 16.1

ZTOP_sq_fun: < — BEGIN
< D [m]: 6.30
ZTOP_sq_fun [m bsf]: 6.30
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 6.30
T_sq [m]: 6.70
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 6.70
b_sq [-]: 0.330
B_eq [m]: 16.1
T_sq/b_sq [m]: 20.3
* B_eq > T_sq/b_sq [t/f]: F
ztop_sq [m bsf]: 6.30
B_eq [m]: 16.1
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.393
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 1000000.
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 6.30
< B_eq [m]: 16.1
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 6.30
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 48.0
D [m]: 6.30
z_top_first_CLAY_layer_aboveD [m bsf]: 6.30
sum = su0 – rho_av*D [kPa]: 48.0
sum_modified = max(sum,0) [kPa]: 48.0
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 16.1
lambda = D/B_eq [-]: 0.393
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 6.87
su0 * Nc0 [kPa]: 330.
p0 [kPa]: 43.8
su0*Nc0 + p0 [kPa]: 373.
pi * B_eq * B_eq /4 [m^2]: 202.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 75561.31
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 17.5
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 75561.31
> Qv_fmode_pt :GSC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 4.80
< B_pt [m]: 16.1
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 4.80
< B_pt [m]: 16.1
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 2124.563
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 6.30
< D_pt [m]: 13.0
< B_pt [m]: 16.1

Qv_GSS_fun: < — BEGIN
< D [m]: 13.0
< B_eq [m]: 16.1

phi_av_fun: < — BEGIN
< z1 [m]: 13.0
phi_av [rad]: 0.464
> phi_av/deg [deg]: 26.6
phi_av_fun : END — >

is_D_clay [t/f]: F
gamma_sub_av [kN/m^3]: 8.19
phi_rad_av [rad]: 0.464
phi_rad_av/deg [deg]: 26.6
N_gamma [-]: 8.15
N_q [-]: 22.9
d_gamma [-]: 1.00
d_q [-]: 1.21
p0 [kPa]: 92.4
gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8
[kN]: 0.108E+06
p0*d_q*N_q*pi*B_eq*B_eq/4 [kN]: 0.516E+06
Qv_GSS = gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8 + p0*d_q*N_q*pi*B_eq*B_eq/4
> Qv_GSS [kN]: 624740.1
Qv_GSS_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 25.0
> Q_ub [kN]: 624740.1
> Qv_fmode_pt :GSS
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 6.30
< B_pt [m]: 16.1
Rs_pt [kN]: 177110.6
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 6.30
< B_pt [m]: 16.1
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 9829.926
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 13.0
< D_pt [m]: 14.4
< B_pt [m]: 16.8

Qv_SQC_fun: < — BEGIN
< D [m]: 14.4
< B_eq [m]: 16.8

ZTOP_sq_fun: < — BEGIN
< D [m]: 14.4
ZTOP_sq_fun [m bsf]: 14.4
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 14.4
T_sq [m]: 2.00
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 2.00
b_sq [-]: 0.330
B_eq [m]: 16.8
T_sq/b_sq [m]: 6.06
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 14.4
B_eq [m]: 16.8
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.860
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 160970.9
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 14.4
< B_eq [m]: 16.8
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 14.4
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 71.0
D [m]: 14.4
z_top_first_CLAY_layer_aboveD [m bsf]: 14.4
sum = su0 – rho_av*D [kPa]: 71.0
sum_modified = max(sum,0) [kPa]: 71.0
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 16.8
lambda = D/B_eq [-]: 0.860
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.52
su0 * Nc0 [kPa]: 534.
p0 [kPa]: 106.
su0*Nc0 + p0 [kPa]: 640.
pi * B_eq * B_eq /4 [m^2]: 220.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 140951.0
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 25.0
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 160970.9
> Qv_fmode_pt :SQC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 13.0
< B_pt [m]: 16.8
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 13.0
< B_pt [m]: 16.8
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 3007.270
dW_pt_fun: END — >

Qv_SQC_fun: < — BEGIN
< D [m]: 14.4
< B_eq [m]: 16.8

ZTOP_sq_fun: < — BEGIN
< D [m]: 14.4
ZTOP_sq_fun [m bsf]: 14.4
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 14.4
T_sq [m]: 2.00
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 2.00
b_sq [-]: 0.330
B_eq [m]: 16.8
T_sq/b_sq [m]: 6.06
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 14.4
B_eq [m]: 16.8
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.860
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 160970.9
Qv_SQC_fun: END — >

Qv_SQC_fun: < — BEGIN
< D [m]: 14.4
< B_eq [m]: 15.3

ZTOP_sq_fun: < — BEGIN
< D [m]: 14.4
ZTOP_sq_fun [m bsf]: 14.4
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 14.4
T_sq [m]: 2.00
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 2.00
b_sq [-]: 0.330
B_eq [m]: 15.3
T_sq/b_sq [m]: 6.06
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 14.4
B_eq [m]: 15.3
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.941
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 132460.8
Qv_SQC_fun: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 13.0
< B_pt [m]: 15.3
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 13.0
< B_pt [m]: 15.3
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 2509.144
dW_pt_fun: END — >

D, D_pt [m]: 13.0 14.4
D_pt layer # [-]: 4
Qv_Fmode_PT [-]:PTS>SQC
decreasing dW for punch-through layer#[-]: 3
using B_eq (was B_pt), B_eq , B_pt [m]: 15.3 16.8
(B_eq/B_pt)^2 [-]: 0.834
old dW, new dW [kN]: 0.301E+04 0.251E+04
old Qv_SQC, new Qv_SQC (ie Q_ub) [kN]: 0.161E+06 0.132E+06

Q_ub_sub: < — BEGIN
< D [m]: 14.4
< D_pt [m]: 16.4
< B_pt [m]: 16.8

Qv_GSS_fun: < — BEGIN
< D [m]: 16.4
< B_eq [m]: 16.8

phi_av_fun: < — BEGIN
< z1 [m]: 16.4
phi_av [rad]: 0.451
> phi_av/deg [deg]: 25.8
phi_av_fun : END — >

is_D_clay [t/f]: F
gamma_sub_av [kN/m^3]: 8.18
phi_rad_av [rad]: 0.451
phi_rad_av/deg [deg]: 25.8
N_gamma [-]: 7.08
N_q [-]: 20.6
d_gamma [-]: 1.00
d_q [-]: 1.24
p0 [kPa]: 120.
gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8
[kN]: 0.107E+06
p0*d_q*N_q*pi*B_eq*B_eq/4 [kN]: 0.675E+06
Qv_GSS = gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8 + p0*d_q*N_q*pi*B_eq*B_eq/4
> Qv_GSS [kN]: 782035.7
Qv_GSS_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 30.0
> Q_ub [kN]: 782035.7
> Qv_fmode_pt :GSS
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 14.4
< B_pt [m]: 16.8
Rs_pt [kN]: 56988.92
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 14.4
< B_pt [m]: 16.8
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 3085.376
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 16.4
< D_pt [m]: 17.3
< B_pt [m]: 17.2

Qv_SQC_fun: < — BEGIN
< D [m]: 17.3
< B_eq [m]: 17.2

ZTOP_sq_fun: < — BEGIN
< D [m]: 17.3
ZTOP_sq_fun [m bsf]: 17.3
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 17.3
T_sq [m]: 0.600
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 0.600
b_sq [-]: 0.330
B_eq [m]: 17.2
T_sq/b_sq [m]: 1.82
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 17.3
B_eq [m]: 17.2
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 1.01
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 313609.1
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 17.3
< B_eq [m]: 17.2
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 17.3
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 78.0
D [m]: 17.3
z_top_first_CLAY_layer_aboveD [m bsf]: 17.3
sum = su0 – rho_av*D [kPa]: 78.0
sum_modified = max(sum,0) [kPa]: 78.0
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 17.2
lambda = D/B_eq [-]: 1.01
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.70
su0 * Nc0 [kPa]: 600.
p0 [kPa]: 128.
su0*Nc0 + p0 [kPa]: 728.
pi * B_eq * B_eq /4 [m^2]: 232.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 169178.6
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 30.0
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 313609.1
> Qv_fmode_pt :SQC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 16.4
< B_pt [m]: 17.2
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 16.4
< B_pt [m]: 17.2
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 1777.290
dW_pt_fun: END — >

Qv_SQC_fun: < — BEGIN
< D [m]: 17.3
< B_eq [m]: 17.2

ZTOP_sq_fun: < — BEGIN
< D [m]: 17.3
ZTOP_sq_fun [m bsf]: 17.3
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 17.3
T_sq [m]: 0.600
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 0.600
b_sq [-]: 0.330
B_eq [m]: 17.2
T_sq/b_sq [m]: 1.82
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 17.3
B_eq [m]: 17.2
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 1.01
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 313609.1
Qv_SQC_fun: END — >

Qv_SQC_fun: < — BEGIN
< D [m]: 17.3
< B_eq [m]: 15.3

ZTOP_sq_fun: < — BEGIN
< D [m]: 17.3
ZTOP_sq_fun [m bsf]: 17.3
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 17.3
T_sq [m]: 0.600
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 0.600
b_sq [-]: 0.330
B_eq [m]: 15.3
T_sq/b_sq [m]: 1.82
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 17.3
B_eq [m]: 15.3
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 1.13
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 235313.7
Qv_SQC_fun: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 16.4
< B_pt [m]: 15.3
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 16.4
< B_pt [m]: 15.3
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 1406.320
dW_pt_fun: END — >

D, D_pt [m]: 16.4 17.3
D_pt layer # [-]: 6
Qv_Fmode_PT [-]:PTS>SQC
decreasing dW for punch-through layer#[-]: 5
using B_eq (was B_pt), B_eq , B_pt [m]: 15.3 17.2
(B_eq/B_pt)^2 [-]: 0.791
old dW, new dW [kN]: 0.178E+04 0.141E+04
old Qv_SQC, new Qv_SQC (ie Q_ub) [kN]: 0.314E+06 0.235E+06

Q_ub_sub: < — BEGIN
< D [m]: 17.3
< D_pt [m]: 17.9
< B_pt [m]: 17.2

Qv_GSS_fun: < — BEGIN
< D [m]: 17.9
< B_eq [m]: 17.2

phi_av_fun: < — BEGIN
< z1 [m]: 17.9
phi_av [rad]: 0.305
> phi_av/deg [deg]: 17.5
phi_av_fun : END — >

is_D_clay [t/f]: F
gamma_sub_av [kN/m^3]: 9.00
phi_rad_av [rad]: 0.305
phi_rad_av/deg [deg]: 17.5
N_gamma [-]: 2.10
N_q [-]: 8.40
d_gamma [-]: 1.00
d_q [-]: 1.25
p0 [kPa]: 132.
gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8
[kN]: 0.378E+05
p0*d_q*N_q*pi*B_eq*B_eq/4 [kN]: 0.321E+06
Qv_GSS = gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8 + p0*d_q*N_q*pi*B_eq*B_eq/4
> Qv_GSS [kN]: 359111.6
Qv_GSS_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 17.5
> Q_ub [kN]: 359111.6
> Qv_fmode_pt :GSS
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 17.3
< B_pt [m]: 17.2
Rs_pt [kN]: 17726.09
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 17.3
< B_pt [m]: 17.2
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 976.0607
dW_pt_fun: END — >

< z_tip_verify [m]: 7.90
D [m]: 4.80
B_eq [m]: 15.3
lay_num (D) [-]: 4
is_D_clay [t/f]: F

Qv_GSS, ISO 19905-1 Equation A.9.3-8,
GSS general shear resistance in SAND [kN]: 77398.30
Qv_GSC, ISO 19905-1 Equation A.9.3-7,
GSC general shear resistance in CLAY [kN]: 1000000.
Qv_SQC, ISO 19905-1 Equation A.9.3-10,
SQC squeezing resistance in CLAY [kN]: 1000000.
Qv_D_clay, GSC or SQC in CLAY [kN]: 1000000.
Qub_D, GROSS resistance (GSS, GSC/SQC) [kN]: 73436.75
Qv_fmode, failure mode : 'PTS'

Qv_GSS_fun: < — BEGIN
< D [m]: 4.80
< B_eq [m]: 15.3

phi_av_fun: < — BEGIN
< z1 [m]: 4.80
phi_av [rad]: 0.305
> phi_av/deg [deg]: 17.5
phi_av_fun : END — >

is_D_clay [t/f]: F
gamma_sub_av [kN/m^3]: 7.15
phi_rad_av [rad]: 0.305
phi_rad_av/deg [deg]: 17.5
N_gamma [-]: 2.10
N_q [-]: 8.40
d_gamma [-]: 1.00
d_q [-]: 1.09
p0 [kPa]: 33.3
gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8
[kN]: 0.211E+05
p0*d_q*N_q*pi*B_eq*B_eq/4 [kN]: 0.563E+05
Qv_GSS = gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8 + p0*d_q*N_q*pi*B_eq*B_eq/4
> Qv_GSS [kN]: 77398.30
Qv_GSS_fun: END — >

sp_beta_fun: < — BEGIN
sp_beta [rad]: 2.54
> sp_beta/deg [deg]: 146.
sp_beta_fun: END — >

Qv, GROSS resistances at PUNCHED THROUGH depth D = D_PT:
——————————————————–
GSC’

V_L, spudcan GROSS ultimate bearing resistance at foundation depth D ——:

D_B_eq_sub: < — BEGIN
D [m]: 4.80
> B_eq [m]: 15.3
D_B_eq_sub: END — >

H_cav_fun: < — BEGIN
< D [m]: 4.80
< B_eq [m]: 15.3
< I_BF [-]: 1

< D_top_first_SAND_layer [m]: 0.500
H_cav, ISO 19905-1 Eq. 9.3-3 [m]: 4.30
H_cav_fun: END — >

B_S_fun: < — BEGIN
< z_tip [m]: 7.90

D_B_eq_sub: < — BEGIN
D [m]: 4.80
> B_eq [m]: 15.3
D_B_eq_sub: END — >

z1 [m]: 7.90
z2 [m]: 4.80
gamma_sub_av [kN/m^3]: 7.13
V_D [kN]: 145.
> B_S = gamma_sub_av*V_D [kN]: 1034.508
B_S_fun: END — >

W_BF_fun: < — BEGIN
< z_tip [m]: 7.90
< I_BF [-]: 1

D_B_eq_sub: < — BEGIN
D [m]: 4.80
> B_eq [m]: 15.3
D_B_eq_sub: END — >

gamma_sub_av [kN/m^3]: 6.94
A [m^2]: 184.
H_cav [m]: 4.30
V_spud [m^3]: 227.
V_D [m^3]: 145.
W_BF = gamma_sub_av [ A (D – H_cav) – (V_spud – V_D ) ]
> W_BF [kN]: 68.10682
W_BF_fun: END — >

—————————————–
H_CAV, ISO 19905-1 Eq.A.9.3-3,
cavity depth [m bsf]: 4.30
V_SPUD, ISO 19905-1 Fig.A.9.3-6, row1,
spudcan total volume BENEATH BACKFILL [m^3]: 227.
V_D, ISO 19905-1 Fig.A.9.3-6, row2,
spudcan total volume BELOW MAXIMUM BEARING AREA [m^3]: 145.
W_BF, ISO 19905-1 Eq.A.9.3-2,
backfill weight due to backflow,
W_BF = gamma [A (D – H_CAV) – (V_SPUD – V_D)] [kN]: 68.10682

QV_DPT, spudcan NETT resistance at depth D [kN]: 73436.75
B_S, soil buoyancy of spudcan BELOW MAXIMUM BEARING AREA [kN]: 1034.508
i.e. soil submerged weight displaced by spudcan below D [D is MAX AREA].
W_BF, backfill weight due to backflow [kN]: 68.10682
> V_L, spudcan GROSS ultimate bearing resistance
ie V_L = QV_DPT – W_BF + B_S [kN]: 74403.15

ioutd_z_tip_verify: END — >

soil_mat_adjust: < — BEGIN
< z_tip [m]: 7.90
< i_sqc [-]: 1
GSC
————————————————————————————————————-
output file: “JOB.O01”
load spread factor #= 1; load spread factor = 4.00 (#rows V_L results= 184)
————————————————————————————————————-
z_tip D B_eq H_cav V_spud V_D B_S W_BF Qv_Dpt V_L
[m] [m] [m] [m] [m^3] [m^3] [kN] [kN] [kN] [kN]
————————————————————————————————————-
0.00 0.00 0.100E-02 0.00 0.00 0.100E-02 0.240E-02 0.2400000E-02 0.1000000E-02 0.1000000E-02
0.100 0.00 0.246 0.00 0.158E-02 0.158E-02 0.380E-02 0.1000000E-02 0.2338996 0.2366989
0.200 0.00 0.492 0.00 0.127E-01 0.127E-01 0.304E-01 0.1000000E-02 0.9776733 1.007068
0.300 0.00 0.738 0.00 0.427E-01 0.427E-01 0.103 0.1000000E-02 2.294434 2.396015
0.400 0.00 0.984 0.00 0.101 0.101 0.243 0.1000000E-02 4.247293 4.489448
0.500 0.00 1.23 0.00 0.198 0.198 0.476 0.1000000E-02 6.899364 7.373952
0.600 0.00 1.48 0.00 0.342 0.342 1.12 0.1000000E-02 10.31376 11.43377
0.700 0.00 1.72 0.00 0.543 0.543 2.12 0.1000000E-02 14.98585 17.10274
0.800 0.00 1.97 0.00 0.811 0.811 3.54 0.1000000E-02 20.09105 23.63376
0.900 0.00 2.21 0.00 1.15 1.15 5.46 0.1000000E-02 26.08295 31.54570
1.00 0.00 2.46 0.00 1.58 1.58 7.96 0.1000000E-02 33.01009 40.96927
1.10 0.00 2.70 0.00 2.11 2.11 11.1 0.1000000E-02 41.02954 52.12766
1.20 0.00 2.95 0.00 2.74 2.74 14.9 0.1000000E-02 50.34324 65.27551
1.30 0.00 3.52 0.00 3.54 3.54 20.0 0.1000000E-02 74.96031 94.93951
1.40 0.00 4.18 0.00 4.71 4.71 27.2 0.1000000E-02 111.5955 138.8306
1.50 0.00 4.83 0.00 6.31 6.31 37.2 0.1000000E-02 157.5960 194.8368
1.60 0.00 5.49 0.00 8.40 8.40 50.5 0.1000000E-02 213.8760 264.3927
1.70 0.00 6.14 0.00 11.1 11.1 67.6 0.1000000E-02 281.3497 348.9006
1.80 0.00 6.79 0.00 14.3 14.3 88.8 0.1000000E-02 360.9312 449.7424
1.90 0.00 7.45 0.00 18.3 18.3 115. 0.1000000E-02 453.5346 568.5285
2.00 0.00 8.10 0.00 23.1 23.1 146. 0.1000000E-02 560.0740 706.4524
2.10 0.00 8.76 0.00 28.7 28.7 184. 0.1000000E-02 681.4636 865.0268
2.20 0.00 9.41 0.00 35.2 35.2 227. 0.1000000E-02 818.6175 1045.606
2.30 0.00 10.1 0.00 42.6 42.6 277. 0.1000000E-02 972.4499 1249.602
2.40 0.00 10.7 0.00 51.1 51.1 335. 0.1000000E-02 1143.875 1479.029
2.50 0.00 11.4 0.00 60.7 60.7 401. 0.1000000E-02 1333.807 1734.341
2.60 0.00 12.0 0.00 71.4 71.4 474. 0.1000000E-02 1543.159 2017.626
2.70 0.00 12.7 0.00 83.4 83.4 558. 0.1000000E-02 1772.847 2330.392
2.80 0.00 13.3 0.00 96.7 96.7 649. 0.1000000E-02 2023.783 2672.837
2.90 0.00 14.0 0.00 111. 111. 751. 0.1000000E-02 2296.883 3048.158
3.00 0.00 14.6 0.00 128. 128. 863. 0.1000000E-02 2593.060 3456.438
3.10 0.00 15.3 0.00 145. 145. 988. 0.1000000E-02 2913.229 3900.798
3.20 0.100 15.3 0.00 163. 145. 0.101E+04 0.9669725 3608.051 4618.461
3.30 0.200 15.3 0.00 180. 145. 0.104E+04 3.870591 4705.117 5737.422
3.40 0.300 15.3 0.00 197. 145. 0.106E+04 8.609188 6807.575 7858.948
3.50 0.400 15.3 0.00 212. 145. 0.109E+04 15.19531 12931.17 14001.75
3.60 0.500 15.3 0.00 227. 145. 0.111E+04 23.59727 27544.27 28630.69
3.70 0.600 15.3 0.100 227. 145. 0.111E+04 32.18821 28861.25 29936.13
3.80 0.700 15.3 0.200 227. 145. 0.110E+04 38.29583 30180.92 31246.50
3.90 0.800 15.3 0.300 227. 145. 0.110E+04 42.92688 31503.28 32561.28
4.00 0.900 15.3 0.400 227. 145. 0.110E+04 46.48406 32836.89 33888.26
4.10 1.00 15.3 0.500 227. 145. 0.109E+04 49.37008 34133.08 35178.62
4.20 1.10 15.3 0.600 227. 145. 0.109E+04 51.71916 35303.64 36343.63
4.30 1.20 15.3 0.700 227. 145. 0.109E+04 53.59843 36472.48 37507.65
4.40 1.30 15.3 0.800 227. 145. 0.109E+04 55.34346 37628.14 38658.49
4.50 1.40 15.3 0.900 227. 145. 0.108E+04 56.75292 38778.98 39804.98
4.60 1.50 15.3 1.00 227. 145. 0.108E+04 57.96102 39924.84 40946.43
4.70 1.60 15.3 1.10 227. 145. 0.108E+04 59.03488 41057.23 42074.80
4.80 1.70 15.3 1.20 227. 145. 0.107E+04 59.97452 42184.38 43197.95
4.90 1.80 15.3 1.30 227. 145. 0.107E+04 60.77992 43300.64 44310.45
5.00 1.90 15.3 1.40 227. 145. 0.107E+04 61.58532 44414.11 45419.92
5.10 2.00 15.3 1.50 227. 145. 0.106E+04 62.25648 45516.42 46518.62
5.20 2.10 15.3 1.60 227. 145. 0.106E+04 62.86053 46607.49 47606.01
5.30 2.20 15.3 1.70 227. 145. 0.106E+04 63.39747 47695.29 48690.32
5.40 2.30 15.3 1.80 227. 145. 0.106E+04 63.86728 48771.57 49762.95
5.50 2.40 15.3 1.90 227. 145. 0.105E+04 64.40422 49836.25 50824.14
5.60 2.50 15.3 2.00 227. 145. 0.105E+04 64.80692 50930.61 51915.03
5.70 2.60 15.3 2.10 227. 145. 0.105E+04 65.20962 52103.61 53084.67
5.80 2.70 15.3 2.20 227. 145. 0.104E+04 65.61232 53266.32 54243.79
5.90 2.80 15.3 2.30 227. 145. 0.104E+04 65.88079 54404.09 55378.35
6.00 2.90 15.3 2.40 227. 145. 0.104E+04 66.21637 55519.39 56490.23
6.10 3.00 15.3 2.50 227. 145. 0.103E+04 66.48484 56604.04 57571.67
6.20 3.10 15.3 2.60 227. 145. 0.103E+04 66.82042 57647.70 58611.80
6.30 3.20 15.3 2.70 227. 145. 0.103E+04 67.08889 58661.62 59622.53
6.40 3.30 15.3 2.80 227. 145. 0.103E+04 67.29024 59625.71 60584.48
6.50 3.40 15.3 2.90 227. 145. 0.102E+04 67.49159 60525.15 61482.00
6.60 3.50 15.3 3.00 227. 145. 0.102E+04 67.69294 61367.18 62321.77
6.70 3.60 15.3 3.10 227. 145. 0.102E+04 67.89013 103792.0 104744.5
6.80 3.70 15.3 3.20 227. 145. 0.102E+04 67.92529 101262.4 102216.0
6.90 3.80 15.3 3.30 227. 145. 0.102E+04 67.96875 98732.78 99687.46
7.00 3.90 15.3 3.40 227. 145. 0.102E+04 68.00391 96203.18 97158.96
7.10 4.00 15.3 3.50 227. 145. 0.103E+04 68.05569 93673.57 94630.65
7.20 4.10 15.3 3.60 227. 145. 0.103E+04 68.05696 91143.97 92102.18
7.30 4.20 15.3 3.70 227. 145. 0.103E+04 68.11705 88614.37 89573.74
7.40 4.30 15.3 3.80 227. 145. 0.103E+04 68.05952 86084.76 87045.33
7.50 4.40 15.3 3.90 227. 145. 0.103E+04 68.06911 83555.16 84516.97
7.60 4.50 15.3 4.00 227. 145. 0.103E+04 68.16243 81025.56 81988.41
7.70 4.60 15.3 4.10 227. 145. 0.103E+04 68.11321 78495.95 79459.99
7.80 4.70 15.3 4.20 227. 145. 0.103E+04 68.14773 75966.35 76931.48
7.90 4.80 15.3 4.30 227. 145. 0.103E+04 68.10682 73436.75 74403.15
8.00 4.90 15.3 4.40 227. 145. 0.104E+04 68.14965 73138.61 74106.10
8.10 5.00 15.3 4.50 227. 145. 0.104E+04 68.11705 72840.02 73808.68
8.20 5.10 15.3 4.60 227. 145. 0.104E+04 68.16819 72540.99 73510.73
8.30 5.20 15.3 4.70 227. 145. 0.104E+04 68.14390 72241.52 73212.54
8.40 5.30 15.3 4.80 227. 145. 0.104E+04 68.19503 71941.62 72913.72
8.50 5.40 15.3 4.90 227. 145. 0.104E+04 68.18736 71641.31 72614.64
8.60 5.50 15.3 5.00 227. 145. 0.104E+04 68.24681 71340.58 72314.99
8.70 5.60 15.3 5.10 227. 145. 0.104E+04 68.23914 71039.45 72015.21
8.80 5.70 15.3 5.20 227. 145. 0.105E+04 68.29858 70737.92 71714.76
8.90 5.80 15.3 5.30 227. 145. 0.105E+04 68.22380 70436.01 71414.05
9.00 5.90 15.3 5.40 227. 145. 0.105E+04 68.22444 70133.71 71112.89
9.10 6.00 15.3 5.50 227. 145. 0.105E+04 68.30050 69831.05 70811.29
9.20 6.10 15.3 5.60 227. 145. 0.105E+04 68.30114 69528.03 70509.40
9.30 6.20 15.3 5.70 227. 145. 0.105E+04 68.24297 69224.65 70207.21
9.40 6.30 15.3 5.80 227. 145. 0.105E+04 68.31233 66780.57 67764.29
9.50 6.40 15.3 5.90 227. 145. 0.105E+04 68.36794 66995.12 67978.78
9.60 6.50 15.3 6.00 227. 145. 0.105E+04 68.34493 67209.44 68193.13
9.70 6.60 15.3 6.10 227. 145. 0.105E+04 68.46765 67423.55 68407.11
9.80 6.70 15.3 6.20 227. 145. 0.105E+04 68.44976 67637.44 68621.02
9.90 6.80 15.3 6.30 227. 145. 0.105E+04 68.50217 67851.11 68834.64
10.0 6.90 15.3 6.40 227. 145. 0.105E+04 68.48427 68064.57 69048.12
10.1 7.00 15.3 6.50 227. 145. 0.105E+04 68.60381 68277.81 69261.24
10.2 7.10 15.3 6.60 227. 145. 0.105E+04 68.58271 68490.84 69474.29
10.3 7.20 15.3 6.70 227. 145. 0.105E+04 68.63193 68703.66 69687.06
10.4 7.30 15.3 6.80 227. 145. 0.105E+04 68.61915 68916.27 69899.68
10.5 7.40 15.3 6.90 227. 145. 0.105E+04 68.74891 69128.67 70111.95
10.6 7.50 15.3 7.00 227. 145. 0.105E+04 68.72462 69340.86 70324.17
10.7 7.60 15.3 7.10 227. 145. 0.105E+04 68.77895 69552.85 70536.11
10.8 7.70 15.3 7.20 227. 145. 0.105E+04 68.77447 69764.64 70747.89
10.9 7.80 15.3 7.30 227. 145. 0.105E+04 68.88953 69976.22 70959.36
11.0 7.90 15.3 7.40 227. 145. 0.105E+04 68.88186 70187.60 71170.75
11.1 8.00 15.3 7.50 227. 145. 0.105E+04 68.92980 70398.78 71381.88
11.2 8.10 15.3 7.60 227. 145. 0.105E+04 68.92213 70609.76 71592.87
11.3 8.20 15.3 7.70 227. 145. 0.105E+04 68.90295 70820.54 71803.67
11.4 8.30 15.3 7.80 227. 145. 0.105E+04 69.03783 71031.12 72014.12
11.5 8.40 15.3 7.90 227. 145. 0.105E+04 69.02696 71241.51 72224.52
11.6 8.50 15.3 8.00 227. 145. 0.105E+04 69.00459 71451.71 72434.74
11.7 8.60 15.3 8.10 227. 145. 0.105E+04 69.06595 71661.71 72644.68
11.8 8.70 15.3 8.20 227. 145. 0.105E+04 69.05828 71871.52 72854.50
11.9 8.80 15.3 8.30 227. 145. 0.105E+04 69.05253 72212.70 73195.68
12.0 8.90 15.3 8.40 227. 145. 0.105E+04 69.18101 72673.96 73656.81
12.1 9.00 15.3 8.50 227. 145. 0.105E+04 69.15864 73148.16 74131.03
12.2 9.10 15.3 8.60 227. 145. 0.105E+04 69.15288 73636.29 74619.17
12.3 9.20 15.3 8.70 227. 145. 0.105E+04 69.21425 74139.46 75122.28
12.4 9.30 15.3 8.80 227. 145. 0.105E+04 69.20849 74658.88 75641.70
12.5 9.40 15.3 8.90 227. 145. 0.105E+04 69.19635 75195.90 76178.74
12.6 9.50 15.3 9.00 227. 145. 0.105E+04 69.32483 75752.04 76734.75
12.7 9.60 15.3 9.10 227. 145. 0.105E+04 69.31077 76328.98 77311.71
12.8 9.70 15.3 9.20 227. 145. 0.105E+04 69.31013 76928.62 77911.34
12.9 9.80 15.3 9.30 227. 145. 0.105E+04 69.29798 77553.07 78535.81
13.0 9.90 15.3 9.40 227. 145. 0.105E+04 69.35935 78204.75 79187.66
13.1 10.0 15.3 9.50 227. 145. 0.106E+04 69.35040 78886.37 79880.62
13.2 10.1 15.3 9.60 227. 145. 0.108E+04 69.33825 79601.03 80607.58
13.3 10.2 15.3 9.70 227. 145. 0.109E+04 69.32930 80352.28 81370.17
13.4 10.3 15.3 9.80 227. 145. 0.110E+04 69.45139 81144.17 82173.75
13.5 10.4 15.3 9.90 227. 145. 0.111E+04 69.45906 81981.40 83022.31
13.6 10.5 15.3 10.0 227. 145. 0.112E+04 69.44692 82869.41 83922.61
13.7 10.6 15.3 10.1 227. 145. 0.113E+04 69.43797 83814.54 84879.09
13.8 10.7 15.3 10.2 227. 145. 0.115E+04 69.50125 84824.25 85900.54
13.9 10.8 15.3 10.3 227. 145. 0.116E+04 69.49230 85907.34 86994.98
14.0 10.9 15.3 10.4 227. 145. 0.117E+04 69.49678 87074.29 88174.21
14.1 11.0 15.3 10.5 227. 145. 0.118E+04 69.48144 88337.69 89448.96
14.2 11.1 15.3 10.6 227. 145. 0.119E+04 69.48080 89712.76 90835.84
14.3 11.2 15.3 10.7 227. 145. 0.120E+04 69.60289 91218.12 92352.41
14.4 11.3 15.3 10.8 227. 145. 0.122E+04 69.60416 92876.75 94023.06
14.5 11.4 15.3 10.9 227. 145. 0.121E+04 69.59521 94717.40 95862.59
14.6 11.5 15.3 11.0 227. 145. 0.121E+04 69.58818 96776.46 97920.97
14.7 11.6 15.3 11.1 227. 145. 0.121E+04 69.57284 99100.75 100244.1
14.8 11.7 15.3 11.2 227. 145. 0.121E+04 69.64443 101751.5 102893.1
14.9 11.8 15.3 11.3 227. 145. 0.121E+04 69.63740 104810.2 105950.7
15.0 11.9 15.3 11.4 227. 145. 0.121E+04 69.62206 108388.3 109527.1
15.1 12.0 15.3 11.5 227. 145. 0.121E+04 69.62973 112641.5 113779.1
15.2 12.1 15.3 11.6 227. 145. 0.121E+04 69.62270 117794.8 118931.7
15.3 12.2 15.3 11.7 227. 145. 0.121E+04 69.75821 124185.8 125321.5
15.4 12.3 15.3 11.8 227. 145. 0.120E+04 69.74287 132345.0 133479.0
15.5 12.4 15.3 11.9 227. 145. 0.120E+04 69.73584 143156.4 144289.3
15.6 12.5 15.3 12.0 227. 145. 0.120E+04 69.73712 141884.6 143016.7
15.7 12.6 15.3 12.1 227. 145. 0.120E+04 69.90651 143850.1 144982.1
15.8 12.7 15.3 12.2 227. 145. 0.120E+04 70.04202 146008.3 147140.1
15.9 12.8 15.3 12.3 227. 145. 0.120E+04 70.14685 148393.2 149525.0
16.0 12.9 15.3 12.4 227. 145. 0.120E+04 70.27405 151047.4 152179.0
16.1 13.0 15.3 12.5 227. 145. 0.120E+04 70.40956 154024.6 155156.1
16.2 13.1 15.3 12.6 227. 145. 0.120E+04 70.67100 157394.2 158525.4
16.3 13.2 15.3 12.7 227. 145. 0.120E+04 70.78989 159720.9 160852.0
16.4 13.3 15.3 12.8 227. 145. 0.120E+04 70.62242 158859.9 159990.2
16.5 13.4 15.3 12.9 227. 145. 0.121E+04 70.81674 163315.9 164452.8
16.6 13.5 15.3 13.0 227. 145. 0.122E+04 70.93563 168540.0 169684.1
16.7 13.6 15.3 13.1 227. 145. 0.122E+04 71.12739 174762.7 175913.4
16.8 13.7 15.3 13.2 227. 145. 0.123E+04 71.31340 182316.8 183474.5
16.9 13.8 15.3 13.3 227. 145. 0.124E+04 71.65378 183490.4 184654.5
17.0 13.9 15.3 13.4 227. 145. 0.124E+04 71.65378 189315.2 190484.9
17.1 14.0 15.3 13.5 227. 145. 0.125E+04 71.51220 201315.5 202492.2
17.2 14.1 15.3 13.6 227. 145. 0.126E+04 71.59657 217238.9 218422.6
17.3 14.2 15.3 13.7 227. 145. 0.126E+04 71.71546 221615.4 222807.2
17.4 14.3 15.3 13.8 227. 145. 0.126E+04 71.69117 237052.6 238243.3
17.5 14.4 15.3 13.9 227. 145. 0.126E+04 71.78194 246544.0 247734.6
17.6 14.5 15.3 14.0 227. 145. 0.126E+04 72.15492 270468.7 271658.9
17.7 14.6 15.3 14.1 227. 145. 0.126E+04 72.15332 268327.2 269517.5
17.8 14.7 15.3 14.2 227. 145. 0.126E+04 72.17377 296968.3 298158.6
17.9 14.8 15.3 14.3 227. 145. 0.126E+04 72.29043 302384.7 303572.4
18.0 14.9 15.3 14.4 227. 145. 0.127E+04 72.23386 323698.4 324895.3
18.1 15.0 15.3 14.5 227. 145. 0.128E+04 72.40900 339601.4 340807.2
18.2 15.1 15.3 14.6 227. 145. 0.129E+04 72.42626 337235.6 338450.6
18.3 15.2 15.3 14.7 227. 145. 0.128E+04 72.46909 335446.0 336657.1
————————————————————————————————————-
z_tip D B_eq H_cav V_spud V_D B_S W_BF Qv_Dpt V_L
[m] [m] [m] [m] [m^3] [m^3] [kN] [kN] [kN] [kN]
————————————————————————————————————-
——————————————————————-
output file: “JOB.O01”
load spread factor #= 1; load spread factor = 4.00 (#rows QV_FMODE results= 184)
——————————————————————-
z_tip D B_eq Qv_Dpt V_L Qv_fmode
[m] [m] [m] [kN] [kN]
——————————————————————-
0.00 0.00 0.100E-02 0.1000000E-02 0.1000000E-02 n/r
0.100 0.00 0.246 0.2338996 0.2366989 GSC
0.200 0.00 0.492 0.9776733 1.007068 GSC
0.300 0.00 0.738 2.294434 2.396015 GSC
0.400 0.00 0.984 4.247293 4.489448 GSC
0.500 0.00 1.23 6.899364 7.373952 GSC
0.600 0.00 1.48 10.31376 11.43377 GSC
0.700 0.00 1.72 14.98585 17.10274 SQC
0.800 0.00 1.97 20.09105 23.63376 SQC
0.900 0.00 2.21 26.08295 31.54570 SQC
1.00 0.00 2.46 33.01009 40.96927 SQC
1.10 0.00 2.70 41.02954 52.12766 GSC
1.20 0.00 2.95 50.34324 65.27551 GSC
1.30 0.00 3.52 74.96031 94.93951 SQC
1.40 0.00 4.18 111.5955 138.8306 SQC
1.50 0.00 4.83 157.5960 194.8368 SQC
1.60 0.00 5.49 213.8760 264.3927 SQC
1.70 0.00 6.14 281.3497 348.9006 SQC
1.80 0.00 6.79 360.9312 449.7424 SQC
1.90 0.00 7.45 453.5346 568.5285 SQC
2.00 0.00 8.10 560.0740 706.4524 SQC
2.10 0.00 8.76 681.4636 865.0268 SQC
2.20 0.00 9.41 818.6175 1045.606 SQC
2.30 0.00 10.1 972.4499 1249.602 SQC
2.40 0.00 10.7 1143.875 1479.029 SQC
2.50 0.00 11.4 1333.807 1734.341 SQC
2.60 0.00 12.0 1543.159 2017.626 SQC
2.70 0.00 12.7 1772.847 2330.392 SQC
2.80 0.00 13.3 2023.783 2672.837 SQC
2.90 0.00 14.0 2296.883 3048.158 SQC
3.00 0.00 14.6 2593.060 3456.438 SQC
3.10 0.00 15.3 2913.229 3900.798 SQC
3.20 0.100 15.3 3608.051 4618.461 SQC
3.30 0.200 15.3 4705.117 5737.422 SQC
3.40 0.300 15.3 6807.575 7858.948 SQC
3.50 0.400 15.3 12931.17 14001.75 SQC
3.60 0.500 15.3 27544.27 28630.69 GSS
3.70 0.600 15.3 28861.25 29936.13 GSS
3.80 0.700 15.3 30180.92 31246.50 GSS
3.90 0.800 15.3 31503.28 32561.28 GSS
4.00 0.900 15.3 32836.89 33888.26 GSS
4.10 1.00 15.3 34133.08 35178.62 GSS
4.20 1.10 15.3 35303.64 36343.63 GSS
4.30 1.20 15.3 36472.48 37507.65 GSS
4.40 1.30 15.3 37628.14 38658.49 GSS
4.50 1.40 15.3 38778.98 39804.98 GSS
4.60 1.50 15.3 39924.84 40946.43 GSS
4.70 1.60 15.3 41057.23 42074.80 GSS
4.80 1.70 15.3 42184.38 43197.95 GSS
4.90 1.80 15.3 43300.64 44310.45 GSS
5.00 1.90 15.3 44414.11 45419.92 GSS
5.10 2.00 15.3 45516.42 46518.62 GSS
5.20 2.10 15.3 46607.49 47606.01 GSS
5.30 2.20 15.3 47695.29 48690.32 GSS
5.40 2.30 15.3 48771.57 49762.95 GSS
5.50 2.40 15.3 49836.25 50824.14 GSS
5.60 2.50 15.3 50930.61 51915.03 GSS
5.70 2.60 15.3 52103.61 53084.67 GSS
5.80 2.70 15.3 53266.32 54243.79 GSS
5.90 2.80 15.3 54404.09 55378.35 GSS
6.00 2.90 15.3 55519.39 56490.23 GSS
6.10 3.00 15.3 56604.04 57571.67 GSS
6.20 3.10 15.3 57647.70 58611.80 GSS
6.30 3.20 15.3 58661.62 59622.53 GSS
6.40 3.30 15.3 59625.71 60584.48 GSS
6.50 3.40 15.3 60525.15 61482.00 GSS
6.60 3.50 15.3 61367.18 62321.77 GSS
6.70 3.60 15.3 103792.0 104744.5 PTC>PTS>GSC
6.80 3.70 15.3 101262.4 102216.0 PTC>PTS>GSC
6.90 3.80 15.3 98732.78 99687.46 PTC>PTS>GSC
7.00 3.90 15.3 96203.18 97158.96 PTC>PTS>GSC
7.10 4.00 15.3 93673.57 94630.65 PTC>PTS>GSC
7.20 4.10 15.3 91143.97 92102.18 PTC>PTS>GSC
7.30 4.20 15.3 88614.37 89573.74 PTC>PTS>GSC
7.40 4.30 15.3 86084.76 87045.33 PTC>PTS>GSC
7.50 4.40 15.3 83555.16 84516.97 PTC>PTS>GSC
7.60 4.50 15.3 81025.56 81988.41 PTC>PTS>GSC
7.70 4.60 15.3 78495.95 79459.99 PTC>PTS>GSC
7.80 4.70 15.3 75966.35 76931.48 PTC>PTS>GSC
7.90 4.80 15.3 73436.75 74403.15 PTS>GSC
8.00 4.90 15.3 73138.61 74106.10 PTS>GSC
8.10 5.00 15.3 72840.02 73808.68 PTS>GSC
8.20 5.10 15.3 72540.99 73510.73 PTS>GSC
8.30 5.20 15.3 72241.52 73212.54 PTS>GSC
8.40 5.30 15.3 71941.62 72913.72 PTS>GSC
8.50 5.40 15.3 71641.31 72614.64 PTS>GSC
8.60 5.50 15.3 71340.58 72314.99 PTS>GSC
8.70 5.60 15.3 71039.45 72015.21 PTS>GSC
8.80 5.70 15.3 70737.92 71714.76 PTS>GSC
8.90 5.80 15.3 70436.01 71414.05 PTS>GSC
9.00 5.90 15.3 70133.71 71112.89 PTS>GSC
9.10 6.00 15.3 69831.05 70811.29 PTS>GSC
9.20 6.10 15.3 69528.03 70509.40 PTS>GSC
9.30 6.20 15.3 69224.65 70207.21 PTS>GSC
9.40 6.30 15.3 66780.57 67764.29 GSC
9.50 6.40 15.3 66995.12 67978.78 GSC
9.60 6.50 15.3 67209.44 68193.13 GSC
9.70 6.60 15.3 67423.55 68407.11 GSC
9.80 6.70 15.3 67637.44 68621.02 GSC
9.90 6.80 15.3 67851.11 68834.64 GSC
10.0 6.90 15.3 68064.57 69048.12 GSC
10.1 7.00 15.3 68277.81 69261.24 GSC
10.2 7.10 15.3 68490.84 69474.29 GSC
10.3 7.20 15.3 68703.66 69687.06 GSC
10.4 7.30 15.3 68916.27 69899.68 GSC
10.5 7.40 15.3 69128.67 70111.95 GSC
10.6 7.50 15.3 69340.86 70324.17 GSC
10.7 7.60 15.3 69552.85 70536.11 GSC
10.8 7.70 15.3 69764.64 70747.89 GSC
10.9 7.80 15.3 69976.22 70959.36 GSC
11.0 7.90 15.3 70187.60 71170.75 GSC
11.1 8.00 15.3 70398.78 71381.88 GSC
11.2 8.10 15.3 70609.76 71592.87 GSC
11.3 8.20 15.3 70820.54 71803.67 GSC
11.4 8.30 15.3 71031.12 72014.12 GSC
11.5 8.40 15.3 71241.51 72224.52 GSC
11.6 8.50 15.3 71451.71 72434.74 GSC
11.7 8.60 15.3 71661.71 72644.68 GSC
11.8 8.70 15.3 71871.52 72854.50 GSC
11.9 8.80 15.3 72212.70 73195.68 SQC
12.0 8.90 15.3 72673.96 73656.81 SQC
12.1 9.00 15.3 73148.16 74131.03 SQC
12.2 9.10 15.3 73636.29 74619.17 SQC
12.3 9.20 15.3 74139.46 75122.28 SQC
12.4 9.30 15.3 74658.88 75641.70 SQC
12.5 9.40 15.3 75195.90 76178.74 SQC
12.6 9.50 15.3 75752.04 76734.75 SQC
12.7 9.60 15.3 76328.98 77311.71 SQC
12.8 9.70 15.3 76928.62 77911.34 SQC
12.9 9.80 15.3 77553.07 78535.81 SQC
13.0 9.90 15.3 78204.75 79187.66 SQC
13.1 10.0 15.3 78886.37 79880.62 SQC
13.2 10.1 15.3 79601.03 80607.58 SQC
13.3 10.2 15.3 80352.28 81370.17 SQC
13.4 10.3 15.3 81144.17 82173.75 SQC
13.5 10.4 15.3 81981.40 83022.31 SQC
13.6 10.5 15.3 82869.41 83922.61 SQC
13.7 10.6 15.3 83814.54 84879.09 SQC
13.8 10.7 15.3 84824.25 85900.54 SQC
13.9 10.8 15.3 85907.34 86994.98 SQC
14.0 10.9 15.3 87074.29 88174.21 SQC
14.1 11.0 15.3 88337.69 89448.96 SQC
14.2 11.1 15.3 89712.76 90835.84 SQC
14.3 11.2 15.3 91218.12 92352.41 SQC
14.4 11.3 15.3 92876.75 94023.06 SQC
14.5 11.4 15.3 94717.40 95862.59 SQC
14.6 11.5 15.3 96776.46 97920.97 SQC
14.7 11.6 15.3 99100.75 100244.1 SQC
14.8 11.7 15.3 101751.5 102893.1 SQC
14.9 11.8 15.3 104810.2 105950.7 SQC
15.0 11.9 15.3 108388.3 109527.1 SQC
15.1 12.0 15.3 112641.5 113779.1 SQC
15.2 12.1 15.3 117794.8 118931.7 SQC
15.3 12.2 15.3 124185.8 125321.5 SQC
15.4 12.3 15.3 132345.0 133479.0 SQC
15.5 12.4 15.3 143156.4 144289.3 SQC
15.6 12.5 15.3 141884.6 143016.7 PTC>PTS>SQC
15.7 12.6 15.3 143850.1 144982.1 PTC>PTS>SQC
15.8 12.7 15.3 146008.3 147140.1 PTC>PTS>SQC
15.9 12.8 15.3 148393.2 149525.0 PTC>PTS>SQC
16.0 12.9 15.3 151047.4 152179.0 PTC>PTS>SQC
16.1 13.0 15.3 154024.6 155156.1 PTC>PTS>SQC
16.2 13.1 15.3 157394.2 158525.4 PTC>PTS>SQC
16.3 13.2 15.3 159720.9 160852.0 SQC
16.4 13.3 15.3 158859.9 159990.2 PTC>PTS>SQC
16.5 13.4 15.3 163315.9 164452.8 PTC>PTS>SQC
16.6 13.5 15.3 168540.0 169684.1 PTC>PTS>SQC
16.7 13.6 15.3 174762.7 175913.4 PTC>PTS>SQC
16.8 13.7 15.3 182316.8 183474.5 PTC>PTS>SQC
16.9 13.8 15.3 183490.4 184654.5 SQC
17.0 13.9 15.3 189315.2 190484.9 PTC>PTS>SQC
17.1 14.0 15.3 201315.5 202492.2 PTC>PTS>SQC
17.2 14.1 15.3 217238.9 218422.6 PTC>PTS>SQC
17.3 14.2 15.3 221615.4 222807.2 SQC
17.4 14.3 15.3 237052.6 238243.3 PTC>PTS>SQC
17.5 14.4 15.3 246544.0 247734.6 PTC>PTS>PTC>PTS>SQC
17.6 14.5 15.3 270468.7 271658.9 PTC>PTS>SQC
17.7 14.6 15.3 268327.2 269517.5 PTC>PTS>PTC>PTS>SQC
17.8 14.7 15.3 296968.3 298158.6 SQC
17.9 14.8 15.3 302384.7 303572.4 PTC>PTS>PTC>PTS>SQC
18.0 14.9 15.3 323698.4 324895.3 PTC>PTS>SQC
18.1 15.0 15.3 339601.4 340807.2 PTC>PTS>PTC>PTS>PTC>GSS
18.2 15.1 15.3 337235.6 338450.6 PTS>PTC>PTS>PTC>GSS
18.3 15.2 15.3 335446.0 336657.1 PTS>PTC>PTS>PTC>GSS
——————————————————————-
z_tip D B_eq Qv_Dpt V_L Qv_fmode
[m] [m] [m] [kN] [kN]
——————————————————————-

out_sp_pen_sub: PTS>GSC
7.90 9.40 4.80 6.30 1.50 PTS>GSC
9.40 11.9 6.30 8.80 2.50 GSC
11.9 15.6 8.80 12.5 3.70 SQC
15.6 16.3 12.5 13.2 0.700 PTC>PTS>SQC
16.3 16.4 13.2 13.3 0.100 SQC
16.4 16.9 13.3 13.8 0.500 PTC>PTS>SQC
16.9 17.0 13.8 13.9 0.100 SQC
17.0 17.3 13.9 14.2 0.300 PTC>PTS>SQC
17.3 17.4 14.2 14.3 0.100 SQC
17.4 17.5 14.3 14.4 0.100 PTC>PTS>SQC
17.5 17.6 14.4 14.5 0.100 PTC>PTS>PTC>PTS>SQC
17.6 17.7 14.5 14.6 0.100 PTC>PTS>SQC
17.7 17.8 14.6 14.7 0.100 PTC>PTS>PTC>PTS>SQC
17.8 17.9 14.7 14.8 0.100 SQC
17.9 18.0 14.8 14.9 0.100 PTC>PTS>PTC>PTS>SQC
18.0 18.1 14.9 15.0 0.100 PTC>PTS>SQC
18.1 18.2 15.0 15.1 0.100 PTC>PTS>PTC>PTS>PTC>GSS
18.2 18.3 15.1 15.2 0.100 PTS>PTC>PTS>PTC>GSS
——————————————————————-
from to from to thickness
z_tip z_tip D D T Qv_fmode
[m] [m] [m] [m] [m] [-]
——————————————————————-

iso_19905_1: nlines_errors : 0
iso_19905_1: nlines_warnings: 5

WARNING. gmdata: soil layer # 3; BDEN=7.00 kN/m^3 is inconsistent with SU_TOP=90.00 kPa.
WARNING. gmdata: soil layer # 4; PHI < 20 degrees [ISO 19905-1 Table A.9.3-3].
WARNING. gmdata: soil layer # 7; BDEN=7.00 kN/m^3 is inconsistent with SU_TOP=71.00 kPa.
WARNING. gmdata: soil layer # 9; BDEN=7.00 kN/m^3 is inconsistent with SU_TOP=78.00 kPa.
WARNING. gmdata: soil layer # 10; PHI < 20 degrees [ISO 19905-1 Table A.9.3-3].

z_tip_penetration [m]: 6.61
out_sp_pen_sub: END — >

input file: “JOB.I01”
output file: “JOB.O01”
iso_19905_1: normal program end