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1. Report: Project Identification Data
Report Name:Al Shaheen
Project
Client:
2. Ground Model Data
3. Spudcan Foundation Geometry Data
4. Spudcan Interaction Data: Analysis / Methods
5. Spudcan Restistance Data
6. Output File Control Data
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 13:21:18 on 09-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].

EXAMPLE 1: QV_FMODE = “GSS”

out_sp_pen_sub: PTS>SQC
5.00 6.00 1.90 2.90 1.00 PTS>PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
6.00 6.80 2.90 3.70 0.800 PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
6.80 7.00 3.70 3.90 0.200 PTC>PTC>PTC>PTC>PTC>PTS>GSC
7.00 7.30 3.90 4.20 0.300 PTC>PTC>PTC>PTC>PTS>GSC
7.30 7.80 4.20 4.70 0.500 PTC>PTC>PTC>PTS>GSC
7.80 8.60 4.70 5.50 0.800 PTC>PTC>PTS>GSC
8.60 9.30 5.50 6.20 0.700 PTC>PTS>GSC
9.30 10.3 6.20 7.20 1.00 PTS>GSC
10.3 11.9 7.20 8.80 1.60 GSC
11.9 15.6 8.80 12.5 3.70 SQC
15.6 15.8 12.5 12.7 0.200 PTC>PTC>PTS>SQC
15.8 15.9 12.7 12.8 0.100 SQC
15.9 16.3 12.8 13.2 0.400 PTC>PTC>PTS>SQC
16.3 16.4 13.2 13.3 0.100 SQC
16.4 16.8 13.3 13.7 0.400 PTC>PTC>PTS>SQC
16.8 16.9 13.7 13.8 0.100 SQC
16.9 17.2 13.8 14.1 0.300 PTC>PTC>PTS>SQC
17.2 17.3 14.1 14.2 0.100 SQC
17.3 17.5 14.2 14.4 0.200 PTC>PTC>PTS>SQC
17.5 17.8 14.4 14.7 0.300 PTC>PTC>PTS>PTC>PTC>PTC>PTS>GSC
17.8 18.4 14.7 15.3 0.600 PTC>PTS>PTC>PTC>PTC>PTS>GSC
18.4 19.3 15.3 16.2 0.900 PTS>PTC>PTC>PTC>PTS>GSC
19.3 19.8 16.2 16.7 0.500 PTC>PTC>PTC>PTS>GSC
19.8 20.0 16.7 16.9 0.200 PTC>PTC>PTS>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: 16

WARNING. gmdata: soil layer # 2;
minxyz: dimension ZTOP_LAY= 0.6500000 [m] is not a multiple of 0.100 [m]
WARNING. gmdata: soil layer # 2; BDEN=10.85 kN/m^3 is inconsistent with PHI=27.50 degrees.
WARNING. gmdata: soil layer # 2; BDEN=10.85 kN/m^3 is inconsistent with PHI=27.50 degrees.
WARNING. gmdata: soil layer # 3;
minxyz: dimension ZTOP_LAY= 1.650000 [m] is not a multiple of 0.100 [m]
WARNING. gmdata: soil layer # 3; BDEN=9.45 kN/m^3 is inconsistent with PHI=27.50 degrees.
WARNING. gmdata: soil layer # 4;
minxyz: dimension ZTOP_LAY= 2.450000 [m] is not a multiple of 0.100 [m]
WARNING. gmdata: soil layer # 9;
minxyz: dimension ZTOP_LAY= 6.150000 [m] is not a multiple of 0.100 [m]
WARNING. gmdata: soil layer # 10;
minxyz: dimension ZTOP_LAY= 7.150000 [m] is not a multiple of 0.100 [m]
WARNING. gmdata: soil layer # 13; BDEN=8.35 kN/m^3 is inconsistent with PHI=35.00 degrees.
WARNING. gmdata: soil layer # 13; BDEN=8.35 kN/m^3 is inconsistent with PHI=35.00 degrees.
WARNING. spfdat: number of soil layers NUMSL > 10 in top 1.5B [?simplify ground model].

z_tip_penetration [m]: 3.70
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 13:21:18 on 09-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
2.99 1.22
15.3 3.10
0.00 7.64
spudcan_mat_X_sub: END — >

D_B_eq_sub: < — BEGIN
D [m]: 7.40
> 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]: 9.02
A [m^2]: 183.
H_cav [m]: 6.75
V_spud [m^3]: 247.
V_D [m^3]: 144.
W_BF = gamma_sub_av [ A (D – H_cav) – (V_spud – V_D ) ]
> W_BF [kN]: 145.9908
W_BF_fun: END — >

Qv_Dpt_sub: < — BEGIN
< D [m]: 7.40
< B_eq [m]: 15.3

Q_ub_sub: < — BEGIN
< D [m]: 7.40
< D_pt [m]: 7.40
< B_pt [m]: 15.3

Qv_SQC_fun: < — BEGIN
< D [m]: 7.40
< B_eq [m]: 15.3

ZTOP_sq_fun: < — BEGIN
< D [m]: 7.40
ZTOP_sq_fun [m bsf]: 7.15
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 7.40
T_sq [m]: 6.40
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 6.40
b_sq [-]: 0.330
B_eq [m]: 15.3
T_sq/b_sq [m]: 19.4
* B_eq > T_sq/b_sq [t/f]: F
ztop_sq [m bsf]: 7.15
B_eq [m]: 15.3
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.469
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 1000000.
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 7.40
< B_eq [m]: 15.3
< sp_beta [rad]: 2.54
< sp_beta/deg [deg]: 146.

rho_av_fun: < — BEGIN
< D [m]: 7.40
rho_av [kPa/m]: 1.23
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 1.23
su0 [kPa]: 73.0
D [m]: 7.40
z_top_first_CLAY_layer_aboveD [m bsf]: 7.15
sum = su0 – rho_av*D [kPa]: 72.7
sum_modified = max(sum,0) [kPa]: 72.7
kappa_m = rho_av*B_eq/sum_modified [-]: 0.257
kappa_m_modified = max(kappa_m,5) [-]: 0.257
B_eq [m]: 15.3
lambda = D/B_eq [-]: 0.485
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.229
sp_beta/deg [deg]: 146.
sp_alpha [-]: 0.600
Nc0 [-]: 6.87
su0 * Nc0 [kPa]: 502.
p0 [kPa]: 66.8
su0*Nc0 + p0 [kPa]: 569.
pi * B_eq * B_eq /4 [m^2]: 183.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 103977.2
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 103977.2
> Qv_fmode_pt :GSC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 7.40
< B_pt [m]: 15.3
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 7.40
< 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]: 7.40
< D_pt [m]: 10.0
< B_pt [m]: 15.3

Qv_SQC_fun: < — BEGIN
< D [m]: 10.0
< B_eq [m]: 15.3

ZTOP_sq_fun: < — BEGIN
< D [m]: 10.0
ZTOP_sq_fun [m bsf]: 10.0
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 10.0
T_sq [m]: 3.80
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 3.80
b_sq [-]: 0.330
B_eq [m]: 15.3
T_sq/b_sq [m]: 11.5
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 10.0
B_eq [m]: 15.3
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.655
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 123051.0
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 10.0
< B_eq [m]: 15.3
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 10.0
rho_av [kPa/m]: 3.71
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 3.71
su0 [kPa]: 78.0
D [m]: 10.0
z_top_first_CLAY_layer_aboveD [m bsf]: 7.15
sum = su0 – rho_av*D [kPa]: 67.4
sum_modified = max(sum,0) [kPa]: 67.4
kappa_m = rho_av*B_eq/sum_modified [-]: 0.841
kappa_m_modified = max(kappa_m,5) [-]: 0.841
B_eq [m]: 15.3
lambda = D/B_eq [-]: 0.655
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.542
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.44
su0 * Nc0 [kPa]: 580.
p0 [kPa]: 88.0
su0*Nc0 + p0 [kPa]: 668.
pi * B_eq * B_eq /4 [m^2]: 183.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 122182.0
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 123051.0
> Qv_fmode_pt :SQC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 7.40
< B_pt [m]: 15.3
Rs_pt [kN]: 6824.968
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 7.40
< B_pt [m]: 15.3
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 3875.829
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 10.0
< D_pt [m]: 13.2
< B_pt [m]: 15.3

Qv_SQC_fun: < — BEGIN
< D [m]: 13.2
< B_eq [m]: 15.3

ZTOP_sq_fun: < — BEGIN
< D [m]: 13.2
ZTOP_sq_fun [m bsf]: 13.2
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 13.2
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]: 13.2
B_eq [m]: 15.3
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.865
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 298136.2
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 13.2
< B_eq [m]: 15.3
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 13.2
rho_av [kPa/m]: 4.81
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 4.81
su0 [kPa]: 105.
D [m]: 13.2
z_top_first_CLAY_layer_aboveD [m bsf]: 7.15
sum = su0 – rho_av*D [kPa]: 75.9
sum_modified = max(sum,0) [kPa]: 75.9
kappa_m = rho_av*B_eq/sum_modified [-]: 0.966
kappa_m_modified = max(kappa_m,5) [-]: 0.966
B_eq [m]: 15.3
lambda = D/B_eq [-]: 0.865
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.526
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.64
su0 * Nc0 [kPa]: 802.
p0 [kPa]: 115.
su0*Nc0 + p0 [kPa]: 917.
pi * B_eq * B_eq /4 [m^2]: 183.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 167636.7
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 298136.2
> Qv_fmode_pt :SQC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 10.0
< B_pt [m]: 15.3
Rs_pt [kN]: 8976.522
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 10.0
< B_pt [m]: 15.3
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 4916.661
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 13.2
< D_pt [m]: 13.8
< B_pt [m]: 15.3

Qv_GSS_fun: < — BEGIN
< D [m]: 13.8
< B_eq [m]: 15.3

phi_av_fun: < — BEGIN
< z1 [m]: 13.8
phi_av [rad]: 0.611
> phi_av/deg [deg]: 35.0
phi_av_fun : END — >

is_D_clay [t/f]: F
gamma_sub_av [kN/m^3]: 9.26
phi_rad_av [rad]: 0.611
phi_rad_av/deg [deg]: 35.0
N_gamma [-]: 41.9
N_q [-]: 80.8
d_gamma [-]: 1.00
d_q [-]: 1.19
p0 [kPa]: 121.
gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8
[kN]: 0.541E+06
p0*d_q*N_q*pi*B_eq*B_eq/4 [kN]: 0.212E+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]: 2658031.
Qv_GSS_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 35.0
> Q_ub [kN]: 2658031.
> Qv_fmode_pt :GSS
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 13.2
< B_pt [m]: 15.3
Rs_pt [kN]: 16308.85
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 13.2
< B_pt [m]: 15.3
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 1058.862
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 13.8
< D_pt [m]: 14.7
< B_pt [m]: 15.9

Qv_SQC_fun: < — BEGIN
< D [m]: 14.7
< B_eq [m]: 15.9

ZTOP_sq_fun: < — BEGIN
< D [m]: 14.7
ZTOP_sq_fun [m bsf]: 14.7
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 14.7
T_sq [m]: 2.60
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 2.60
b_sq [-]: 0.330
B_eq [m]: 15.9
T_sq/b_sq [m]: 7.88
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 14.7
B_eq [m]: 15.9
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.927
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 180311.3
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 14.7
< B_eq [m]: 15.9
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 14.7
rho_av [kPa/m]: 5.43
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 5.43
su0 [kPa]: 72.0
D [m]: 14.7
z_top_first_CLAY_layer_aboveD [m bsf]: 14.7
sum = su0 – rho_av*D [kPa]: 72.0
sum_modified = max(sum,0) [kPa]: 72.0
kappa_m = rho_av*B_eq/sum_modified [-]: 1.20
kappa_m_modified = max(kappa_m,5) [-]: 1.20
B_eq [m]: 15.9
lambda = D/B_eq [-]: 0.927
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.567
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.70
su0 * Nc0 [kPa]: 554.
p0 [kPa]: 128.
su0*Nc0 + p0 [kPa]: 682.
pi * B_eq * B_eq /4 [m^2]: 198.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 134777.7
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 35.0
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 180311.3
> Qv_fmode_pt :SQC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 13.8
< B_pt [m]: 15.9
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 13.8
< B_pt [m]: 15.9
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 1484.781
dW_pt_fun: END — >

Qv_SQC_fun: < — BEGIN
< D [m]: 14.7
< B_eq [m]: 15.9

ZTOP_sq_fun: < — BEGIN
< D [m]: 14.7
ZTOP_sq_fun [m bsf]: 14.7
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 14.7
T_sq [m]: 2.60
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 2.60
b_sq [-]: 0.330
B_eq [m]: 15.9
T_sq/b_sq [m]: 7.88
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 14.7
B_eq [m]: 15.9
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.927
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 180311.3
Qv_SQC_fun: END — >

Qv_SQC_fun: < — BEGIN
< D [m]: 14.7
< B_eq [m]: 15.3

ZTOP_sq_fun: < — BEGIN
< D [m]: 14.7
ZTOP_sq_fun [m bsf]: 14.7
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 14.7
T_sq [m]: 2.60
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 2.60
b_sq [-]: 0.330
B_eq [m]: 15.3
T_sq/b_sq [m]: 7.88
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 14.7
B_eq [m]: 15.3
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.963
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 166354.1
Qv_SQC_fun: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 13.8
< B_pt [m]: 15.3
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 13.8
< B_pt [m]: 15.3
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 1374.565
dW_pt_fun: END — >

D, D_pt [m]: 13.8 14.7
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]: 15.3 15.9
(B_eq/B_pt)^2 [-]: 0.926
old dW, new dW [kN]: 0.148E+04 0.137E+04
old Qv_SQC, new Qv_SQC (ie Q_ub) [kN]: 0.180E+06 0.166E+06

Q_ub_sub: < — BEGIN
< D [m]: 14.7
< D_pt [m]: 15.7
< B_pt [m]: 15.9

Qv_SQC_fun: < — BEGIN
< D [m]: 15.7
< B_eq [m]: 15.9

ZTOP_sq_fun: < — BEGIN
< D [m]: 15.7
ZTOP_sq_fun [m bsf]: 15.7
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 15.7
T_sq [m]: 1.60
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 1.60
b_sq [-]: 0.330
B_eq [m]: 15.9
T_sq/b_sq [m]: 4.85
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 15.7
B_eq [m]: 15.9
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.990
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 221621.1
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 15.7
< B_eq [m]: 15.9
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 15.7
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 104.
D [m]: 15.7
z_top_first_CLAY_layer_aboveD [m bsf]: 14.7
sum = su0 – rho_av*D [kPa]: 104.
sum_modified = max(sum,0) [kPa]: 104.
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 15.9
lambda = D/B_eq [-]: 0.990
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.68
su0 * Nc0 [kPa]: 799.
p0 [kPa]: 138.
su0*Nc0 + p0 [kPa]: 936.
pi * B_eq * B_eq /4 [m^2]: 198.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 184944.8
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 221621.1
> Qv_fmode_pt :SQC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 14.7
< B_pt [m]: 15.9
Rs_pt [kN]: 3157.871
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 14.7
< B_pt [m]: 15.9
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 1867.033
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 15.7
< D_pt [m]: 17.3
< B_pt [m]: 15.9

Qv_SQC_fun: < — BEGIN
< D [m]: 17.3
< B_eq [m]: 15.9

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]: 1.00
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 1.00
b_sq [-]: 0.330
B_eq [m]: 15.9
T_sq/b_sq [m]: 3.03
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 17.3
B_eq [m]: 15.9
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 1.09
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 436204.8
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 17.3
< B_eq [m]: 15.9
< 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]: 178.
D [m]: 17.3
z_top_first_CLAY_layer_aboveD [m bsf]: 14.7
sum = su0 – rho_av*D [kPa]: 178.
sum_modified = max(sum,0) [kPa]: 178.
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 15.9
lambda = D/B_eq [-]: 1.09
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.80
su0 * Nc0 [kPa]: 0.139E+04
p0 [kPa]: 153.
su0*Nc0 + p0 [kPa]: 0.154E+04
pi * B_eq * B_eq /4 [m^2]: 198.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 304584.0
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 436204.8
> Qv_fmode_pt :SQC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 15.7
< B_pt [m]: 15.9
Rs_pt [kN]: 6221.123
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 15.7
< B_pt [m]: 15.9
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 3113.196
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 17.3
< D_pt [m]: 18.3
< B_pt [m]: 15.9

Qv_GSS_fun: < — BEGIN
< D [m]: 18.3
< B_eq [m]: 15.9

phi_av_fun: < — BEGIN
< z1 [m]: 18.3
phi_av [rad]: 0.393
> phi_av/deg [deg]: 22.5
phi_av_fun : END — >

is_D_clay [t/f]: F
gamma_sub_av [kN/m^3]: 9.19
phi_rad_av [rad]: 0.393
phi_rad_av/deg [deg]: 22.5
N_gamma [-]: 3.85
N_q [-]: 13.2
d_gamma [-]: 1.00
d_q [-]: 1.27
p0 [kPa]: 162.
gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8
[kN]: 0.554E+05
p0*d_q*N_q*pi*B_eq*B_eq/4 [kN]: 0.537E+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]: 592913.5
Qv_GSS_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 22.5
> Q_ub [kN]: 592913.5
> Qv_fmode_pt :GSS
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 17.3
< B_pt [m]: 15.9
Rs_pt [kN]: 30976.33
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 17.3
< B_pt [m]: 15.9
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 1630.136
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 18.3
< D_pt [m]: 19.0
< B_pt [m]: 16.3

Qv_SQC_fun: < — BEGIN
< D [m]: 19.0
< B_eq [m]: 16.3

ZTOP_sq_fun: < — BEGIN
< D [m]: 19.0
ZTOP_sq_fun [m bsf]: 19.0
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 19.0
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]: 16.3
T_sq/b_sq [m]: 0.303E-02
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 19.0
B_eq [m]: 16.3
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 1.16
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 0.1016729E+09
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 19.0
< B_eq [m]: 16.3
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 19.0
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 90.0
D [m]: 19.0
z_top_first_CLAY_layer_aboveD [m bsf]: 19.0
sum = su0 – rho_av*D [kPa]: 90.0
sum_modified = max(sum,0) [kPa]: 90.0
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 16.3
lambda = D/B_eq [-]: 1.16
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.89
su0 * Nc0 [kPa]: 710.
p0 [kPa]: 169.
su0*Nc0 + p0 [kPa]: 879.
pi * B_eq * B_eq /4 [m^2]: 209.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 183937.9
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 22.5
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 183937.9
> Qv_fmode_pt :GSC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 18.3
< B_pt [m]: 16.3
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 18.3
< B_pt [m]: 16.3
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 1523.914
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]
7.40 7.40 15.3 0.00 103977.2 0.000000 0.000000 10 0.000000 0.000000 103977.2 * 1 GSC
7.40 10.0 15.3 2.60 123051.0 6824.968 3875.829 11 3875.829 6824.968 126000.1 2 PTC>SQC
10.0 13.2 15.3 3.20 298136.2 8976.522 4916.661 12 8792.490 15801.49 305145.2 6 PTC>PTC>SQC
13.2 13.8 15.3 0.600 2658031. 16308.85 1058.862 13 9851.352 32110.34 2680290. 9 PTC>PTC>PTC>GSS
13.8 14.7 15.3 0.900 166354.1 0.000000 1374.565 14 11225.92 32110.34 187238.5 3 PTC>PTC>PTC>PTS>SQC
14.7 15.7 15.9 1.00 221621.1 3157.871 1867.033 15 13993.08 35268.21 242896.3 5 PTC>PTC>PTC>PTS>PTC>SQC
15.7 17.3 15.9 1.60 436204.8 6221.123 3113.196 16 17106.27 41489.34 460587.8 7 PTC>PTC>PTC>PTS>PTC>PTC>SQC
17.3 18.3 15.9 1.00 592913.5 30976.33 1630.136 17 18736.41 72465.67 646642.7 8 PTC>PTC>PTC>PTS>PTC>PTC>PTC>GSS
18.3 19.0 16.3 0.700 183937.9 0.000000 1523.914 18 21379.15 72465.67 235024.4 4 PTC>PTC>PTC>PTS>PTC>PTC>PTC>PTS>GSC
> Qv_Dpt [kN]: 103977.2
Qv_Dpt_sub: END — >

ioutd_z_tip_verify: < — BEGIN
< z_tip_verify [m]: 10.5

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

Qv_Dpt_sub: < — BEGIN
< D [m]: 7.40
< B_eq [m]: 15.3

Q_ub_sub: < — BEGIN
< D [m]: 7.40
< D_pt [m]: 7.40
< B_pt [m]: 15.3

Qv_SQC_fun: < — BEGIN
< D [m]: 7.40
< B_eq [m]: 15.3

ZTOP_sq_fun: < — BEGIN
< D [m]: 7.40
ZTOP_sq_fun [m bsf]: 7.15
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 7.40
T_sq [m]: 6.40
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 6.40
b_sq [-]: 0.330
B_eq [m]: 15.3
T_sq/b_sq [m]: 19.4
* B_eq > T_sq/b_sq [t/f]: F
ztop_sq [m bsf]: 7.15
B_eq [m]: 15.3
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.469
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 1000000.
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 7.40
< B_eq [m]: 15.3
< sp_beta [rad]: 2.54
< sp_beta/deg [deg]: 146.

rho_av_fun: < — BEGIN
< D [m]: 7.40
rho_av [kPa/m]: 1.23
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 1.23
su0 [kPa]: 73.0
D [m]: 7.40
z_top_first_CLAY_layer_aboveD [m bsf]: 7.15
sum = su0 – rho_av*D [kPa]: 72.7
sum_modified = max(sum,0) [kPa]: 72.7
kappa_m = rho_av*B_eq/sum_modified [-]: 0.257
kappa_m_modified = max(kappa_m,5) [-]: 0.257
B_eq [m]: 15.3
lambda = D/B_eq [-]: 0.485
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.229
sp_beta/deg [deg]: 146.
sp_alpha [-]: 0.600
Nc0 [-]: 6.87
su0 * Nc0 [kPa]: 502.
p0 [kPa]: 66.8
su0*Nc0 + p0 [kPa]: 569.
pi * B_eq * B_eq /4 [m^2]: 183.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 103977.2
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 103977.2
> Qv_fmode_pt :GSC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 7.40
< B_pt [m]: 15.3
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 7.40
< 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]: 7.40
< D_pt [m]: 10.0
< B_pt [m]: 15.3

Qv_SQC_fun: < — BEGIN
< D [m]: 10.0
< B_eq [m]: 15.3

ZTOP_sq_fun: < — BEGIN
< D [m]: 10.0
ZTOP_sq_fun [m bsf]: 10.0
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 10.0
T_sq [m]: 3.80
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 3.80
b_sq [-]: 0.330
B_eq [m]: 15.3
T_sq/b_sq [m]: 11.5
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 10.0
B_eq [m]: 15.3
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.655
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 123051.0
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 10.0
< B_eq [m]: 15.3
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 10.0
rho_av [kPa/m]: 3.71
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 3.71
su0 [kPa]: 78.0
D [m]: 10.0
z_top_first_CLAY_layer_aboveD [m bsf]: 7.15
sum = su0 – rho_av*D [kPa]: 67.4
sum_modified = max(sum,0) [kPa]: 67.4
kappa_m = rho_av*B_eq/sum_modified [-]: 0.841
kappa_m_modified = max(kappa_m,5) [-]: 0.841
B_eq [m]: 15.3
lambda = D/B_eq [-]: 0.655
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.542
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.44
su0 * Nc0 [kPa]: 580.
p0 [kPa]: 88.0
su0*Nc0 + p0 [kPa]: 668.
pi * B_eq * B_eq /4 [m^2]: 183.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 122182.0
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 123051.0
> Qv_fmode_pt :SQC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 7.40
< B_pt [m]: 15.3
Rs_pt [kN]: 6824.968
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 7.40
< B_pt [m]: 15.3
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 3875.829
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 10.0
< D_pt [m]: 13.2
< B_pt [m]: 15.3

Qv_SQC_fun: < — BEGIN
< D [m]: 13.2
< B_eq [m]: 15.3

ZTOP_sq_fun: < — BEGIN
< D [m]: 13.2
ZTOP_sq_fun [m bsf]: 13.2
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 13.2
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]: 13.2
B_eq [m]: 15.3
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.865
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 298136.2
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 13.2
< B_eq [m]: 15.3
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 13.2
rho_av [kPa/m]: 4.81
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 4.81
su0 [kPa]: 105.
D [m]: 13.2
z_top_first_CLAY_layer_aboveD [m bsf]: 7.15
sum = su0 – rho_av*D [kPa]: 75.9
sum_modified = max(sum,0) [kPa]: 75.9
kappa_m = rho_av*B_eq/sum_modified [-]: 0.966
kappa_m_modified = max(kappa_m,5) [-]: 0.966
B_eq [m]: 15.3
lambda = D/B_eq [-]: 0.865
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.526
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.64
su0 * Nc0 [kPa]: 802.
p0 [kPa]: 115.
su0*Nc0 + p0 [kPa]: 917.
pi * B_eq * B_eq /4 [m^2]: 183.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 167636.7
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 298136.2
> Qv_fmode_pt :SQC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 10.0
< B_pt [m]: 15.3
Rs_pt [kN]: 8976.522
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 10.0
< B_pt [m]: 15.3
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 4916.661
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 13.2
< D_pt [m]: 13.8
< B_pt [m]: 15.3

Qv_GSS_fun: < — BEGIN
< D [m]: 13.8
< B_eq [m]: 15.3

phi_av_fun: < — BEGIN
< z1 [m]: 13.8
phi_av [rad]: 0.611
> phi_av/deg [deg]: 35.0
phi_av_fun : END — >

is_D_clay [t/f]: F
gamma_sub_av [kN/m^3]: 9.26
phi_rad_av [rad]: 0.611
phi_rad_av/deg [deg]: 35.0
N_gamma [-]: 41.9
N_q [-]: 80.8
d_gamma [-]: 1.00
d_q [-]: 1.19
p0 [kPa]: 121.
gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8
[kN]: 0.541E+06
p0*d_q*N_q*pi*B_eq*B_eq/4 [kN]: 0.212E+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]: 2658031.
Qv_GSS_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 35.0
> Q_ub [kN]: 2658031.
> Qv_fmode_pt :GSS
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 13.2
< B_pt [m]: 15.3
Rs_pt [kN]: 16308.85
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 13.2
< B_pt [m]: 15.3
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 1058.862
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 13.8
< D_pt [m]: 14.7
< B_pt [m]: 15.9

Qv_SQC_fun: < — BEGIN
< D [m]: 14.7
< B_eq [m]: 15.9

ZTOP_sq_fun: < — BEGIN
< D [m]: 14.7
ZTOP_sq_fun [m bsf]: 14.7
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 14.7
T_sq [m]: 2.60
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 2.60
b_sq [-]: 0.330
B_eq [m]: 15.9
T_sq/b_sq [m]: 7.88
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 14.7
B_eq [m]: 15.9
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.927
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 180311.3
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 14.7
< B_eq [m]: 15.9
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 14.7
rho_av [kPa/m]: 5.43
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 5.43
su0 [kPa]: 72.0
D [m]: 14.7
z_top_first_CLAY_layer_aboveD [m bsf]: 14.7
sum = su0 – rho_av*D [kPa]: 72.0
sum_modified = max(sum,0) [kPa]: 72.0
kappa_m = rho_av*B_eq/sum_modified [-]: 1.20
kappa_m_modified = max(kappa_m,5) [-]: 1.20
B_eq [m]: 15.9
lambda = D/B_eq [-]: 0.927
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.567
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.70
su0 * Nc0 [kPa]: 554.
p0 [kPa]: 128.
su0*Nc0 + p0 [kPa]: 682.
pi * B_eq * B_eq /4 [m^2]: 198.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 134777.7
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 35.0
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 180311.3
> Qv_fmode_pt :SQC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 13.8
< B_pt [m]: 15.9
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 13.8
< B_pt [m]: 15.9
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 1484.781
dW_pt_fun: END — >

Qv_SQC_fun: < — BEGIN
< D [m]: 14.7
< B_eq [m]: 15.9

ZTOP_sq_fun: < — BEGIN
< D [m]: 14.7
ZTOP_sq_fun [m bsf]: 14.7
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 14.7
T_sq [m]: 2.60
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 2.60
b_sq [-]: 0.330
B_eq [m]: 15.9
T_sq/b_sq [m]: 7.88
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 14.7
B_eq [m]: 15.9
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.927
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 180311.3
Qv_SQC_fun: END — >

Qv_SQC_fun: < — BEGIN
< D [m]: 14.7
< B_eq [m]: 15.3

ZTOP_sq_fun: < — BEGIN
< D [m]: 14.7
ZTOP_sq_fun [m bsf]: 14.7
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 14.7
T_sq [m]: 2.60
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 2.60
b_sq [-]: 0.330
B_eq [m]: 15.3
T_sq/b_sq [m]: 7.88
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 14.7
B_eq [m]: 15.3
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.963
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 166354.1
Qv_SQC_fun: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 13.8
< B_pt [m]: 15.3
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 13.8
< B_pt [m]: 15.3
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 1374.565
dW_pt_fun: END — >

D, D_pt [m]: 13.8 14.7
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]: 15.3 15.9
(B_eq/B_pt)^2 [-]: 0.926
old dW, new dW [kN]: 0.148E+04 0.137E+04
old Qv_SQC, new Qv_SQC (ie Q_ub) [kN]: 0.180E+06 0.166E+06

Q_ub_sub: < — BEGIN
< D [m]: 14.7
< D_pt [m]: 15.7
< B_pt [m]: 15.9

Qv_SQC_fun: < — BEGIN
< D [m]: 15.7
< B_eq [m]: 15.9

ZTOP_sq_fun: < — BEGIN
< D [m]: 15.7
ZTOP_sq_fun [m bsf]: 15.7
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 15.7
T_sq [m]: 1.60
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 1.60
b_sq [-]: 0.330
B_eq [m]: 15.9
T_sq/b_sq [m]: 4.85
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 15.7
B_eq [m]: 15.9
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 0.990
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 221621.1
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 15.7
< B_eq [m]: 15.9
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 15.7
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 104.
D [m]: 15.7
z_top_first_CLAY_layer_aboveD [m bsf]: 14.7
sum = su0 – rho_av*D [kPa]: 104.
sum_modified = max(sum,0) [kPa]: 104.
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 15.9
lambda = D/B_eq [-]: 0.990
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.68
su0 * Nc0 [kPa]: 799.
p0 [kPa]: 138.
su0*Nc0 + p0 [kPa]: 936.
pi * B_eq * B_eq /4 [m^2]: 198.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 184944.8
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 221621.1
> Qv_fmode_pt :SQC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 14.7
< B_pt [m]: 15.9
Rs_pt [kN]: 3157.871
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 14.7
< B_pt [m]: 15.9
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 1867.033
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 15.7
< D_pt [m]: 17.3
< B_pt [m]: 15.9

Qv_SQC_fun: < — BEGIN
< D [m]: 17.3
< B_eq [m]: 15.9

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]: 1.00
T_sq_fun: END — >

is_D_clay [t/f]: T
T_sq [m]: 1.00
b_sq [-]: 0.330
B_eq [m]: 15.9
T_sq/b_sq [m]: 3.03
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 17.3
B_eq [m]: 15.9
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 1.09
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 436204.8
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 17.3
< B_eq [m]: 15.9
< 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]: 178.
D [m]: 17.3
z_top_first_CLAY_layer_aboveD [m bsf]: 14.7
sum = su0 – rho_av*D [kPa]: 178.
sum_modified = max(sum,0) [kPa]: 178.
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 15.9
lambda = D/B_eq [-]: 1.09
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.80
su0 * Nc0 [kPa]: 0.139E+04
p0 [kPa]: 153.
su0*Nc0 + p0 [kPa]: 0.154E+04
pi * B_eq * B_eq /4 [m^2]: 198.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 304584.0
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 436204.8
> Qv_fmode_pt :SQC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 15.7
< B_pt [m]: 15.9
Rs_pt [kN]: 6221.123
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 15.7
< B_pt [m]: 15.9
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 3113.196
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 17.3
< D_pt [m]: 18.3
< B_pt [m]: 15.9

Qv_GSS_fun: < — BEGIN
< D [m]: 18.3
< B_eq [m]: 15.9

phi_av_fun: < — BEGIN
< z1 [m]: 18.3
phi_av [rad]: 0.393
> phi_av/deg [deg]: 22.5
phi_av_fun : END — >

is_D_clay [t/f]: F
gamma_sub_av [kN/m^3]: 9.19
phi_rad_av [rad]: 0.393
phi_rad_av/deg [deg]: 22.5
N_gamma [-]: 3.85
N_q [-]: 13.2
d_gamma [-]: 1.00
d_q [-]: 1.27
p0 [kPa]: 162.
gamma_sub_av*D_gamma*N_gamma*pi*B_eq*B_eq*B_eq/8
[kN]: 0.554E+05
p0*d_q*N_q*pi*B_eq*B_eq/4 [kN]: 0.537E+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]: 592913.5
Qv_GSS_fun: END — >

phi_lay_deg1 [deg]: 0.00
phi_lay_deg2 [deg]: 22.5
> Q_ub [kN]: 592913.5
> Qv_fmode_pt :GSS
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 17.3
< B_pt [m]: 15.9
Rs_pt [kN]: 30976.33
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 17.3
< B_pt [m]: 15.9
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 1630.136
dW_pt_fun: END — >

Q_ub_sub: < — BEGIN
< D [m]: 18.3
< D_pt [m]: 19.0
< B_pt [m]: 16.3

Qv_SQC_fun: < — BEGIN
< D [m]: 19.0
< B_eq [m]: 16.3

ZTOP_sq_fun: < — BEGIN
< D [m]: 19.0
ZTOP_sq_fun [m bsf]: 19.0
ZTOP_sq_fun: END — >

T_sq_fun: < — BEGIN
< D [m]: 19.0
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]: 16.3
T_sq/b_sq [m]: 0.303E-02
* B_eq > T_sq/b_sq [t/f]: T
ztop_sq [m bsf]: 19.0
B_eq [m]: 16.3
ztop_sq/B_eq (i.e. ‘D/B’) [-]: 1.16
* ‘D/B’ T_sq/b_sq] & [‘D/B’ Qv_SQC [kN]: 0.1016729E+09
Qv_SQC_fun: END — >

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 19.0
< B_eq [m]: 16.3
< sp_beta [rad]: 3.14
< sp_beta/deg [deg]: 180.

rho_av_fun: < — BEGIN
< D [m]: 19.0
rho_av [kPa/m]: 0.00
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 0.00
su0 [kPa]: 90.0
D [m]: 19.0
z_top_first_CLAY_layer_aboveD [m bsf]: 19.0
sum = su0 – rho_av*D [kPa]: 90.0
sum_modified = max(sum,0) [kPa]: 90.0
kappa_m = rho_av*B_eq/sum_modified [-]: 0.00
kappa_m_modified = max(kappa_m,5) [-]: 0.00
B_eq [m]: 16.3
lambda = D/B_eq [-]: 1.16
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.00
sp_beta/deg [deg]: 180.
sp_alpha [-]: 0.600
Nc0 [-]: 7.89
su0 * Nc0 [kPa]: 710.
p0 [kPa]: 169.
su0*Nc0 + p0 [kPa]: 879.
pi * B_eq * B_eq /4 [m^2]: 209.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 183937.9
Qv_GSC_fun: END — >

phi_lay_deg1 [deg]: 22.5
phi_lay_deg2 [deg]: 0.00
> Q_ub [kN]: 183937.9
> Qv_fmode_pt :GSC
Q_ub_sub: END — >

Rs_pt_fun: < — BEGIN
< D [m]: 18.3
< B_pt [m]: 16.3
Rs_pt [kN]: 0.000000
Rs_pt_fun: END — >

dW_pt_fun: < — BEGIN
< D [m]: 18.3
< B_pt [m]: 16.3
dW_pt = A_pt * T_pt * gamma_sub_av [kN]: 1523.914
dW_pt_fun: END — >

< z_tip_verify [m]: 10.5
D [m]: 7.40
B_eq [m]: 15.3
lay_num (D) [-]: 10
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]: 103977.2 *
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]: 103977.2
Qub_D, GROSS resistance (GSS, GSC/SQC) [kN]: 103977.2
Qv_fmode, failure mode : 'GSC'

Qv_GSC_fun: < — BEGIN
< D [m bsf]: 7.40
< B_eq [m]: 15.3
< sp_beta [rad]: 2.54
< sp_beta/deg [deg]: 146.

rho_av_fun: < — BEGIN
< D [m]: 7.40
rho_av [kPa/m]: 1.23
rho_av_fun: END — >

is_D_clay [t/f]: T
rho_av [kPa/m]: 1.23
su0 [kPa]: 73.0
D [m]: 7.40
z_top_first_CLAY_layer_aboveD [m bsf]: 7.15
sum = su0 – rho_av*D [kPa]: 72.7
sum_modified = max(sum,0) [kPa]: 72.7
kappa_m = rho_av*B_eq/sum_modified [-]: 0.257
kappa_m_modified = max(kappa_m,5) [-]: 0.257
B_eq [m]: 15.3
lambda = D/B_eq [-]: 0.485
kappa_0=kappa_mod/(lambda*kappa_mod+1)[-]: 0.229
sp_beta/deg [deg]: 146.
sp_alpha [-]: 0.600
Nc0 [-]: 6.87
su0 * Nc0 [kPa]: 502.
p0 [kPa]: 66.8
su0*Nc0 + p0 [kPa]: 569.
pi * B_eq * B_eq /4 [m^2]: 183.
Qv_GSC = ( su0*Nc0 + p0 ) * pi * B_eq * B_eq / 4
> Qv_GSC [kN]: 103977.2
Qv_GSC_fun: END — >

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

D_B_eq_sub: < — BEGIN
D [m]: 7.40
> B_eq [m]: 15.3
D_B_eq_sub: END — >

H_cav_fun: < — BEGIN
< D [m]: 7.40
< B_eq [m]: 15.3
< I_BF [-]: 1

< D_top_first_SAND_layer [m]: 0.650
H_cav, ISO 19905-1 Eq. 9.3-3 [m]: 6.75
H_cav_fun: END — >

B_S_fun: < — BEGIN
< z_tip [m]: 10.5

D_B_eq_sub: < — BEGIN
D [m]: 7.40
> B_eq [m]: 15.3
D_B_eq_sub: END — >

z1 [m]: 10.5
z2 [m]: 7.40
gamma_sub_av [kN/m^3]: 8.19
V_D [kN]: 144.
> B_S = gamma_sub_av*V_D [kN]: 1181.968
B_S_fun: END — >

W_BF_fun: < — BEGIN
< z_tip [m]: 10.5
< I_BF [-]: 1

D_B_eq_sub: < — BEGIN
D [m]: 7.40
> B_eq [m]: 15.3
D_B_eq_sub: END — >

gamma_sub_av [kN/m^3]: 9.02
A [m^2]: 183.
H_cav [m]: 6.75
V_spud [m^3]: 247.
V_D [m^3]: 144.
W_BF = gamma_sub_av [ A (D – H_cav) – (V_spud – V_D ) ]
> W_BF [kN]: 145.9908
W_BF_fun: END — >

—————————————–
H_CAV, ISO 19905-1 Eq.A.9.3-3,
cavity depth [m bsf]: 6.75
V_SPUD, ISO 19905-1 Fig.A.9.3-6, row1,
spudcan total volume BENEATH BACKFILL [m^3]: 247.
V_D, ISO 19905-1 Fig.A.9.3-6, row2,
spudcan total volume BELOW MAXIMUM BEARING AREA [m^3]: 144.
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]: 145.9908

QV_DPT, spudcan NETT resistance at depth D [kN]: 103977.2
B_S, soil buoyancy of spudcan BELOW MAXIMUM BEARING AREA [kN]: 1181.968
i.e. soil submerged weight displaced by spudcan below D [D is MAX AREA].
W_BF, backfill weight due to backflow [kN]: 145.9908
> V_L, spudcan GROSS ultimate bearing resistance
ie V_L = QV_DPT – W_BF + B_S [kN]: 105013.2

ioutd_z_tip_verify: END — >

soil_mat_adjust: < — BEGIN
< z_tip [m]: 10.5
< i_sqc [-]: 1
PTS>SQC
3.90 0.800 15.3 90290.57 91533.74 PTS>PTS>SQC
4.00 0.900 15.3 92667.43 93908.70 PTS>PTS>SQC
4.10 1.00 15.3 95337.83 96575.71 PTS>PTS>SQC
4.20 1.10 15.3 98367.00 99602.75 PTS>PTS>SQC
4.30 1.20 15.3 101841.1 103077.7 PTS>PTS>SQC
4.40 1.30 15.3 105868.7 107106.8 PTS>PTS>SQC
4.50 1.40 15.3 110610.3 111849.8 PTS>PTS>SQC
4.60 1.50 15.3 116300.8 117542.2 PTS>PTS>SQC
4.70 1.60 15.3 123275.2 124517.9 PTS>PTS>SQC
4.80 1.70 15.3 132047.0 133291.3 PTS>PTS>SQC
4.90 1.80 15.3 143445.7 144692.1 PTS>PTS>SQC
5.00 1.90 15.3 150197.1 151445.4 PTS>PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
5.10 2.00 15.3 149292.4 150529.5 PTS>PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
5.20 2.10 15.3 148387.9 149613.6 PTS>PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
5.30 2.20 15.3 147483.6 148698.4 PTS>PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
5.40 2.30 15.3 146579.5 147783.2 PTS>PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
5.50 2.40 15.3 145675.5 146869.0 PTS>PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
5.60 2.50 15.3 144771.8 145959.0 PTS>PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
5.70 2.60 15.3 143868.2 145050.1 PTS>PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
5.80 2.70 15.3 142964.8 144140.7 PTS>PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
5.90 2.80 15.3 142061.6 143231.8 PTS>PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
6.00 2.90 15.3 141143.7 142312.0 PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
6.10 3.00 15.3 140211.4 141381.8 PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
6.20 3.10 15.3 139279.8 140450.1 PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
6.30 3.20 15.3 138348.8 139517.1 PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
6.40 3.30 15.3 137418.3 138585.1 PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
6.50 3.40 15.3 136488.4 137653.2 PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
6.60 3.50 15.3 135559.1 136721.9 PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
6.70 3.60 15.3 134630.2 135791.2 PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
6.80 3.70 15.3 134132.9 135293.3 PTC>PTC>PTC>PTC>PTC>PTS>GSC
6.90 3.80 15.3 134066.7 135228.1 PTC>PTC>PTC>PTC>PTC>PTS>GSC
7.00 3.90 15.3 134024.3 135189.2 PTC>PTC>PTC>PTC>PTS>GSC
7.10 4.00 15.3 133988.8 135158.6 PTC>PTC>PTC>PTC>PTS>GSC
7.20 4.10 15.3 133953.3 135125.2 PTC>PTC>PTC>PTC>PTS>GSC
7.30 4.20 15.3 133917.9 135090.8 PTC>PTC>PTC>PTS>GSC
7.40 4.30 15.3 133759.8 134929.1 PTC>PTC>PTC>PTS>GSC
7.50 4.40 15.3 133601.7 134768.1 PTC>PTC>PTC>PTS>GSC
7.60 4.50 15.3 133443.6 134606.5 PTC>PTC>PTC>PTS>GSC
7.70 4.60 15.3 133285.5 134445.4 PTC>PTC>PTC>PTS>GSC
7.80 4.70 15.3 133127.4 134283.9 PTC>PTC>PTS>GSC
7.90 4.80 15.3 132919.9 134072.9 PTC>PTC>PTS>GSC
8.00 4.90 15.3 132712.4 133862.1 PTC>PTC>PTS>GSC
8.10 5.00 15.3 132504.9 133651.2 PTC>PTC>PTS>GSC
8.20 5.10 15.3 132297.4 133439.9 PTC>PTC>PTS>GSC
8.30 5.20 15.3 132089.9 133229.0 PTC>PTC>PTS>GSC
8.40 5.30 15.3 131882.3 133017.8 PTC>PTC>PTS>GSC
8.50 5.40 15.3 131674.8 132807.2 PTC>PTC>PTS>GSC
8.60 5.50 15.3 131467.3 132596.1 PTC>PTS>GSC
8.70 5.60 15.3 128784.7 129904.9 PTC>PTS>GSC
8.80 5.70 15.3 126102.1 127213.7 PTC>PTS>GSC
8.90 5.80 15.3 123419.5 124522.9 PTC>PTS>GSC
9.00 5.90 15.3 120736.9 121832.3 PTC>PTS>GSC
9.10 6.00 15.3 118054.3 119140.8 PTC>PTS>GSC
9.20 6.10 15.3 115371.6 116450.1 PTC>PTS>GSC
9.30 6.20 15.3 113597.7 114669.4 PTS>GSC
9.40 6.30 15.3 112733.1 113800.7 PTS>GSC
9.50 6.40 15.3 111869.2 112932.2 PTS>GSC
9.60 6.50 15.3 111005.9 112064.6 PTS>GSC
9.70 6.60 15.3 110143.3 111197.2 PTS>GSC
9.80 6.70 15.3 109281.3 110331.0 PTS>GSC
9.90 6.80 15.3 108419.8 109465.1 PTS>GSC
10.0 6.90 15.3 107558.8 108599.8 PTS>GSC
10.1 7.00 15.3 106698.3 107735.8 PTS>GSC
10.2 7.10 15.3 105838.2 106872.6 PTS>GSC
10.3 7.20 15.3 102538.4 103571.8 GSC
10.4 7.30 15.3 103275.8 104310.4 GSC
10.5 7.40 15.3 103977.2 105013.2 GSC
10.6 7.50 15.3 104646.0 105683.4 GSC
10.7 7.60 15.3 105285.0 106323.6 GSC
10.8 7.70 15.3 105896.8 106937.0 GSC
10.9 7.80 15.3 106483.5 107524.9 GSC
11.0 7.90 15.3 107047.2 108090.0 GSC
11.1 8.00 15.3 107589.6 108633.7 GSC
11.2 8.10 15.3 108030.5 109076.0 GSC
11.3 8.20 15.3 108273.7 109320.6 GSC
11.4 8.30 15.3 108516.3 109564.4 GSC
11.5 8.40 15.3 108758.3 109807.7 GSC
11.6 8.50 15.3 108999.8 110050.5 GSC
11.7 8.60 15.3 109240.7 110292.1 GSC
11.8 8.70 15.3 109481.0 110533.6 GSC
11.9 8.80 15.3 112389.5 113444.1 SQC
12.0 8.90 15.3 113094.1 114149.9 SQC
12.1 9.00 15.3 113855.8 114913.0 SQC
12.2 9.10 15.3 114676.2 115734.7 SQC
12.3 9.20 15.3 115433.3 116493.0 SQC
12.4 9.30 15.3 116311.6 117372.8 SQC
12.5 9.40 15.3 117164.3 118226.5 SQC
12.6 9.50 15.3 118081.1 119144.8 SQC
12.7 9.60 15.3 119035.9 120100.8 SQC
12.8 9.70 15.3 119915.7 120981.9 SQC
12.9 9.80 15.3 120926.3 121993.7 SQC
13.0 9.90 15.3 121963.6 123032.2 SQC
13.1 10.0 15.3 123051.0 124120.9 SQC
13.2 10.1 15.3 123999.6 125069.7 SQC
13.3 10.2 15.3 125072.5 126148.3 SQC
13.4 10.3 15.3 126087.8 127169.8 SQC
13.5 10.4 15.3 127187.5 128275.2 SQC
13.6 10.5 15.3 128281.3 129375.1 SQC
13.7 10.6 15.3 129515.1 130614.4 SQC
13.8 10.7 15.3 130751.2 131855.3 SQC
13.9 10.8 15.3 132138.7 133242.7 SQC
14.0 10.9 15.3 133539.3 134643.1 SQC
14.1 11.0 15.3 135056.7 136160.4 SQC
14.2 11.1 15.3 136650.0 137753.5 SQC
14.3 11.2 15.3 138378.3 139481.6 SQC
14.4 11.3 15.3 140151.6 141254.7 SQC
14.5 11.4 15.3 142134.3 143237.3 SQC
14.6 11.5 15.3 144291.9 145394.7 SQC
14.7 11.6 15.3 146590.5 147694.4 SQC
14.8 11.7 15.3 149103.6 150211.9 SQC
14.9 11.8 15.3 151857.5 152971.1 SQC
15.0 11.9 15.3 154884.4 156003.0 SQC
15.1 12.0 15.3 158223.3 159346.8 SQC
15.2 12.1 15.3 161979.8 163108.0 SQC
15.3 12.2 15.3 166217.9 167351.1 SQC
15.4 12.3 15.3 171018.6 172156.9 SQC
15.5 12.4 15.3 176609.0 177752.2 SQC
15.6 12.5 15.3 181117.6 182265.4 PTC>PTC>PTS>SQC
15.7 12.6 15.3 182797.4 183945.4 PTC>PTC>PTS>SQC
15.8 12.7 15.3 183576.7 184724.6 SQC
15.9 12.8 15.3 184464.4 185617.0 PTC>PTC>PTS>SQC
16.0 12.9 15.3 186387.2 187542.6 PTC>PTC>PTS>SQC
16.1 13.0 15.3 188456.4 189612.4 PTC>PTC>PTS>SQC
16.2 13.1 15.3 190693.0 191849.8 PTC>PTC>PTS>SQC
16.3 13.2 15.3 192244.7 193402.4 SQC
16.4 13.3 15.3 192995.2 194159.6 PTC>PTC>PTS>SQC
16.5 13.4 15.3 195647.2 196812.3 PTC>PTC>PTS>SQC
16.6 13.5 15.3 198559.2 199725.1 PTC>PTC>PTS>SQC
16.7 13.6 15.3 201777.1 202943.7 PTC>PTC>PTS>SQC
16.8 13.7 15.3 202634.6 203802.0 SQC
16.9 13.8 15.3 205231.4 206405.7 PTC>PTC>PTS>SQC
17.0 13.9 15.3 209255.8 210430.8 PTC>PTC>PTS>SQC
17.1 14.0 15.3 213809.6 214983.1 PTC>PTC>PTS>SQC
17.2 14.1 15.3 214434.8 215611.3 SQC
17.3 14.2 15.3 218888.0 220070.8 PTC>PTC>PTS>SQC
17.4 14.3 15.3 224907.7 226083.9 PTC>PTC>PTS>SQC
17.5 14.4 15.3 227235.3 228405.7 PTC>PTC>PTS>PTC>PTC>PTC>PTS>GSC
17.6 14.5 15.3 227130.6 228300.4 PTC>PTC>PTS>PTC>PTC>PTC>PTS>GSC
17.7 14.6 15.3 227026.0 228194.4 PTC>PTC>PTS>PTC>PTC>PTC>PTS>GSC
17.8 14.7 15.3 226921.3 228089.4 PTC>PTS>PTC>PTC>PTC>PTS>GSC
17.9 14.8 15.3 224405.2 225565.8 PTC>PTS>PTC>PTC>PTC>PTS>GSC
18.0 14.9 15.3 221889.1 223043.9 PTC>PTS>PTC>PTC>PTC>PTS>GSC
18.1 15.0 15.3 219372.9 220520.7 PTC>PTS>PTC>PTC>PTC>PTS>GSC
18.2 15.1 15.3 216856.8 217998.5 PTC>PTS>PTC>PTC>PTC>PTS>GSC
18.3 15.2 15.3 214340.7 215475.0 PTC>PTS>PTC>PTC>PTC>PTS>GSC
18.4 15.3 15.3 211824.5 212962.6 PTS>PTC>PTC>PTC>PTS>GSC
18.5 15.4 15.3 210513.0 211660.9 PTS>PTC>PTC>PTC>PTS>GSC
18.6 15.5 15.3 209203.6 210361.0 PTS>PTC>PTC>PTC>PTS>GSC
18.7 15.6 15.3 207896.2 209062.9 PTS>PTC>PTC>PTC>PTS>GSC
18.8 15.7 15.3 206591.0 207767.4 PTS>PTC>PTC>PTC>PTS>GSC
18.9 15.8 15.3 205287.8 206474.1 PTS>PTC>PTC>PTC>PTS>GSC
19.0 15.9 15.3 203986.9 205182.4 PTS>PTC>PTC>PTC>PTS>GSC
19.1 16.0 15.3 202688.0 203883.6 PTS>PTC>PTC>PTC>PTS>GSC
19.2 16.1 15.3 201391.4 202586.5 PTS>PTC>PTC>PTC>PTS>GSC
19.3 16.2 15.3 200096.9 201292.8 PTC>PTC>PTC>PTS>GSC
19.4 16.3 15.3 200011.0 201201.4 PTC>PTC>PTC>PTS>GSC
19.5 16.4 15.3 199903.8 201089.2 PTC>PTC>PTC>PTS>GSC
19.6 16.5 15.3 199775.4 200955.0 PTC>PTC>PTC>PTS>GSC
19.7 16.6 15.3 199625.7 200800.8 PTC>PTC>PTC>PTS>GSC
19.8 16.7 15.3 199447.5 200615.7 PTC>PTC>PTS>GSC
19.9 16.8 15.3 199264.7 200426.0 PTC>PTC>PTS>GSC
20.0 16.9 15.3 199081.9 200235.5 PTC>PTC>PTS>GSC
——————————————————————-
z_tip D B_eq Qv_Dpt V_L Qv_fmode
[m] [m] [m] [kN] [kN]
——————————————————————-

out_sp_pen_sub: PTS>SQC
5.00 6.00 1.90 2.90 1.00 PTS>PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
6.00 6.80 2.90 3.70 0.800 PTS>PTC>PTC>PTC>PTC>PTC>PTS>GSC
6.80 7.00 3.70 3.90 0.200 PTC>PTC>PTC>PTC>PTC>PTS>GSC
7.00 7.30 3.90 4.20 0.300 PTC>PTC>PTC>PTC>PTS>GSC
7.30 7.80 4.20 4.70 0.500 PTC>PTC>PTC>PTS>GSC
7.80 8.60 4.70 5.50 0.800 PTC>PTC>PTS>GSC
8.60 9.30 5.50 6.20 0.700 PTC>PTS>GSC
9.30 10.3 6.20 7.20 1.00 PTS>GSC
10.3 11.9 7.20 8.80 1.60 GSC
11.9 15.6 8.80 12.5 3.70 SQC
15.6 15.8 12.5 12.7 0.200 PTC>PTC>PTS>SQC
15.8 15.9 12.7 12.8 0.100 SQC
15.9 16.3 12.8 13.2 0.400 PTC>PTC>PTS>SQC
16.3 16.4 13.2 13.3 0.100 SQC
16.4 16.8 13.3 13.7 0.400 PTC>PTC>PTS>SQC
16.8 16.9 13.7 13.8 0.100 SQC
16.9 17.2 13.8 14.1 0.300 PTC>PTC>PTS>SQC
17.2 17.3 14.1 14.2 0.100 SQC
17.3 17.5 14.2 14.4 0.200 PTC>PTC>PTS>SQC
17.5 17.8 14.4 14.7 0.300 PTC>PTC>PTS>PTC>PTC>PTC>PTS>GSC
17.8 18.4 14.7 15.3 0.600 PTC>PTS>PTC>PTC>PTC>PTS>GSC
18.4 19.3 15.3 16.2 0.900 PTS>PTC>PTC>PTC>PTS>GSC
19.3 19.8 16.2 16.7 0.500 PTC>PTC>PTC>PTS>GSC
19.8 20.0 16.7 16.9 0.200 PTC>PTC>PTS>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: 16

WARNING. gmdata: soil layer # 2;
minxyz: dimension ZTOP_LAY= 0.6500000 [m] is not a multiple of 0.100 [m]
WARNING. gmdata: soil layer # 2; BDEN=10.85 kN/m^3 is inconsistent with PHI=27.50 degrees.
WARNING. gmdata: soil layer # 2; BDEN=10.85 kN/m^3 is inconsistent with PHI=27.50 degrees.
WARNING. gmdata: soil layer # 3;
minxyz: dimension ZTOP_LAY= 1.650000 [m] is not a multiple of 0.100 [m]
WARNING. gmdata: soil layer # 3; BDEN=9.45 kN/m^3 is inconsistent with PHI=27.50 degrees.
WARNING. gmdata: soil layer # 4;
minxyz: dimension ZTOP_LAY= 2.450000 [m] is not a multiple of 0.100 [m]
WARNING. gmdata: soil layer # 9;
minxyz: dimension ZTOP_LAY= 6.150000 [m] is not a multiple of 0.100 [m]
WARNING. gmdata: soil layer # 10;
minxyz: dimension ZTOP_LAY= 7.150000 [m] is not a multiple of 0.100 [m]
WARNING. gmdata: soil layer # 13; BDEN=8.35 kN/m^3 is inconsistent with PHI=35.00 degrees.
WARNING. gmdata: soil layer # 13; BDEN=8.35 kN/m^3 is inconsistent with PHI=35.00 degrees.
WARNING. spfdat: number of soil layers NUMSL > 10 in top 1.5B [?simplify ground model].

z_tip_penetration [m]: 3.70
out_sp_pen_sub: END — >

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