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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 14:51:32 on 03-OCT-2025
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].

18.0

out_sp_pen_sub: GSC
14.6 16.2 13.6 15.2 1.60 GSC
16.2 19.1 15.2 18.1 2.90 SQC
19.1 19.9 18.1 18.9 0.800 PTC>PTS>SQC
19.9 20.0 18.9 19.0 0.100 PTC>PTS>PTC>GSC
20.0 24.5 19.0 23.5 4.50 PTS>PTC>GSC
24.5 24.8 23.5 23.8 0.300 PTC>GSC
24.8 25.3 23.8 24.3 0.500 GSC
——————————————————————-
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: 3

WARNING. gmdata: soil layer # 3; BDEN=10.50 kN/m^3 is inconsistent with SU_TOP=117.00 kPa.
WARNING. spfdat: maximum spudcan height SP_H_MAX=0.96 m is outside typical range [1 – 10].
WARNING. spfdat: full penetration spudcan tip angle SP_BETA_H_MAX=151 degrees is outside typical range [110 – 150].

z_tip_penetration [m]: 16.8
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 14:51:32 on 03-OCT-2025
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]
2.66 0.00
9.43 0.670
11.0 0.960
0.00 7.94
spudcan_mat_X_sub: END — >

D_B_eq_sub: < — BEGIN
D [m]: 2.04
> B_eq [m]: 11.0
D_B_eq_sub: END — >

sp_beta_fun: < — BEGIN
sp_beta [rad]: 2.64
> sp_beta/deg [deg]: 151.
sp_beta_fun: END — >

gamma_sub_av [kN/m^3]: 7.00
A [m^2]: 95.4
H_cav [m]: 2.04
V_spud [m^3]: 45.1
V_D [m^3]: 45.1
W_BF = gamma_sub_av [ A (D – H_cav) – (V_spud – V_D ) ]
> W_BF [kN]: 0.1000000E-02
W_BF_fun: END — >

Qv_Dpt_sub: < — BEGIN
< D [m]: 2.04
< B_eq [m]: 11.0

Q_ub_sub: < — BEGIN
< D [m]: 2.04
< D_pt [m]: 2.04
< B_pt [m]: 11.0

Qv_SQC_fun: < — BEGIN
< D [m]: 2.04
< B_eq [m]: 11.0

ZTOP_sq_fun: < — BEGIN
< D [m]: 2.04
ZTOP_sq_fun [m bsf]: 0.00
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 2.04
T_sq [m]: 6.96
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 6.96
b_sq [-]: 0.330
B_eq [m]: 11.0
T_sq/b_sq [m]: 21.1
* B_eq > T_sq/b_sq [t/f]: F
ztop_sq [m bsf]: 0.00
B_eq [m]: 11.0
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.00
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 1000000.
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 2.04
< B_eq [m]: 11.0
< sp_beta [rad]: 2.64
< sp_beta/deg [deg]: 151.

rho_av_fun: < — BEGIN
< D [m]: 2.04
rho_av [kPa/m]: 2.44
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 2.44
su0 [kPa]: 11.0
D [m]: 2.04
z_top_first_CLAY_layer_aboveD [m bsf]: 0.00
sum = su0 – rho_av*D [kPa]: 6.00
sum_modified = max(sum,0) [kPa]: 6.00
kappa_m = rho_av*B_eq/sum_modified [-]: 4.49
kappa_m_modified = max(kappa_m,5) [-]: 4.49
B_eq [m]: 11.0
lambda = D/B_eq [-]: 0.185
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 2.45
sp_beta/deg [deg]: 151.
sp_alpha [-]: 0.600
Nc0 [-]: 7.79
su0 * Nc0 [kPa]: 85.5
p0 [kPa]: 14.3
su0*Nc0 + p0 [kPa]: 99.8
pi * B_eq * B_eq /4 [m^2]: 95.4
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 9520.076
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 9520.076
> Qv_fmode_pt :GSC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 2.04
< B_pt [m]: 11.0
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 2.04
< B_pt [m]: 11.0
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 0.000000
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 2.04
< D_pt [m]: 9.00
< B_pt [m]: 11.0

Qv_SQC_fun: < — BEGIN
< D [m]: 9.00
< B_eq [m]: 11.0

ZTOP_sq_fun: < — BEGIN
< D [m]: 9.00
ZTOP_sq_fun [m bsf]: 9.00
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 9.00
T_sq [m]: 4.60
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 4.60
b_sq [-]: 0.330
B_eq [m]: 11.0
T_sq/b_sq [m]: 13.9
* B_eq > T_sq/b_sq [t/f]: F
ztop_sq [m bsf]: 9.00
B_eq [m]: 11.0
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.817
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 1000000.
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 9.00
< B_eq [m]: 11.0
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 9.00
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 28.0
D [m]: 9.00
z_top_first_CLAY_layer_aboveD [m bsf]: 9.00
sum = su0 – rho_av*D [kPa]: 28.0
sum_modified = max(sum,0) [kPa]: 28.0
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 11.0
lambda = D/B_eq [-]: 0.817
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.46
su0 * Nc0 [kPa]: 209.
p0 [kPa]: 63.0
su0*Nc0 + p0 [kPa]: 272.
pi * B_eq * B_eq /4 [m^2]: 95.4
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 25933.14
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 25933.14
> Qv_fmode_pt :GSC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 2.04
< B_pt [m]: 11.0
Rs_pt [kN]: 3522.801
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 2.04
< B_pt [m]: 11.0
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 4646.868
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 9.00
< D_pt [m]: 13.6
< B_pt [m]: 11.0

Qv_SQC_fun: < — BEGIN
< D [m]: 13.6
< B_eq [m]: 11.0

ZTOP_sq_fun: < — BEGIN
< D [m]: 13.6
ZTOP_sq_fun [m bsf]: 9.00
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 13.6
T_sq [m]: 4.60
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 4.60
b_sq [-]: 0.330
B_eq [m]: 11.0
T_sq/b_sq [m]: 13.9
* B_eq > T_sq/b_sq [t/f]: F
ztop_sq [m bsf]: 9.00
B_eq [m]: 11.0
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.817
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 1000000.
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 13.6
< B_eq [m]: 11.0
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 13.6
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 117.
D [m]: 13.6
z_top_first_CLAY_layer_aboveD [m bsf]: 9.00
sum = su0 – rho_av*D [kPa]: 117.
sum_modified = max(sum,0) [kPa]: 117.
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 11.0
lambda = D/B_eq [-]: 1.23
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.97
su0 * Nc0 [kPa]: 932.
p0 [kPa]: 95.2
su0*Nc0 + p0 [kPa]: 0.103E+04
pi * B_eq * B_eq /4 [m^2]: 95.4
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 97980.61
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 97980.61
> Qv_fmode_pt :GSC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 9.00
< B_pt [m]: 11.0
Rs_pt [kN]: 3351.247
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 9.00
< B_pt [m]: 11.0
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 3072.206
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 13.6
< D_pt [m]: 18.2
< B_pt [m]: 11.0

Qv_GSS_fun: < — BEGIN
< D [m]: 18.2
< B_eq [m]: 11.0

phi_av_fun: < — BEGIN
< z1 [m]: 18.2
phi_av [rad]: 0.576
> phi_av/deg [deg]: 33.0
phi_av_fun : END — >

is_D_clay [t/f]: F
gamma_sub_av [kN/m^3]: 10.0
phi_rad_av [rad]: 0.576
phi_rad_av/deg [deg]: 33.0
N_gamma [-]: 27.9
N_q [-]: 58.7
d_gamma [-]: 1.00
d_q [-]: 1.28
p0 [kPa]: 144.
gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8
[kN]: 0.147E+06
p0*d_q*N_q*pi*B_eq*B_eq/4 [kN]: 0.103E+07
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]: 1172119.
Qv_GSS_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 33.0
> Q_ub [kN]: 1172119.
> Qv_fmode_pt :GSS
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 13.6
< B_pt [m]: 11.0
Rs_pt [kN]: 91725.96
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 13.6
< B_pt [m]: 11.0
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 4606.523
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 18.2
< D_pt [m]: 22.7
< B_pt [m]: 14.0

Qv_SQC_fun: < — BEGIN
< D [m]: 22.7
< B_eq [m]: 14.0

ZTOP_sq_fun: < — BEGIN
< D [m]: 22.7
ZTOP_sq_fun [m bsf]: 22.7
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 22.7
T_sq [m]: 1.10
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 1.10
b_sq [-]: 0.330
B_eq [m]: 14.0
T_sq/b_sq [m]: 3.33
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 22.7
B_eq [m]: 14.0
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 1.62
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 628206.0
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 22.7
< B_eq [m]: 14.0
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 22.7
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 348.
D [m]: 22.7
z_top_first_CLAY_layer_aboveD [m bsf]: 22.7
sum = su0 – rho_av*D [kPa]: 348.
sum_modified = max(sum,0) [kPa]: 348.
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 14.0
lambda = D/B_eq [-]: 1.62
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 8.38
su0 * Nc0 [kPa]: 0.292E+04
p0 [kPa]: 188.
su0*Nc0 + p0 [kPa]: 0.311E+04
pi * B_eq * B_eq /4 [m^2]: 154.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 479494.7
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 33.0
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 628206.0
> Qv_fmode_pt :SQC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 18.2
< B_pt [m]: 14.0
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 18.2
< B_pt [m]: 14.0
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 6947.923
dW_pt_fun: END — >

Qv_SQC_fun: < — BEGIN
< D [m]: 22.7
< B_eq [m]: 14.0

ZTOP_sq_fun: < — BEGIN
< D [m]: 22.7
ZTOP_sq_fun [m bsf]: 22.7
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 22.7
T_sq [m]: 1.10
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 1.10
b_sq [-]: 0.330
B_eq [m]: 14.0
T_sq/b_sq [m]: 3.33
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 22.7
B_eq [m]: 14.0
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 1.62
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 628206.0
Qv_SQC_fun: END — >

Qv_SQC_fun: < — BEGIN
< D [m]: 22.7
< B_eq [m]: 11.0

ZTOP_sq_fun: < — BEGIN
< D [m]: 22.7
ZTOP_sq_fun [m bsf]: 22.7
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 22.7
T_sq [m]: 1.10
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 1.10
b_sq [-]: 0.330
B_eq [m]: 11.0
T_sq/b_sq [m]: 3.33
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 22.7
B_eq [m]: 11.0
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 2.06
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 375803.4
Qv_SQC_fun: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 18.2
< B_pt [m]: 11.0
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 18.2
< B_pt [m]: 11.0
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 4292.617
dW_pt_fun: END — >

D, D_pt [m]: 18.2 22.7
D_pt layer # [-]: 5
Qv_Fmode_PT [-]:PTS>SQC
decreasing dW for punch-through layer#[-]: 4
using B_eq (was B_pt), B_eq , B_pt [m]: 11.0 14.0
(B_eq/B_pt)^2 [-]: 0.618
old dW, new dW [kN]: 0.695E+04 0.429E+04
old Qv_SQC, new Qv_SQC (ie Q_ub) [kN]: 0.628E+06 0.376E+06

Q_ub_sub: < — BEGIN
< D [m]: 22.7
< D_pt [m]: 23.8
< B_pt [m]: 14.0

Qv_SQC_fun: < — BEGIN
< D [m]: 23.8
< B_eq [m]: 14.0

ZTOP_sq_fun: < — BEGIN
< D [m]: 23.8
ZTOP_sq_fun [m bsf]: 22.7
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 23.8
T_sq [m]: 0.100E-02
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 0.100E-02
b_sq [-]: 0.330
B_eq [m]: 14.0
T_sq/b_sq [m]: 0.303E-02
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 22.7
B_eq [m]: 14.0
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 1.62
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 0.3412447E+09
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 23.8
< B_eq [m]: 14.0
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 23.8
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 477.
D [m]: 23.8
z_top_first_CLAY_layer_aboveD [m bsf]: 22.7
sum = su0 – rho_av*D [kPa]: 477.
sum_modified = max(sum,0) [kPa]: 477.
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 14.0
lambda = D/B_eq [-]: 1.70
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 8.46
su0 * Nc0 [kPa]: 0.404E+04
p0 [kPa]: 202.
su0*Nc0 + p0 [kPa]: 0.424E+04
pi * B_eq * B_eq /4 [m^2]: 154.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 654396.9
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 654396.9
> Qv_fmode_pt :GSC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 22.7
< B_pt [m]: 14.0
Rs_pt [kN]: 12648.41
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 22.7
< B_pt [m]: 14.0
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 2037.792
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]
2.04 2.04 11.0 0.00 9520.076 0.000000 0.000000 1 0.000000 0.000000 9520.076 * 1 GSC
2.04 9.00 11.0 6.96 25933.14 3522.801 4646.868 2 4646.868 3522.801 24809.07 2 PTC>GSC
9.00 13.6 11.0 4.60 97980.61 3351.247 3072.206 3 7719.074 6874.047 97135.58 3 PTC>PTC>GSC
13.6 18.2 11.0 4.60 1172119. 91725.96 4606.523 4 12325.60 98600.01 1258394. 6 PTC>PTC>PTC>GSS
18.2 22.7 11.0 4.50 375803.4 0.000000 4292.617 5 16618.21 98600.01 457785.2 4 PTC>PTC>PTC>PTS>SQC
22.7 23.8 14.0 1.10 654396.9 12648.41 2037.792 6 28935.62 111248.4 736709.7 5 PTC>PTC>PTC>PTS>PTC>GSC
> Qv_Dpt [kN]: 9520.076
Qv_Dpt_sub: END — >

ioutd_z_tip_verify: < — BEGIN
< z_tip_verify [m]: 3.00

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

Qv_Dpt_sub: < — BEGIN
< D [m]: 2.04
< B_eq [m]: 11.0

Q_ub_sub: < — BEGIN
< D [m]: 2.04
< D_pt [m]: 2.04
< B_pt [m]: 11.0

Qv_SQC_fun: < — BEGIN
< D [m]: 2.04
< B_eq [m]: 11.0

ZTOP_sq_fun: < — BEGIN
< D [m]: 2.04
ZTOP_sq_fun [m bsf]: 0.00
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 2.04
T_sq [m]: 6.96
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 6.96
b_sq [-]: 0.330
B_eq [m]: 11.0
T_sq/b_sq [m]: 21.1
* B_eq > T_sq/b_sq [t/f]: F
ztop_sq [m bsf]: 0.00
B_eq [m]: 11.0
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.00
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 1000000.
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 2.04
< B_eq [m]: 11.0
< sp_beta [rad]: 2.64
< sp_beta/deg [deg]: 151.

rho_av_fun: < — BEGIN
< D [m]: 2.04
rho_av [kPa/m]: 2.44
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 2.44
su0 [kPa]: 11.0
D [m]: 2.04
z_top_first_CLAY_layer_aboveD [m bsf]: 0.00
sum = su0 – rho_av*D [kPa]: 6.00
sum_modified = max(sum,0) [kPa]: 6.00
kappa_m = rho_av*B_eq/sum_modified [-]: 4.49
kappa_m_modified = max(kappa_m,5) [-]: 4.49
B_eq [m]: 11.0
lambda = D/B_eq [-]: 0.185
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 2.45
sp_beta/deg [deg]: 151.
sp_alpha [-]: 0.600
Nc0 [-]: 7.79
su0 * Nc0 [kPa]: 85.5
p0 [kPa]: 14.3
su0*Nc0 + p0 [kPa]: 99.8
pi * B_eq * B_eq /4 [m^2]: 95.4
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 9520.076
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 9520.076
> Qv_fmode_pt :GSC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 2.04
< B_pt [m]: 11.0
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 2.04
< B_pt [m]: 11.0
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 0.000000
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 2.04
< D_pt [m]: 9.00
< B_pt [m]: 11.0

Qv_SQC_fun: < — BEGIN
< D [m]: 9.00
< B_eq [m]: 11.0

ZTOP_sq_fun: < — BEGIN
< D [m]: 9.00
ZTOP_sq_fun [m bsf]: 9.00
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 9.00
T_sq [m]: 4.60
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 4.60
b_sq [-]: 0.330
B_eq [m]: 11.0
T_sq/b_sq [m]: 13.9
* B_eq > T_sq/b_sq [t/f]: F
ztop_sq [m bsf]: 9.00
B_eq [m]: 11.0
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.817
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 1000000.
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 9.00
< B_eq [m]: 11.0
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 9.00
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 28.0
D [m]: 9.00
z_top_first_CLAY_layer_aboveD [m bsf]: 9.00
sum = su0 – rho_av*D [kPa]: 28.0
sum_modified = max(sum,0) [kPa]: 28.0
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 11.0
lambda = D/B_eq [-]: 0.817
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.46
su0 * Nc0 [kPa]: 209.
p0 [kPa]: 63.0
su0*Nc0 + p0 [kPa]: 272.
pi * B_eq * B_eq /4 [m^2]: 95.4
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 25933.14
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 25933.14
> Qv_fmode_pt :GSC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 2.04
< B_pt [m]: 11.0
Rs_pt [kN]: 3522.801
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 2.04
< B_pt [m]: 11.0
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 4646.868
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 9.00
< D_pt [m]: 13.6
< B_pt [m]: 11.0

Qv_SQC_fun: < — BEGIN
< D [m]: 13.6
< B_eq [m]: 11.0

ZTOP_sq_fun: < — BEGIN
< D [m]: 13.6
ZTOP_sq_fun [m bsf]: 9.00
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 13.6
T_sq [m]: 4.60
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 4.60
b_sq [-]: 0.330
B_eq [m]: 11.0
T_sq/b_sq [m]: 13.9
* B_eq > T_sq/b_sq [t/f]: F
ztop_sq [m bsf]: 9.00
B_eq [m]: 11.0
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.817
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 1000000.
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 13.6
< B_eq [m]: 11.0
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 13.6
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 117.
D [m]: 13.6
z_top_first_CLAY_layer_aboveD [m bsf]: 9.00
sum = su0 – rho_av*D [kPa]: 117.
sum_modified = max(sum,0) [kPa]: 117.
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 11.0
lambda = D/B_eq [-]: 1.23
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.97
su0 * Nc0 [kPa]: 932.
p0 [kPa]: 95.2
su0*Nc0 + p0 [kPa]: 0.103E+04
pi * B_eq * B_eq /4 [m^2]: 95.4
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 97980.61
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 97980.61
> Qv_fmode_pt :GSC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 9.00
< B_pt [m]: 11.0
Rs_pt [kN]: 3351.247
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 9.00
< B_pt [m]: 11.0
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 3072.206
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 13.6
< D_pt [m]: 18.2
< B_pt [m]: 11.0

Qv_GSS_fun: < — BEGIN
< D [m]: 18.2
< B_eq [m]: 11.0

phi_av_fun: < — BEGIN
< z1 [m]: 18.2
phi_av [rad]: 0.576
> phi_av/deg [deg]: 33.0
phi_av_fun : END — >

is_D_clay [t/f]: F
gamma_sub_av [kN/m^3]: 10.0
phi_rad_av [rad]: 0.576
phi_rad_av/deg [deg]: 33.0
N_gamma [-]: 27.9
N_q [-]: 58.7
d_gamma [-]: 1.00
d_q [-]: 1.28
p0 [kPa]: 144.
gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8
[kN]: 0.147E+06
p0*d_q*N_q*pi*B_eq*B_eq/4 [kN]: 0.103E+07
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]: 1172119.
Qv_GSS_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 33.0
> Q_ub [kN]: 1172119.
> Qv_fmode_pt :GSS
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 13.6
< B_pt [m]: 11.0
Rs_pt [kN]: 91725.96
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 13.6
< B_pt [m]: 11.0
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 4606.523
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 18.2
< D_pt [m]: 22.7
< B_pt [m]: 14.0

Qv_SQC_fun: < — BEGIN
< D [m]: 22.7
< B_eq [m]: 14.0

ZTOP_sq_fun: < — BEGIN
< D [m]: 22.7
ZTOP_sq_fun [m bsf]: 22.7
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 22.7
T_sq [m]: 1.10
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 1.10
b_sq [-]: 0.330
B_eq [m]: 14.0
T_sq/b_sq [m]: 3.33
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 22.7
B_eq [m]: 14.0
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 1.62
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 628206.0
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 22.7
< B_eq [m]: 14.0
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 22.7
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 348.
D [m]: 22.7
z_top_first_CLAY_layer_aboveD [m bsf]: 22.7
sum = su0 – rho_av*D [kPa]: 348.
sum_modified = max(sum,0) [kPa]: 348.
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 14.0
lambda = D/B_eq [-]: 1.62
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 8.38
su0 * Nc0 [kPa]: 0.292E+04
p0 [kPa]: 188.
su0*Nc0 + p0 [kPa]: 0.311E+04
pi * B_eq * B_eq /4 [m^2]: 154.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 479494.7
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 33.0
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 628206.0
> Qv_fmode_pt :SQC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 18.2
< B_pt [m]: 14.0
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 18.2
< B_pt [m]: 14.0
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 6947.923
dW_pt_fun: END — >

Qv_SQC_fun: < — BEGIN
< D [m]: 22.7
< B_eq [m]: 14.0

ZTOP_sq_fun: < — BEGIN
< D [m]: 22.7
ZTOP_sq_fun [m bsf]: 22.7
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 22.7
T_sq [m]: 1.10
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 1.10
b_sq [-]: 0.330
B_eq [m]: 14.0
T_sq/b_sq [m]: 3.33
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 22.7
B_eq [m]: 14.0
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 1.62
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 628206.0
Qv_SQC_fun: END — >

Qv_SQC_fun: < — BEGIN
< D [m]: 22.7
< B_eq [m]: 11.0

ZTOP_sq_fun: < — BEGIN
< D [m]: 22.7
ZTOP_sq_fun [m bsf]: 22.7
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 22.7
T_sq [m]: 1.10
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 1.10
b_sq [-]: 0.330
B_eq [m]: 11.0
T_sq/b_sq [m]: 3.33
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 22.7
B_eq [m]: 11.0
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 2.06
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 375803.4
Qv_SQC_fun: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 18.2
< B_pt [m]: 11.0
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 18.2
< B_pt [m]: 11.0
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 4292.617
dW_pt_fun: END — >

D, D_pt [m]: 18.2 22.7
D_pt layer # [-]: 5
Qv_Fmode_PT [-]:PTS>SQC
decreasing dW for punch-through layer#[-]: 4
using B_eq (was B_pt), B_eq , B_pt [m]: 11.0 14.0
(B_eq/B_pt)^2 [-]: 0.618
old dW, new dW [kN]: 0.695E+04 0.429E+04
old Qv_SQC, new Qv_SQC (ie Q_ub) [kN]: 0.628E+06 0.376E+06

Q_ub_sub: < — BEGIN
< D [m]: 22.7
< D_pt [m]: 23.8
< B_pt [m]: 14.0

Qv_SQC_fun: < — BEGIN
< D [m]: 23.8
< B_eq [m]: 14.0

ZTOP_sq_fun: < — BEGIN
< D [m]: 23.8
ZTOP_sq_fun [m bsf]: 22.7
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 23.8
T_sq [m]: 0.100E-02
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 0.100E-02
b_sq [-]: 0.330
B_eq [m]: 14.0
T_sq/b_sq [m]: 0.303E-02
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 22.7
B_eq [m]: 14.0
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 1.62
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 0.3412447E+09
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 23.8
< B_eq [m]: 14.0
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 23.8
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 477.
D [m]: 23.8
z_top_first_CLAY_layer_aboveD [m bsf]: 22.7
sum = su0 – rho_av*D [kPa]: 477.
sum_modified = max(sum,0) [kPa]: 477.
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 14.0
lambda = D/B_eq [-]: 1.70
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 8.46
su0 * Nc0 [kPa]: 0.404E+04
p0 [kPa]: 202.
su0*Nc0 + p0 [kPa]: 0.424E+04
pi * B_eq * B_eq /4 [m^2]: 154.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 654396.9
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 654396.9
> Qv_fmode_pt :GSC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 22.7
< B_pt [m]: 14.0
Rs_pt [kN]: 12648.41
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 22.7
< B_pt [m]: 14.0
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 2037.792
dW_pt_fun: END — >

< z_tip_verify [m]: 3.00
D [m]: 2.04
B_eq [m]: 11.0
lay_num (D) [-]: 1
is_D_clay [t/f]: T

Qv_GSS, ISO 19905-1 Equation A.9.3-8,
GSS general shear resistance in SAND [kN]: 1000000.
Qv_GSC, ISO 19905-1 Equation A.9.3-7,
GSC general shear resistance in CLAY [kN]: 9520.076 *
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]: 9520.076
Qub_D, GROSS resistance (GSS, GSC/SQC) [kN]: 9520.076
Qv_fmode, failure mode : 'GSC'

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 2.04
< B_eq [m]: 11.0
< sp_beta [rad]: 2.64
< sp_beta/deg [deg]: 151.

rho_av_fun: < — BEGIN
< D [m]: 2.04
rho_av [kPa/m]: 2.44
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 2.44
su0 [kPa]: 11.0
D [m]: 2.04
z_top_first_CLAY_layer_aboveD [m bsf]: 0.00
sum = su0 – rho_av*D [kPa]: 6.00
sum_modified = max(sum,0) [kPa]: 6.00
kappa_m = rho_av*B_eq/sum_modified [-]: 4.49
kappa_m_modified = max(kappa_m,5) [-]: 4.49
B_eq [m]: 11.0
lambda = D/B_eq [-]: 0.185
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 2.45
sp_beta/deg [deg]: 151.
sp_alpha [-]: 0.600
Nc0 [-]: 7.79
su0 * Nc0 [kPa]: 85.5
p0 [kPa]: 14.3
su0*Nc0 + p0 [kPa]: 99.8
pi * B_eq * B_eq /4 [m^2]: 95.4
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 9520.076
Qv_GSC_fun: END — >

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

D_B_eq_sub: < — BEGIN
D [m]: 2.04
> B_eq [m]: 11.0
D_B_eq_sub: END — >

H_cav_fun: < — BEGIN
< D [m]: 2.04
< B_eq [m]: 11.0
< I_BF [-]: 1

< D_top_first_SAND_layer [m]: 18.2
H_cav, ISO 19905-1 Eq. 9.3-3 [m]: 2.04
H_cav_fun: END — >

B_S_fun: < — BEGIN
< z_tip [m]: 3.00

D_B_eq_sub: < — BEGIN
D [m]: 2.04
> B_eq [m]: 11.0
D_B_eq_sub: END — >

z1 [m]: 3.00
z2 [m]: 2.04
gamma_sub_av [kN/m^3]: 7.00
V_D [kN]: 45.1
> B_S = gamma_sub_av*V_D [kN]: 315.6992
B_S_fun: END — >

W_BF_fun: < — BEGIN
< z_tip [m]: 3.00
< I_BF [-]: 1

D_B_eq_sub: < — BEGIN
D [m]: 2.04
> B_eq [m]: 11.0
D_B_eq_sub: END — >

gamma_sub_av [kN/m^3]: 7.00
A [m^2]: 95.4
H_cav [m]: 2.04
V_spud [m^3]: 45.1
V_D [m^3]: 45.1
W_BF = gamma_sub_av [ A (D – H_cav) – (V_spud – V_D ) ]
> W_BF [kN]: 0.1000000E-02
W_BF_fun: END — >

—————————————–
H_CAV, ISO 19905-1 Eq.A.9.3-3,
cavity depth [m bsf]: 2.04
V_SPUD, ISO 19905-1 Fig.A.9.3-6, row1,
spudcan total volume BENEATH BACKFILL [m^3]: 45.1
V_D, ISO 19905-1 Fig.A.9.3-6, row2,
spudcan total volume BELOW MAXIMUM BEARING AREA [m^3]: 45.1
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]: 0.1000000E-02

QV_DPT, spudcan NETT resistance at depth D [kN]: 9520.076
B_S, soil buoyancy of spudcan BELOW MAXIMUM BEARING AREA [kN]: 315.6992
i.e. soil submerged weight displaced by spudcan below D [D is MAX AREA].
W_BF, backfill weight due to backflow [kN]: 0.1000000E-02
> V_L, spudcan GROSS ultimate bearing resistance
ie V_L = QV_DPT – W_BF + B_S [kN]: 9835.774

ioutd_z_tip_verify: END — >

soil_mat_adjust: < — BEGIN
< z_tip [m]: 3.00
< i_sqc [-]: 1
GSC
14.6 13.6 11.0 95133.58 91367.25 GSC
14.7 13.7 11.0 95342.79 91492.79 GSC
14.8 13.8 11.0 95551.73 91623.22 GSC
14.9 13.9 11.0 95760.40 91747.27 GSC
15.0 14.0 11.0 95968.81 91870.52 GSC
15.1 14.1 11.0 96176.94 91995.96 GSC
15.2 14.2 11.0 96384.81 92117.69 GSC
15.3 14.3 11.0 96592.42 92244.74 GSC
15.4 14.4 11.0 96799.77 92368.09 GSC
15.5 14.5 11.0 97006.85 92487.59 GSC
15.6 14.6 11.0 97213.68 92612.70 GSC
15.7 14.7 11.0 97420.25 92733.96 GSC
15.8 14.8 11.0 97626.56 92857.81 GSC
15.9 14.9 11.0 97832.62 92977.74 GSC
16.0 15.0 11.0 98038.43 93093.62 GSC
16.1 15.1 11.0 98243.98 93215.54 GSC
16.2 15.2 11.0 98748.69 93632.82 SQC
16.3 15.3 11.0 99449.74 94249.49 SQC
16.4 15.4 11.0 100185.5 94897.01 SQC
16.5 15.5 11.0 100959.9 95589.91 SQC
16.6 15.6 11.0 101777.6 96322.11 SQC
16.7 15.7 11.0 102643.6 97098.75 SQC
16.8 15.8 11.0 103564.3 97933.28 SQC
16.9 15.9 11.0 104546.9 98825.56 SQC
17.0 16.0 11.0 105599.9 99795.45 SQC
17.1 16.1 11.0 106733.6 100842.0 SQC
17.2 16.2 11.0 107960.3 101977.3 SQC
17.3 16.3 11.0 109295.2 103228.1 SQC
17.4 16.4 11.0 110756.5 104601.2 SQC
17.5 16.5 11.0 112367.2 106119.3 SQC
17.6 16.6 11.0 114156.0 107823.2 SQC
17.7 16.7 11.0 116159.5 109737.4 SQC
17.8 16.8 11.0 118424.9 111917.4 SQC
17.9 16.9 11.0 121014.9 114421.5 SQC
18.0 17.0 11.0 124013.1 117325.3 SQC
18.1 17.1 11.0 127535.2 120761.0 SQC
18.2 17.2 11.0 131744.9 124879.7 SQC
18.3 17.3 11.0 136882.0 129927.6 SQC
18.4 17.4 11.0 143312.7 136268.8 SQC
18.5 17.5 11.0 151624.9 144482.2 SQC
18.6 17.6 11.0 162826.5 155593.8 SQC
18.7 17.7 11.0 178802.1 171479.0 SQC
18.8 17.8 11.0 203529.9 196116.1 SQC
18.9 17.9 11.0 247108.5 239603.7 SQC
19.0 18.0 11.0 344883.3 337282.7 SQC
19.1 18.1 11.0 372647.1 364955.1 PTC>PTS>SQC
19.2 18.2 11.0 384099.0 376222.5 PTC>PTS>SQC
19.3 18.3 11.0 397990.0 389919.7 PTC>PTS>SQC
19.4 18.4 11.0 415234.7 406965.6 PTC>PTS>SQC
19.5 18.5 11.0 437270.5 428799.7 PTC>PTS>SQC
19.6 18.6 11.0 466492.8 457837.0 PTC>PTS>SQC
19.7 18.7 11.0 507213.8 498351.8 PTC>PTS>SQC
19.8 18.8 11.0 568057.2 558986.3 PTC>PTS>SQC
19.9 18.9 11.0 651441.9 642179.4 PTC>PTS>PTC>GSC
20.0 19.0 11.0 648179.6 639470.0 PTS>PTC>GSC
20.1 19.1 11.0 642785.2 634062.3 PTS>PTC>GSC
20.2 19.2 11.0 637410.4 628674.9 PTS>PTC>GSC
20.3 19.3 11.0 632055.1 623307.8 PTS>PTC>GSC
20.4 19.4 11.0 626719.4 617958.7 PTS>PTC>GSC
20.5 19.5 11.0 621403.2 612644.8 PTS>PTC>GSC
20.6 19.6 11.0 616106.7 607334.9 PTS>PTC>GSC
20.7 19.7 11.0 610829.7 602046.2 PTS>PTC>GSC
20.8 19.8 11.0 605572.5 596775.6 PTS>PTC>GSC
20.9 19.9 11.0 600334.9 591525.4 PTS>PTC>GSC
21.0 20.0 11.0 595117.0 586294.2 PTS>PTC>GSC
21.1 20.1 11.0 589918.9 581087.9 PTS>PTC>GSC
21.2 20.2 11.0 584740.5 575897.7 PTS>PTC>GSC
21.3 20.3 11.0 579582.0 570725.9 PTS>PTC>GSC
21.4 20.4 11.0 574443.2 565574.5 PTS>PTC>GSC
21.5 20.5 11.0 569324.3 560449.7 PTS>PTC>GSC
21.6 20.6 11.0 564225.3 555347.7 PTS>PTC>GSC
21.7 20.7 11.0 559146.2 550261.9 PTS>PTC>GSC
21.8 20.8 11.0 554087.0 545184.2 PTS>PTC>GSC
21.9 20.9 11.0 549047.7 540136.9 PTS>PTC>GSC
22.0 21.0 11.0 544028.5 535104.3 PTS>PTC>GSC
22.1 21.1 11.0 539029.2 530091.7 PTS>PTC>GSC
22.2 21.2 11.0 534050.0 525109.6 PTS>PTC>GSC
22.3 21.3 11.0 529090.9 520137.9 PTS>PTC>GSC
22.4 21.4 11.0 524151.9 515185.5 PTS>PTC>GSC
22.5 21.5 11.0 519233.0 510258.5 PTS>PTC>GSC
22.6 21.6 11.0 514334.2 505361.2 PTS>PTC>GSC
22.7 21.7 11.0 509455.6 500479.6 PTS>PTC>GSC
22.8 21.8 11.0 504597.2 495607.9 PTS>PTC>GSC
22.9 21.9 11.0 499759.1 490761.7 PTS>PTC>GSC
23.0 22.0 11.0 494941.2 485930.5 PTS>PTC>GSC
23.1 22.1 11.0 490143.7 481129.9 PTS>PTC>GSC
23.2 22.2 11.0 485366.4 476339.4 PTS>PTC>GSC
23.3 22.3 11.0 480609.5 471574.3 PTS>PTC>GSC
23.4 22.4 11.0 475873.0 466824.5 PTS>PTC>GSC
23.5 22.5 11.0 471156.9 462105.4 PTS>PTC>GSC
23.6 22.6 11.0 466461.2 457405.9 PTS>PTC>GSC
23.7 22.7 11.0 461786.0 452731.8 PTS>PTC>GSC
23.8 22.8 11.0 457131.3 448080.6 PTS>PTC>GSC
23.9 22.9 11.0 452497.1 443452.2 PTS>PTC>GSC
24.0 23.0 11.0 447883.4 438834.5 PTS>PTC>GSC
24.1 23.1 11.0 443290.4 434242.7 PTS>PTC>GSC
24.2 23.2 11.0 438718.0 429676.8 PTS>PTC>GSC
24.3 23.3 11.0 434166.2 425121.0 PTS>PTC>GSC
24.4 23.4 11.0 429635.0 420589.7 PTS>PTC>GSC
24.5 23.5 11.0 426610.6 417566.4 PTC>GSC
24.6 23.6 11.0 425821.2 416749.0 PTC>GSC
24.7 23.7 11.0 425031.9 415942.6 PTC>GSC
24.8 23.8 11.0 410553.9 401452.0 GSC
24.9 23.9 11.0 411026.7 401871.6 GSC
25.0 24.0 11.0 411498.8 402343.7 GSC
25.1 24.1 11.0 411970.3 402815.2 GSC
25.2 24.2 11.0 412441.2 403286.1 GSC
25.3 24.3 11.0 412911.5 403732.7 GSC
——————————————————————-
z_tip D B_eq Qv_Dpt V_L Qv_fmode
[m] [m] [m] [kN] [kN]
——————————————————————-

out_sp_pen_sub: GSC
14.6 16.2 13.6 15.2 1.60 GSC
16.2 19.1 15.2 18.1 2.90 SQC
19.1 19.9 18.1 18.9 0.800 PTC>PTS>SQC
19.9 20.0 18.9 19.0 0.100 PTC>PTS>PTC>GSC
20.0 24.5 19.0 23.5 4.50 PTS>PTC>GSC
24.5 24.8 23.5 23.8 0.300 PTC>GSC
24.8 25.3 23.8 24.3 0.500 GSC
——————————————————————-
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: 3

WARNING. gmdata: soil layer # 3; BDEN=10.50 kN/m^3 is inconsistent with SU_TOP=117.00 kPa.
WARNING. spfdat: maximum spudcan height SP_H_MAX=0.96 m is outside typical range [1 – 10].
WARNING. spfdat: full penetration spudcan tip angle SP_BETA_H_MAX=151 degrees is outside typical range [110 – 150].

z_tip_penetration [m]: 16.8
out_sp_pen_sub: END — >

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