-
ANALISA STRUKTUR PONDASI
APARTEMEN BASSURA
BASUKI RACHMAT, JAKARTA TIMUR
SEPTEMBER 2013
DISIAPKAN OLEH :
PT. HAERTE WIDYA KONSULTAN JL. TAMAN ARIES BLOK E-1 / NO. 5A-B
JAKARTA BARAT 11610
PHONE : (62-21) 29319262 - 29319264 FAX : (021) 29319265
EMAIL : [email protected]
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APARTEMEN BASSURA
PT. HRT WIDYA KONSULTAN
LAPORAN PERHITUNGAN PONDASI
APARTEMEN BASSURA
Pada prinsipnya, sistim Pondasi tidak berubah dan tetap
menggunakan pondasi borepile sesuai
dengan yang sudah disetujui oleh pemeriksa TPKB struktur pondasi
sebelumnya, dengan daya dukung
tiang (diameter 1.0m , panjang effetif 12.0m) yang telah kami
konfirmasi ulang dengan hasil uji beban
tiang menggunkan system reaksi-pile dan PDA test oleh Geotech
Engineering (Bapak Aksan Kawanda).
Laporan Uji Beban terlampir.
Mempelajari hasil uji beban tersebut dapat diketahui bahwa daya
dukung tiang di dominasi oleh
perlawanan friksi dan melihat secara seksama st ruktur lapisan
tanah (data drilling log bor holes DB1-DB14
dan DPT S1-S24) yang relatif sama sampai kedalaman elevasi bor
40 m di bawah muka tanah yang ada.
Selanjutnya dalam perencanaan pondasi tiang bor sesuai dengan
kebutuhan beban aksial yang
terjadi pada masing-masing kolom dalam perhitungan pemeriksaan
pondasi tersebut telah dipergunakan
variasi ukuran diameter tiang 0.8 dan 1.0m dengan panjang
effektif tiang tetap 12.0m.
Hasil perhitungan/pengecheckan ulang pondasi menyeluruh mulai
dari tower A sampai Tower J secara
lengkap kami lampirkan pada laporan analisa pondasi, dan dari
hasil perhitungan pemeriksaan struktur
atas yang telah dikonsultasikan dan secara garis besar telah
disetujui oleh Bapak Dr.Ir Yuskar untuk
dilanjutkan pada pertemuan konsultasi tertanggal 19 September
2013) menghasilkan beberapa
penambahan jumlah tiang (Resume tabel terlampir).
COMPRESSION TENSION LATERAL
(kN) (kN) (kN)
2,800 700 100
3,500 900 150
DAYA DUKUNG RENCANA TIANG BOR
1000
TYPE OF PILE
(mm)
800
DENGAN LEFF = 12.0 m
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APARTEMEN BASSURA
PT. HRT WIDYA KONSULTAN
Untuk konfirmasi lanjut mengenai daya dukung ijin tekan, selain
dengan melakukan test pile
system reaksi-pile, kami juga merencanakan akan dilakukan test
pile dengan system kentledge dengan
beban 2.5 x beban tiang rencana.
Jakarta, 19 September 2013
Perencana Struktur,
Ir. Hadi Rusjanto, IPU
(PT. Haerte Widya Konsultan)
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APARTEMEN BASSURA
PT. HRT WIDYA KONSULTAN
RESUME PERHITUNGAN TIANG GROUP
# Daya dukung bore pile
Dia. Bore pile
Gravity Gempa Normal Gempa Besar
Tekan
(ton)
Tarik
(ton)
Tekan
(ton)
Tarik
(ton)
Tekan
(ton)
Tarik
(ton)
1000 340 -90 510 -135 680 -180
800 220 -70 330 -105 440 -140
# Gaya tekan/tarik aksial maksimum borepile pada pile group
kecil dengan single kolom yang ditinjau
pada masing-masing Tower.
Type
pilecap
Gravity Gempa Normal Gempa Besar
Tekan
(ton)
Tarik
(ton)
Ket. Tekan
(ton)
Tarik
(ton)
Ket. Tekan
(ton)
Tarik
(ton)
Ket.
Tower A
P1 -80 178 - OK 209 -2 OK 218 -83 OK
P2-80 217 - OK 264 - OK 301 - OK
P2-100 340 - OK 401 - OK 422 - OK
P3-100 244 - OK 280 - OK 288 - OK
Tower B
P1-80 185 - OK 223 -14 OK 246 -76 OK
P2-80 213 - OK 265 - OK 296 - OK
P3-80 216 - OK 255 - OK 257 - OK
P2-100 300 - OK 394 - OK 439 -37 OK
P3-100 260 - OK 297 - OK 382 -141 OK
Tower C
P1-80 157 - OK 175 - OK 200 - OK
P2-80 197 - OK 254 - OK 297 - OK
P2-100 312 - OK 391 - OK 511 -114 OK
P3-100 275 - OK 311 - OK 462 -162 OK
Tower
DE
P1-80 214 - OK 282 - OK 283 -93 OK
P2-80 129 - OK 152 - OK 168 -107 OK
P1-100 245 - OK 287 -56 OK 289 - OK
P2-100 300 - OK 345 - OK 382 - OK
P3-100 57 - OK 167 -65 OK 246 -165 OK
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APARTEMEN BASSURA
PT. HRT WIDYA KONSULTAN
Type
pilecap
Gravity Gempa Normal Gempa Besar
Tekan
(ton)
Tarik
(ton)
Ket. Tekan
(ton)
Tarik
(ton)
Ket. Tekan
(ton)
Tarik
(ton)
Ket.
Tower FG
P1-80 209 - OK 255 -12 OK 367 -103 OK
P2-80 175 - OK 190 - OK 227 -56 OK
P1-100 316 - OK 396 - OK 511 -21 OK
P2-100 303 - OK 393 -6 OK 613 -176 OK
P3-100 204 - OK 268 -48 OK 418 -149 OK
Tower H P1-100 135 - OK 161 - OK 174 -20 OK
P2-100 287 - OK 355 -33 OK 468 -155 OK
Tower J
P1-80 196 - OK 251 - OK 376 -80 OK
P2-80 176 - OK 207 - OK 208 - OK
P3-100 204 - OK 253 - OK 341 -33.3 OK
# Gaya tekan/tarik aksial maksimum borepile pada pile group
besar dengan beberapa kolom dan
shearwall yang ditinjau pada masing-masing Tower.
Type
pilecap
Gravity Gempa Normal Gempa Besar
Tekan
(ton)
Tarik
(ton)
Ket. Tekan
(ton)
Tarik
(ton)
Ket. Tekan
(ton)
Tarik
(ton)
Ket.
Tower A P18-100 288 - OK 331 - OK 582 - OK
Tower B P16-100 87 - OK 120 - OK 132 -125 OK
Tower C P18-100 288 - OK 331 - OK 582 - OK
Tower DE P28-100 239 - OK 507 - OK 411 -86.6 OK
Tower FG P10-100 323 - OK 421 - OK 523 -33.4 OK
Tower H P22-100 332 - OK 373 - OK 433 - OK
Tower J P14-100 153 - OK 224 -7.6 OK 320 -90 OK
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DAFTAR ISI APARTEMEN BASSURA
PT. HRT WIDYA KONSULTAN
DAFTAR ISI
LAPORAN ANALISA STRUKTUR PONDASI
1. ANALISA PERHITUNGAN PONDASI
2. DATA INPUT PEMBEBANAN PONDASI
3. ANALISA PERHITUNGAN TIANG GROUP
4. DATA INPUT PE
5. MBEBANAN TIANG GROUP
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APARTEMEN BASSURA
ANALISA PERHITUNGAN PONDASI
PT. HAERTE WIDYA KONSULTAN
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APARTEMEN BASSURA
RESUME PONDASI TOWER A
PT. HAERTE WIDYA KONSULTAN
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95
OK
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KO
K7
29
OK
105
OK
OK
35
3O
K3
53
OK
OK
79
27
41
OK
23
2O
K3
14O
K19
8O
KO
K3
43
OK
159
OK
OK
211
OK
211
OK
OK
N R
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(to
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Po
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CO
MB
O A
CO
MB
O B
CO
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CO
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79
27
41
OK
23
2O
K3
14O
K19
8O
KO
K3
43
OK
159
OK
OK
211
OK
211
OK
OK
91
180
1O
K15
5O
K2
07
OK
129
OK
OK
23
4O
K9
2O
KO
K13
1O
K13
1O
KO
K
92
63
OK
78
2O
K11
16O
K5
96
OK
OK
130
7O
K3
56
OK
OK
69
5O
K6
95
OK
OK
58
195
1O
K16
5O
K2
83
OK
65
OK
OK
417
OK
-69
OK
OK
133
OK
133
OK
OK
75
38
32
OK
32
8O
K4
83
OK
218
OK
OK
614
OK
80
OK
OK
32
3O
K3
23
OK
OK
82
20
91
OK
176
OK
28
0O
K9
7O
KO
K3
78
OK
-7O
KO
K14
0O
K14
0O
KO
K
92
30
01
OK
25
5O
K3
47
OK
211
OK
OK
38
9O
K15
6O
KO
K2
55
OK
25
5O
KO
K
97
211
1O
K18
0O
K2
63
OK
122
OK
OK
32
5O
K5
4O
KO
K17
2O
K17
2O
KO
K
99
114
1O
K9
7O
K12
0O
K9
5O
KO
K12
0O
K9
5O
KO
K9
4O
K9
4O
KO
K
1411
5O
K12
01
OK
177
7O
K8
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OK
OK
22
42
OK
30
9O
KO
K11
18O
K11
18O
KO
K
72
197
1O
K16
7O
K2
79
OK
73
OK
OK
40
7O
K-5
5O
KO
K13
1O
K13
1O
KO
K
76
38
32
OK
32
8O
K4
87
OK
210
OK
OK
62
8O
K6
4O
KO
K3
23
OK
32
3O
KO
K
83
199
1O
K16
7O
K2
58
OK
104
OK
OK
33
6O
K16
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OK
132
OK
132
OK
OK
3 5
P3
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0
P6
-10
0
P6
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0
83
199
1O
K16
7O
K2
58
OK
104
OK
OK
33
6O
K16
OK
OK
132
OK
132
OK
OK
93
30
41
OK
25
8O
K3
57
OK
20
6O
KO
K4
05
OK
142
OK
OK
25
7O
K2
57
OK
OK
98
210
1O
K17
9O
K2
59
OK
127
OK
OK
310
OK
69
OK
OK
172
OK
172
OK
OK
100
130
1O
K11
0O
K14
3O
K10
2O
KO
K15
0O
K9
3O
KO
K10
8O
K10
8O
KO
K
142
35
OK
1210
OK
178
4O
K8
22
OK
OK
22
38
OK
32
8O
KO
K11
23
OK
112
3O
KO
K
86
28
91
OK
24
3O
K3
40
OK
197
OK
OK
38
5O
K13
8O
KO
K2
02
OK
20
2O
KO
K
88
46
72
OK
39
3O
K5
68
OK
29
2O
KO
K6
69
OK
161
OK
OK
35
2O
K3
52
OK
OK
94
171
1O
K14
6O
K2
09
OK
107
OK
OK
25
5O
K5
3O
KO
K14
3O
K14
3O
KO
K
92
73
OK
78
3O
K11
18O
K5
96
OK
OK
130
8O
K3
52
OK
OK
69
7O
K6
97
OK
OK
108
39
52
OK
33
8O
K4
55
OK
28
1O
KO
K5
10O
K2
09
OK
OK
32
0O
K3
20
OK
OK
109
43
72
OK
37
0O
K5
48
OK
25
2O
KO
K6
78
OK
103
OK
OK
33
5O
K3
35
OK
OK
128
40
62
OK
34
5O
K5
32
OK
20
3O
KO
K7
04
OK
24
OK
OK
318
OK
318
OK
OK
134
26
01
OK
22
4O
K3
07
OK
173
OK
OK
36
8O
K10
4O
KO
K2
07
OK
20
7O
KO
K
5 3P
3-1
00
P6
-10
0
135
25
41
OK
219
OK
28
3O
K19
2O
KO
K3
07
OK
161
OK
OK
20
9O
K2
09
OK
OK
145
23
81
OK
20
6O
K2
66
OK
180
OK
OK
29
4O
K14
2O
KO
K19
2O
K19
2O
KO
K
146
23
31
OK
20
2O
K2
50
OK
189
OK
OK
26
4O
K17
1O
KO
K19
2O
K19
2O
KO
K
162
38
02
OK
32
4O
K4
86
OK
20
7O
KO
K6
25
OK
59
OK
OK
29
5O
K2
95
OK
OK
171
23
61
OK
20
4O
K2
72
OK
166
OK
OK
317
OK
114
OK
OK
189
OK
189
OK
OK
172
23
01
OK
20
0O
K2
49
OK
185
OK
OK
26
2O
K16
7O
KO
K19
0O
K19
0O
KO
K
176
38
92
OK
33
0O
K5
39
OK
158
OK
OK
75
6O
K-6
0O
KO
K2
83
OK
28
3O
KO
K
186
144
1O
K12
4O
K17
3O
K9
1O
KO
K2
19O
K4
3O
KO
K11
8O
K11
8O
KO
K
188
36
02
OK
310
OK
42
5O
K2
42
OK
OK
50
0O
K15
5O
KO
K2
95
OK
29
5O
KO
K
189
214
1O
K18
5O
K2
58
OK
137
OK
OK
315
OK
74
OK
OK
179
OK
179
OK
OK
417
613
OK
35
80
OK
50
43
OK
26
57
OK
OK
611
8O
K14
66
OK
OK
33
22
OK
33
22
OK
OK
13P
18-1
00
-
TO
WE
R A
- P
ag
e 3
TIP
E P
ON
DA
SI
TE
KA
NT
AR
IKT
EK
AN
TA
RIK
BO
RE
PIL
E(t
on
)(t
on
)(t
on
)(t
on
)
1
00
0m
m340
-90
34
0-9
0
8
00
mm
220
-70
22
0-7
0
TE
KA
N
MA
Xn
TIA
NG
ST
AT
US
T
AR
IK
MA
XS
TA
TU
S
TE
KA
N
MA
XS
TA
TU
S
TA
RIK
MA
X
ST
AT
US
(NC
OM
BO
A)
ST
AT
US
(NC
OM
BO
B)
TE
KA
N
MA
XS
TA
TU
S
TA
RIK
MA
X
ST
AT
US
(NC
OM
BO
A)
ST
AT
US
(NC
OM
BO
C)
TE
KA
N
MA
XS
TA
TU
S
TA
RIK
MA
X
ST
AT
US
(NC
OM
BO
A)
ST
AT
US
(NC
OM
BO
D)
N R
esu
lt
TE
KA
NT
AR
IKT
EK
AN
TA
RIK
(to
n)
(to
n)
(to
n)
(to
n)
(to
n)
Da
ya
Dk
g P
on
da
siC
OM
BO
AC
OM
BO
BC
OM
BO
CC
OM
BO
D
N D
raw
33
0-1
05
44
0-1
40
33
0-1
05
510
-13
56
80
-18
05
10-1
35
TE
KA
NT
AR
IK
(to
n)
Po
int
CO
MB
O A
CO
MB
O B
CO
MB
O C
CO
MB
O D
114
43
62
OK
36
9O
K5
52
OK
24
5O
KO
K6
93
OK
87
OK
OK
33
5O
K3
35
OK
OK
115
39
42
OK
33
7O
K4
59
OK
27
4O
KO
K5
19O
K19
3O
KO
K3
20
OK
32
0O
KO
K11
53
94
2O
K3
37
OK
45
9O
K2
74
OK
OK
519
OK
193
OK
OK
32
0O
K3
20
OK
OK
133
40
12
OK
34
2O
K5
16O
K2
13O
KO
K6
71
OK
51
OK
OK
315
OK
315
OK
OK
136
25
61
OK
22
0O
K2
85
OK
194
OK
OK
30
9O
K16
3O
KO
K2
10O
K2
10O
KO
K
137
26
11
OK
22
5O
K3
13O
K16
9O
KO
K3
80
OK
94
OK
OK
20
9O
K2
09
OK
OK
147
23
31
OK
20
2O
K2
44
OK
198
OK
OK
25
1O
K18
9O
KO
K19
2O
K19
2O
KO
K
148
23
81
OK
20
6O
K2
67
OK
178
OK
OK
29
7O
K13
8O
KO
K19
1O
K19
1O
KO
K
169
37
92
OK
32
3O
K4
89
OK
199
OK
OK
63
8O
K4
3O
KO
K2
93
OK
29
3O
KO
K
173
23
11
OK
20
0O
K2
46
OK
189
OK
OK
25
3O
K18
1O
KO
K19
0O
K19
0O
KO
K
174
23
51
OK
20
4O
K2
73
OK
164
OK
OK
32
0O
K11
0O
KO
K18
9O
K18
9O
KO
K
179
38
72
OK
32
8O
K5
29
OK
165
OK
OK
73
5O
K-4
2O
KO
K2
81
OK
28
1O
KO
K
192
211
1O
K18
2O
K2
45
OK
148
OK
OK
28
2O
K10
3O
KO
K17
8O
K17
8O
KO
K
193
36
12
OK
311
OK
419
OK
25
2O
KO
K4
80
OK
177
OK
OK
29
4O
K2
94
OK
OK
195
143
1O
K12
3O
K17
6O
K8
6O
KO
K2
23
OK
37
OK
OK
118
OK
118
OK
OK
416
613
OK
35
72
OK
50
13O
K2
67
4O
KO
K6
04
9O
K15
22
OK
OK
33
14O
K3
314
OK
OK
13P
18-1
00
24
44
99
2O
K4
23
OK
59
2O
K3
33
OK
OK
67
7O
K2
19O
KO
K3
90
OK
39
0O
KO
K
24
54
98
2O
K4
22
OK
57
7O
K3
52
OK
OK
64
3O
K2
63
OK
OK
39
0O
K3
90
OK
OK
99
83
OK
84
6O
K11
69
OK
68
5O
KO
K13
21
OK
48
2O
KO
K7
80
OK
78
0O
KO
K
24
84
97
2O
K4
22
OK
57
7O
K3
49
OK
OK
64
6O
K2
57
OK
OK
38
9O
K3
89
OK
OK
24
95
00
2O
K4
24
OK
59
1O
K3
37
OK
OK
67
3O
K2
27
OK
OK
39
1O
K3
91
OK
OK
99
83
OK
84
6O
K11
68
OK
68
6O
KO
K13
20
OK
48
4O
KO
K7
80
OK
78
0O
KO
K
26
74
59
2O
K3
91
OK
55
3O
K2
94
OK
OK
65
4O
K17
1O
KO
K3
65
OK
36
5O
KO
K
26
84
63
2O
K3
94
OK
54
5O
K3
14O
KO
K6
22
OK
211
OK
OK
36
8O
K3
68
OK
OK
27
84
55
2O
K3
88
OK
54
7O
K2
94
OK
OK
64
3O
K17
5O
KO
K3
61
OK
36
1O
KO
K
27
94
59
2O
K3
91
OK
54
2O
K3
08
OK
OK
62
1O
K2
04
OK
OK
36
4O
K3
64
OK
OK
183
66
OK
156
4O
K2
187
OK
1210
OK
OK
25
40
OK
76
2O
KO
K14
58
OK
145
8O
KO
K
63 3
P9
-10
0
P6
-10
0
P6
-10
0
27
34
62
2O
K3
94
OK
54
7O
K3
09
OK
OK
63
0O
K2
01
OK
OK
36
7O
K3
67
OK
OK
27
44
60
2O
K3
92
OK
55
0O
K3
01
OK
OK
64
2O
K18
5O
KO
K3
66
OK
36
6O
KO
K
28
24
58
2O
K3
90
OK
53
7O
K3
14O
KO
K6
10O
K2
16O
KO
K3
64
OK
36
4O
KO
K
28
34
56
2O
K3
89
OK
55
2O
K2
90
OK
OK
65
5O
K16
6O
KO
K3
62
OK
36
2O
KO
K
183
76
OK
156
5O
K2
187
OK
1214
OK
OK
25
36
OK
76
9O
KO
K14
59
OK
145
9O
KO
K
33
82
181
OK
187
OK
24
3O
K16
5O
KO
K2
58
OK
145
OK
OK
181
OK
181
OK
OK
33
92
34
1O
K2
00
OK
25
6O
K18
4O
KO
K2
70
OK
166
OK
OK
194
OK
194
OK
OK
35
03
65
2O
K3
14O
K4
18O
K2
62
OK
OK
46
6O
K19
7O
KO
K3
12O
K3
12O
KO
K
35
13
96
2O
K3
38
OK
43
2O
K3
15O
KO
K4
54
OK
28
6O
KO
K3
36
OK
33
6O
KO
K
35
82
00
1O
K16
8O
K2
69
OK
90
OK
OK
36
7O
K-1
2O
KO
K12
8O
K12
8O
KO
K
35
94
53
2O
K3
86
OK
54
8O
K2
85
OK
OK
65
4O
K16
1O
KO
K3
65
OK
36
5O
KO
K
36
12
87
1O
K2
43
OK
34
4O
K18
3O
KO
K3
94
OK
120
OK
OK
216
OK
216
OK
OK
36
416
71
OK
142
OK
22
5O
K6
8O
KO
K3
19O
K-2
6O
KO
K12
0O
K12
0O
KO
K
36
518
21
OK
154
OK
23
6O
K8
6O
KO
K3
17O
K1
OK
OK
124
OK
124
OK
OK
6 11P
12-1
00
P9
-10
0
36
518
21
OK
154
OK
23
6O
K8
6O
KO
K3
17O
K1
OK
OK
124
OK
124
OK
OK
36
72
87
1O
K2
44
OK
33
9O
K19
2O
KO
K3
82
OK
137
OK
OK
22
9O
K2
29
OK
OK
36
94
86
2O
K4
12O
K5
76
OK
32
5O
KO
K6
58
OK
216
OK
OK
37
3O
K3
73
OK
OK
37
019
41
OK
164
OK
25
7O
K8
6O
KO
K3
49
OK
-5O
KO
K13
7O
K13
7O
KO
K
34
68
11O
K2
95
4O
K4
143
OK
22
42
OK
OK
48
86
OK
138
6O
KO
K2
714
OK
27
14O
KO
K
-
TO
WE
R A
- P
ag
e 4
TIP
E P
ON
DA
SI
TE
KA
NT
AR
IKT
EK
AN
TA
RIK
BO
RE
PIL
E(t
on
)(t
on
)(t
on
)(t
on
)
1
00
0m
m340
-90
34
0-9
0
8
00
mm
220
-70
22
0-7
0
TE
KA
N
MA
Xn
TIA
NG
ST
AT
US
T
AR
IK
MA
XS
TA
TU
S
TE
KA
N
MA
XS
TA
TU
S
TA
RIK
MA
X
ST
AT
US
(NC
OM
BO
A)
ST
AT
US
(NC
OM
BO
B)
TE
KA
N
MA
XS
TA
TU
S
TA
RIK
MA
X
ST
AT
US
(NC
OM
BO
A)
ST
AT
US
(NC
OM
BO
C)
TE
KA
N
MA
XS
TA
TU
S
TA
RIK
MA
X
ST
AT
US
(NC
OM
BO
A)
ST
AT
US
(NC
OM
BO
D)
N R
esu
lt
TE
KA
NT
AR
IKT
EK
AN
TA
RIK
(to
n)
(to
n)
(to
n)
(to
n)
(to
n)
Da
ya
Dk
g P
on
da
siC
OM
BO
AC
OM
BO
BC
OM
BO
CC
OM
BO
D
N D
raw
33
0-1
05
44
0-1
40
33
0-1
05
510
-13
56
80
-18
05
10-1
35
TE
KA
NT
AR
IK
(to
n)
Po
int
CO
MB
O A
CO
MB
O B
CO
MB
O C
CO
MB
O D
34
02
151
OK
185
OK
23
8O
K16
6O
KO
K2
50
OK
150
OK
OK
179
OK
179
OK
OK
34
12
30
1O
K19
7O
K2
54
OK
178
OK
OK
27
1O
K15
5O
KO
K19
1O
K19
1O
KO
K3
41
23
01
OK
197
OK
25
4O
K17
8O
KO
K2
71
OK
155
OK
OK
191
OK
191
OK
OK
35
23
61
2O
K3
11O
K4
19O
K2
52
OK
OK
47
6O
K17
9O
KO
K3
09
OK
30
9O
KO
K
35
33
89
2O
K3
33
OK
43
9O
K2
89
OK
OK
47
9O
K2
34
OK
OK
33
1O
K3
31
OK
OK
37
619
61
OK
167
OK
26
2O
K8
6O
KO
K3
64
OK
-11
OK
OK
145
OK
145
OK
OK
37
75
07
2O
K4
29
OK
60
3O
K3
35
OK
OK
69
1O
K2
18O
KO
K3
79
OK
37
9O
KO
K
37
92
96
1O
K2
52
OK
35
1O
K19
5O
KO
K3
98
OK
136
OK
OK
23
7O
K2
37
OK
OK
38
116
81
OK
143
OK
22
5O
K6
0O
KO
K3
18O
K-3
2O
KO
K11
8O
K11
8O
KO
K
38
217
21
OK
147
OK
23
0O
K6
3O
KO
K3
23
OK
-30
OK
OK
126
OK
126
OK
OK
38
32
97
1O
K2
50
OK
35
9O
K17
2O
KO
K4
12O
K10
4O
KO
K2
10O
K2
10O
KO
K
38
54
60
2O
K3
91
OK
56
0O
K2
70
OK
OK
66
6O
K14
4O
KO
K3
68
OK
36
8O
KO
K
38
619
91
OK
167
OK
27
2O
K6
5O
KO
K3
78
OK
-46
OK
OK
130
OK
130
OK
OK
34
90
11O
K2
97
1O
K4
212
OK
212
9O
KO
K5
02
5O
K12
01
OK
OK
27
21
OK
27
21
OK
OK
21
74
1O
K5
0O
K10
9O
K-2
OK
OK
181
OK
-75
OK
OK
31
OK
31
OK
OK
1P
1-8
0
22
167
1O
K9
4O
K15
2O
K9
3O
KO
K15
3O
K9
2O
KO
K3
8O
K3
8O
KO
K1
P1-
80
11P
12-1
00
22
167
1O
K9
4O
K15
2O
K9
3O
KO
K15
3O
K9
2O
KO
K3
8O
K3
8O
KO
K1
P1-
80
24
161
1O
K11
7O
K19
0O
K11
6O
KO
K19
1O
K11
4O
KO
K5
3O
K5
3O
KO
K1
P1-
80
27
136
1O
K9
9O
K15
9O
K9
8O
KO
K16
0O
K9
7O
KO
K4
4O
K4
4O
KO
K1
P1-
80
32
137
1O
K10
0O
K16
0O
K10
0O
KO
K16
1O
K9
9O
KO
K4
5O
K4
5O
KO
K1
P1-
80
34
144
1O
K10
5O
K16
8O
K10
4O
KO
K16
9O
K10
4O
KO
K4
8O
K4
8O
KO
K1
P1-
80
36
124
1O
K9
0O
K14
6O
K8
8O
KO
K14
7O
K8
6O
KO
K3
7O
K3
7O
KO
K1
P1-
80
37
81
1O
K6
4O
K13
6O
K3
OK
OK
218
OK
-83
OK
OK
44
OK
44
OK
OK
1P
1-8
0
38
43
42
OK
35
6O
K5
27
OK
27
7O
KO
K6
01
OK
177
OK
OK
28
9O
K2
89
OK
OK
2P
2-8
0
41
37
32
OK
30
7O
K4
34
OK
26
1O
KO
K4
77
OK
20
4O
KO
K2
72
OK
27
2O
KO
K2
P2
-80
42
40
32
OK
33
2O
K4
89
OK
25
8O
KO
K5
59
OK
165
OK
OK
29
2O
K2
92
OK
OK
2P
2-8
0
56
76
1O
K6
0O
K9
0O
K5
4O
KO
K9
6O
K4
5O
KO
K3
5O
K3
5O
KO
K1
P1-
80
57
133
1O
K9
7O
K15
6O
K9
6O
KO
K15
7O
K9
6O
KO
K4
5O
K4
5O
KO
K1
P1-
80
60
62
02
OK
52
1O
K7
25
OK
43
1O
KO
K8
10O
K3
17O
KO
K4
70
OK
47
0O
KO
K2
P3
-10
0
62
53
82
OK
45
2O
K5
94
OK
418
OK
OK
62
6O
K3
76
OK
OK
40
8O
K4
08
OK
OK
2P
2-1
00
64
60
82
OK
511
OK
68
5O
K4
55
OK
OK
73
8O
K3
84
OK
OK
46
4O
K4
64
OK
OK
2P
2-1
00
65
611
2O
K5
13O
K6
89
OK
45
7O
KO
K7
42
OK
38
6O
KO
K4
66
OK
46
6O
KO
K2
P3
-10
0
68
53
72
OK
45
2O
K5
94
OK
416
OK
OK
62
8O
K3
71
OK
OK
40
9O
K4
09
OK
OK
2P
2-1
00
70
62
22
OK
52
2O
K7
27
OK
43
2O
KO
K8
12O
K3
18O
KO
K4
72
OK
47
2O
KO
K2
P3
-10
0
90
112
1O
K8
6O
K13
2O
K7
9O
KO
K14
0O
K6
8O
KO
K4
7O
K4
7O
KO
K1
P1-
80
110
50
12
OK
42
5O
K5
88
OK
34
3O
KO
K6
65
OK
24
0O
KO
K3
92
OK
39
2O
KO
K2
P2
-10
0
111
55
12
OK
46
7O
K6
37
OK
39
0O
KO
K7
10O
K2
92
OK
OK
43
1O
K4
31
OK
OK
2P
2-1
00
112
55
12
OK
46
7O
K6
39
OK
38
6O
KO
K7
15O
K2
85
OK
OK
43
0O
K4
30
OK
OK
2P
2-1
00
113
50
12
OK
42
4O
K5
89
OK
34
2O
KO
K6
67
OK
23
7O
KO
K3
91
OK
39
1O
KO
K2
P2
-10
0
117
85
1O
K6
6O
K9
6O
K6
4O
KO
K9
8O
K6
1O
KO
K3
9O
K3
9O
KO
K1
P1-
80
118
154
1O
K11
2O
K18
1O
K11
2O
KO
K18
1O
K11
1O
KO
K4
0O
K4
0O
KO
K1
P1-
80
121
62
92
OK
52
6O
K7
34
OK
43
8O
KO
K8
17O
K3
27
OK
OK
46
9O
K4
69
OK
OK
2P
2-1
00
122
44
32
OK
37
6O
K5
37
OK
27
9O
KO
K6
38
OK
157
OK
OK
34
5O
K3
45
OK
OK
2P
2-1
00
125
44
52
OK
37
8O
K5
44
OK
27
5O
KO
K6
52
OK
146
OK
OK
34
5O
K3
45
OK
OK
2P
2-1
00
126
614
2O
K5
16O
K7
15O
K4
30
OK
OK
79
7O
K3
21
OK
OK
46
1O
K4
61
OK
OK
2P
2-1
00
127
117
1O
K9
0O
K13
3O
K8
9O
KO
K13
4O
K8
7O
KO
K4
6O
K4
6O
KO
K1
P1-
80
127
117
1O
K9
0O
K13
3O
K8
9O
KO
K13
4O
K8
7O
KO
K4
6O
K4
6O
KO
K1
P1-
80
129
49
82
OK
42
2O
K5
78
OK
34
8O
KO
K6
48
OK
25
5O
KO
K3
89
OK
38
9O
KO
K2
P2
-10
0
130
54
12
OK
45
9O
K6
26
OK
38
1O
KO
K7
00
OK
28
2O
KO
K4
23
OK
42
3O
KO
K2
P2
-10
0
131
54
02
OK
45
9O
K6
22
OK
38
5O
KO
K6
93
OK
29
1O
KO
K4
23
OK
42
3O
KO
K2
P2
-10
0
132
49
72
OK
42
2O
K5
75
OK
35
3O
KO
K6
40
OK
26
5O
KO
K3
89
OK
38
9O
KO
K2
P2
-10
0
-
TO
WE
R A
- P
ag
e 5
TIP
E P
ON
DA
SI
TE
KA
NT
AR
IKT
EK
AN
TA
RIK
BO
RE
PIL
E(t
on
)(t
on
)(t
on
)(t
on
)
1
00
0m
m340
-90
34
0-9
0
8
00
mm
220
-70
22
0-7
0
TE
KA
N
MA
Xn
TIA
NG
ST
AT
US
T
AR
IK
MA
XS
TA
TU
S
TE
KA
N
MA
XS
TA
TU
S
TA
RIK
MA
X
ST
AT
US
(NC
OM
BO
A)
ST
AT
US
(NC
OM
BO
B)
TE
KA
N
MA
XS
TA
TU
S
TA
RIK
MA
X
ST
AT
US
(NC
OM
BO
A)
ST
AT
US
(NC
OM
BO
C)
TE
KA
N
MA
XS
TA
TU
S
TA
RIK
MA
X
ST
AT
US
(NC
OM
BO
A)
ST
AT
US
(NC
OM
BO
D)
N R
esu
lt
TE
KA
NT
AR
IKT
EK
AN
TA
RIK
(to
n)
(to
n)
(to
n)
(to
n)
(to
n)
Da
ya
Dk
g P
on
da
siC
OM
BO
AC
OM
BO
BC
OM
BO
CC
OM
BO
D
N D
raw
33
0-1
05
44
0-1
40
33
0-1
05
510
-13
56
80
-18
05
10-1
35
TE
KA
NT
AR
IK
(to
n)
Po
int
CO
MB
O A
CO
MB
O B
CO
MB
O C
CO
MB
O D
149
63
22
OK
53
1O
K7
36
OK
44
1O
KO
K8
21
OK
32
8O
KO
K4
75
OK
47
5O
KO
K2
P2
-10
0
150
47
62
OK
40
4O
K5
42
OK
34
7O
KO
K5
95
OK
27
6O
KO
K3
72
OK
37
2O
KO
K2
P2
-10
0
153
47
52
OK
40
3O
K5
42
OK
34
6O
KO
K5
97
OK
27
3O
KO
K3
73
OK
37
3O
KO
K2
P2
-10
015
34
75
2O
K4
03
OK
54
2O
K3
46
OK
OK
59
7O
K2
73
OK
OK
37
3O
K3
73
OK
OK
2P
2-1
00
154
62
82
OK
52
8O
K7
32
OK
43
8O
KO
K8
17O
K3
25
OK
OK
47
8O
K4
78
OK
OK
2P
2-1
00
156
136
1O
K10
4O
K15
5O
K10
2O
KO
K15
7O
K9
9O
KO
K5
2O
K5
2O
KO
K1
P1-
80
157
97
1O
K7
5O
K11
0O
K7
3O
KO
K11
1O
K7
1O
KO
K4
4O
K4
4O
KO
K1
P1-
80
158
174
1O
K12
6O
K2
04
OK
126
OK
OK
20
4O
K12
6O
KO
K3
7O
K3
7O
KO
K1
P1-
80
163
613
2O
K5
15O
K6
89
OK
46
1O
KO
K7
40
OK
39
4O
KO
K4
71
OK
47
1O
KO
K2
P2
-10
0
165
69
93
OK
58
7O
K7
86
OK
52
6O
KO
K8
43
OK
45
0O
KO
K5
23
OK
52
3O
KO
K3
P2
-10
0
166
69
93
OK
58
7O
K7
85
OK
52
8O
KO
K8
41
OK
45
3O
KO
K5
23
OK
52
3O
KO
K3
P2
-10
0
168
613
2O
K5
15O
K6
88
OK
46
2O
KO
K7
38
OK
39
7O
KO
K4
71
OK
47
1O
KO
K2
P2
-10
0
184
62
12
OK
52
1O
K7
29
OK
42
5O
KO
K8
19O
K3
05
OK
OK
47
8O
K4
78
OK
OK
2P
2-1
00
185
44
02
OK
37
4O
K5
65
OK
23
7O
KO
K7
26
OK
64
OK
OK
34
3O
K3
43
OK
OK
2P
2-1
00
196
44
42
OK
37
7O
K5
70
OK
23
7O
KO
K7
35
OK
60
OK
OK
34
6O
K3
46
OK
OK
2P
2-1
00
197
62
42
OK
52
4O
K7
33
OK
42
8O
KO
K8
24
OK
30
7O
KO
K4
70
OK
47
0O
KO
K2
P2
-10
0
212
148
1O
K11
2O
K16
9O
K11
1O
KO
K17
1O
K10
9O
KO
K5
5O
K5
5O
KO
K1
P1-
80
213
97
1O
K7
5O
K11
0O
K7
4O
KO
K11
2O
K7
2O
KO
K4
4O
K4
4O
KO
K1
P1-
80
213
97
1O
K7
5O
K11
0O
K7
4O
KO
K11
2O
K7
2O
KO
K4
4O
K4
4O
KO
K1
P1-
80
214
174
1O
K12
6O
K2
03
OK
126
OK
OK
20
3O
K12
6O
KO
K3
8O
K3
8O
KO
K1
P1-
80
217
62
92
OK
52
8O
K7
37
OK
43
3O
KO
K8
27
OK
313
OK
OK
47
5O
K4
75
OK
OK
2P
3-1
00
218
49
12
OK
416
OK
59
1O
K3
15O
KO
K6
90
OK
188
OK
OK
38
3O
K3
83
OK
OK
2P
2-1
00
219
48
92
OK
415
OK
55
6O
K3
59
OK
OK
60
9O
K2
89
OK
OK
38
2O
K3
82
OK
OK
2P
2-1
00
22
06
44
2O
K5
40
OK
74
3O
K4
60
OK
OK
819
OK
35
9O
KO
K4
79
OK
47
9O
KO
K2
P3
-10
0
22
17
153
OK
54
7O
K8
17O
K5
36
OK
OK
82
8O
K5
21
OK
OK
42
5O
K4
25
OK
OK
3P
3-1
00
22
27
153
OK
54
8O
K8
17O
K5
35
OK
OK
82
9O
K5
20
OK
OK
42
5O
K4
25
OK
OK
3P
3-1
00
22
36
43
2O
K5
39
OK
74
3O
K4
58
OK
OK
82
0O
K3
56
OK
OK
47
8O
K4
78
OK
OK
2P
3-1
00
22
44
88
2O
K4
14O
K5
54
OK
35
9O
KO
K6
06
OK
29
0O
KO
K3
81
OK
38
1O
KO
K2
P2
-10
0
22
54
92
2O
K4
17O
K5
94
OK
315
OK
OK
69
4O
K18
6O
KO
K3
84
OK
38
4O
KO
K2
P2
-10
0
22
66
25
2O
K5
25
OK
73
3O
K4
31
OK
OK
82
2O
K3
11O
KO
K4
75
OK
47
5O
KO
K2
P3
-10
0
24
36
21
2O
K5
21
OK
73
0O
K4
26
OK
OK
82
0O
K3
06
OK
OK
46
7O
K4
67
OK
OK
2P
3-1
00
24
66
33
2O
K5
32
OK
73
0O
K4
51
OK
OK
80
6O
K3
49
OK
OK
48
0O
K4
80
OK
OK
2P
3-1
00
24
76
31
2O
K5
31
OK
72
9O
K4
49
OK
OK
80
7O
K3
46
OK
OK
47
8O
K4
78
OK
OK
2P
3-1
00
25
06
172
OK
518
OK
72
3O
K4
26
OK
OK
811
OK
30
9O
KO
K4
68
OK
46
8O
KO
K2
P3
-10
0
25
26
35
2O
K4
87
OK
73
1O
K4
67
OK
OK
75
0O
K4
43
OK
OK
38
2O
K3
82
OK
OK
2P
3-1
00
25
36
35
2O
K4
87
OK
73
0O
K4
69
OK
OK
74
8O
K4
45
OK
OK
38
2O
K3
82
OK
OK
2P
3-1
00
25
614
71
OK
112
OK
168
OK
110
OK
OK
169
OK
108
OK
OK
54
OK
54
OK
OK
1P
1-8
0
25
79
71
OK
75
OK
110
OK
73
OK
OK
111
OK
72
OK
OK
44
OK
44
OK
OK
1P
1-8
0
25
817
21
OK
125
OK
20
1O
K12
5O
KO
K2
01
OK
124
OK
OK
38
OK
38
OK
OK
1P
1-8
0
26
65
43
2O
K4
57
OK
65
3O
K3
51
OK
OK
75
4O
K2
17O
KO
K4
25
OK
42
5O
KO
K2
P2
-10
0
26
95
89
2O
K5
01
OK
68
3O
K4
14O
KO
K7
65
OK
30
4O
KO
K4
53
OK
45
3O
KO
K2
P2
-10
0
27
25
87
2O
K5
00
OK
68
5O
K4
07
OK
OK
77
3O
K2
90
OK
OK
45
1O
K4
51
OK
OK
2P
2-1
00
27
55
49
2O
K4
62
OK
65
5O
K3
61
OK
OK
75
1O
K2
33
OK
OK
417
OK
417
OK
OK
2P
2-1
00
27
75
49
2O
K4
62
OK
65
6O
K3
62
OK
OK
75
1O
K2
35
OK
OK
412
OK
412
OK
OK
2P
2-1
00
28
06
23
2O
K5
26
OK
72
5O
K4
34
OK
OK
812
OK
318
OK
OK
48
5O
K4
85
OK
OK
2P
2-1
00
28
16
25
2O
K5
28
OK
72
2O
K4
42
OK
OK
80
3O
K3
34
OK
OK
48
7O
K4
87
OK
OK
2P
2-1
00
28
45
41
2O
K4
56
OK
64
9O
K3
52
OK
OK
74
8O
K2
20
OK
OK
416
OK
416
OK
OK
2P
2-1
00
28
66
79
2O
K5
33
OK
80
2O
K5
10O
KO
K8
23
OK
48
2O
KO
K4
18O
K4
18O
KO
K2
P2
-10
02
86
67
92
OK
53
3O
K8
02
OK
510
OK
OK
82
3O
K4
82
OK
OK
418
OK
418
OK
OK
2P
2-1
00
28
76
79
2O
K5
33
OK
80
1O
K5
11O
KO
K8
21
OK
48
4O
KO
K4
18O
K4
18O
KO
K2
P2
-10
0
29
014
51
OK
111
OK
166
OK
109
OK
OK
168
OK
107
OK
OK
54
OK
54
OK
OK
1P
1-8
0
29
19
71
OK
75
OK
110
OK
73
OK
OK
111
OK
72
OK
OK
44
OK
44
OK
OK
1P
1-8
0
29
216
91
OK
123
OK
198
OK
122
OK
OK
198
OK
122
OK
OK
36
OK
36
OK
OK
1P
1-8
0
-
TO
WE
R A
- P
ag
e 6
TIP
E P
ON
DA
SI
TE
KA
NT
AR
IKT
EK
AN
TA
RIK
BO
RE
PIL
E(t
on
)(t
on
)(t
on
)(t
on
)
1
00
0m
m340
-90
34
0-9
0
8
00
mm
220
-70
22
0-7
0
TE
KA
N
MA
Xn
TIA
NG
ST
AT
US
T
AR
IK
MA
XS
TA
TU
S
TE
KA
N
MA
XS
TA
TU
S
TA
RIK
MA
X
ST
AT
US
(NC
OM
BO
A)
ST
AT
US
(NC
OM
BO
B)
TE
KA
N
MA
XS
TA
TU
S
TA
RIK
MA
X
ST
AT
US
(NC
OM
BO
A)
ST
AT
US
(NC
OM
BO
C)
TE
KA
N
MA
XS
TA
TU
S
TA
RIK
MA
X
ST
AT
US
(NC
OM
BO
A)
ST
AT
US
(NC
OM
BO
D)
N R
esu
lt
TE
KA
NT
AR
IKT
EK
AN
TA
RIK
(to
n)
(to
n)
(to
n)
(to
n)
(to
n)
Da
ya
Dk
g P
on
da
siC
OM
BO
AC
OM
BO
BC
OM
BO
CC
OM
BO
D
N D
raw
33
0-1
05
44
0-1
40
33
0-1
05
510
-13
56
80
-18
05
10-1
35
TE
KA
NT
AR
IK
(to
n)
Po
int
CO
MB
O A
CO
MB
O B
CO
MB
O C
CO
MB
O D
30
36
112
OK
513
OK
718
OK
418
OK
OK
80
7O
K2
99
OK
OK
46
9O
K4
69
OK
OK
2P
3-1
00
30
44
86
2O
K4
12O
K5
76
OK
32
4O
KO
K6
59
OK
214
OK
OK
37
9O
K3
79
OK
OK
2P
2-1
00
30
54
86
2O
K4
12O
K5
65
OK
33
9O
KO
K6
34
OK
24
7O
KO
K3
79
OK
37
9O
KO
K2
P2
-10
03
05
48
62
OK
412
OK
56
5O
K3
39
OK
OK
63
4O
K2
47
OK
OK
37
9O
K3
79
OK
OK
2P
2-1
00
30
66
07
2O
K5
12O
K7
06
OK
42
4O
KO
K7
90
OK
312
OK
OK
45
9O
K4
59
OK
OK
2P
3-1
00
30
76
07
2O
K5
12O
K7
06
OK
42
4O
KO
K7
90
OK
311
OK
OK
45
9O
K4
59
OK
OK
2P
3-1
00
30
84
85
2O
K4
11O
K5
66
OK
33
6O
KO
K6
38
OK
24
1O
KO
K3
78
OK
37
8O
KO
K2
P2
-10
0
30
94
87
2O
K4
13O
K5
75
OK
32
9O
KO
K6
55
OK
22
3O
KO
K3
80
OK
38
0O
KO
K2
P2
-10
0
310
612
2O
K5
13O
K7
20
OK
418
OK
OK
810
OK
29
7O
KO
K4
64
OK
46
4O
KO
K2
P3
-10
0
312
73
13
OK
55
8O
K8
40
OK
54
2O
KO
K8
56
OK
52
1O
KO
K4
37
OK
43
7O
KO
K3
P3
-10
0
313
73
03
OK
55
8O
K8
40
OK
54
1O
KO
K8
55
OK
52
1O
KO
K4
36
OK
43
6O
KO
K3
P3
-10
0
316
151
1O
K11
5O
K17
3O
K11
3O
KO
K17
5O
K11
1O
KO
K5
4O
K5
4O
KO
K1
P1-
80
317
100
1O
K7
7O
K11
4O
K7
6O
KO
K11
5O
K7
4O
KO
K4
6O
K4
6O
KO
K1
P1-
80
318
179
1O
K13
0O
K2
09
OK
130
OK
OK
210
OK
130
OK
OK
39
OK
39
OK
OK
1P
1-8
0
32
16
47
2O
K5
42
OK
76
2O
K4
41
OK
OK
85
7O
K3
15O
KO
K4
86
OK
48
6O
KO
K2
P3
-10
0
32
24
24
2O
K3
61
OK
54
8O
K2
23
OK
OK
714
OK
48
OK
OK
32
8O
K3
28
OK
OK
2P
2-1
00
32
34
26
2O
K3
62
OK
53
8O
K2
39
OK
OK
68
2O
K8
2O
KO
K3
29
OK
32
9O
KO
K2
P2
-10
0
32
46
54
2O
K5
48
OK
76
2O
K4
57
OK
OK
84
9O
K3
42
OK
OK
49
0O
K4
90
OK
OK
2P
3-1
00
32
46
54
2O
K5
48
OK
76
2O
K4
57
OK
OK
84
9O
K3
42
OK
OK
49
0O
K4
90
OK
OK
2P
3-1
00
32
56
54
2O
K5
48
OK
76
0O
K4
60
OK
OK
84
3O
K3
49
OK
OK
49
1O
K4
91
OK
OK
2P
3-1
00
32
64
21
2O
K3
59
OK
53
9O
K2
28
OK
OK
69
4O
K6
3O
KO
K3
26
OK
32
6O
KO
K2
P2
-10
0
32
74
25
2O
K3
62
OK
53
2O
K2
46
OK
OK
66
3O
K10
0O
KO
K3
29
OK
32
9O
KO
K2
P2
-10
0
32
86
43
2O
K5
38
OK
75
8O
K4
37
OK
OK
85
4O
K3
09
OK
OK
48
2O
K4
82
OK
OK
2P
3-1
00
35
49
41
OK
72
OK
106
OK
70
OK
OK
107
OK
69
OK
OK
42
OK
42
OK
OK
1P
1-8
0
35
515
11
OK
109
OK
179
OK
105
OK
OK
180
OK
103
OK
OK
40
OK
40
OK
OK
1P
1-8
0
37
26
77
2O
K5
21
OK
80
5O
K4
52
OK
OK
85
8O
K3
81
OK
OK
416
OK
416
OK
OK
2P
3-1
00
37
46
43
2O
K4
98
OK
75
5O
K4
41
OK
OK
79
7O
K3
85
OK
OK
40
5O
K4
05
OK
OK
2P
3-1
00
38
812
91
OK
98
OK
148
OK
74
OK
OK
150
OK
71
OK
OK
51
OK
51
OK
OK
1P
1-8
0
39
75
132
OK
39
9O
K6
22
OK
314
OK
OK
68
3O
K2
35
OK
OK
32
7O
K3
27
OK
OK
2P
2-1
00
39
87
113
OK
55
2O
K8
26
OK
48
7O
KO
K8
65
OK
43
5O
KO
K4
41
OK
44
1O
KO
K3
P3
-10
0
40
05
94
2O
K4
67
OK
719
OK
36
3O
KO
K7
93
OK
26
5O
KO
K3
92
OK
39
2O
KO
K2
P2
-10
0
40
35
26
2O
K4
09
OK
64
1O
K3
13O
KO
K7
07
OK
22
4O
KO
K3
36
OK
33
6O
KO
K2
P2
-10
0
40
45
67
2O
K4
39
OK
66
6O
K3
74
OK
OK
70
4O
K3
27
OK
OK
36
8O
K3
68
OK
OK
2P
2-1
00
40
97
41
OK
57
OK
91
OK
18O
KO
K10
3O
K3
OK
OK
32
OK
32
OK
OK
1P
1-8
0
410
152
1O
K11
0O
K17
9O
K8
0O
KO
K17
9O
K8
0O
KO
K4
3O
K4
3O
KO
K1
P1-
80
411
67
52
OK
517
OK
79
1O
K4
50
OK
OK
82
7O
K4
02
OK
OK
42
8O
K4
28
OK
OK
2P
3-1
00
412
42
52
OK
32
6O
K5
30
OK
22
9O
KO
K5
93
OK
145
OK
OK
25
8O
K2
58
OK
OK
2P
2-1
00
414
124
1O
K9
4O
K14
1O
K6
1O
KO
K14
3O
K5
8O
KO
K5
0O
K5
0O
KO
K1
P1-
80
-
APARTEMEN BASSURA
RESUME PONDASI TOWER B
PT. HAERTE WIDYA KONSULTAN
-
ETABS v9.7.3 - File: MODEL BASEMENT - 12 - September 3,2013
10:41Plan View - B1 - Elevation 3.2 - Ton-m Units
ETABS
-
TO
WE
R B
- P
ag
e 1
Pro
yek
:B
ass
ura
Cit
y -
To
wer
B
Su
bje
k :
Su
mm
ary
Rea
ctio
n (
Fz)
Ta
ng
ga
l :
31
Ag
ust
us
20
13
Zo
na
:J
ak
art
a,
Ta
na
h S
eda
ng
Un
it :
To
n
Ca
tata
n
CO
MB
O A
Co
mb
o 1
=D
L
Co
mb
o 2
=D
L +
LL
red
uk
siD
AY
A D
UK
UN
G A
WA
L
Co
mb
o 3
=0
.9D
L +
Un
orm
al
CO
MB
O B
Co
mb
o 4
=D
L
(E
A+
EB)
CO
MB
O B
Co
mb
o 4
=D
L
(E
A+
EB)
Co
mb
o 5
=D
L +
0.7
5*L
Lre
du
ksi
0
.75
*(E
A+
EB)
DA
YA
DU
KU
NG
AW
AL
x 5
0%
Co
mb
o 6
=0
.9*D
L
(E
A+
EB)
Co
mb
o 7
=0
.9*D
L -
Un
orm
al
(
EA+
EB)
CO
MB
O C
Co
mb
o 8
=D
L
0*(
EA+
EB)
Co
mb
o 9
=D
L +
0.7
5*L
Lre
du
ksi
0
.75
*0*(
EA+
EB)
DA
YA
DU
KU
NG
AW
AL
x 1
00
%
Co
mb
o 1
0 =
0.9
DL
0*(
EA+
EB)
Co
mb
o 1
1 =
0.9
DL
- U
no
rma
l
0*(
EA+
EB)
CO
MB
O D
Co
mb
o 1
2 =
0.9
DL
- U
ba
nji
r
Un
tuk
Po
nd
asi
=
LL
red
uk
si a
da
lah
=L
L d
eng
an
red
uk
si t
ing
ka
t
(EA+
EB)
ad
ala
h =
ko
mb
ina
si
1
.0E
x
0.3
Ey
0
.3E
x
1.0
Ey
0
ad
ala
h =
pen
ga
li g
emp
a k
ua
t ;
f1*f
2
RE
NC
AN
A U
NT
UK
GE
MP
A B
ES
AR
RE
NC
AN
A U
NT
UK
GE
MP
A B
ES
AR
R B
an
gu
na
n =
5.5
s
tru
ktu
r =
R /
1.6
= u
ntu
k s
tru
ktu
r el
ast
is p
enu
h
=
3.4
f1 =
1.6
= f
ak
tor
ku
at
leb
ih b
eba
n d
an
ba
ha
n
Vm
= f
2 x
Vy
dim
an
a :
Vm
=g
emp
a r
enca
na
ya
ng
da
pa
t d
iser
ap
ole
h s
tru
ktu
r a
tas
da
lam
ko
nd
isi
di
am
ba
ng
ker
un
tuh
an
Vy
=p
emb
eba
na
n g
emp
a a
kib
at
pen
ga
ruh
gem
pa
ren
can
a y
an
g m
eny
eba
bk
an
pel
eleh
an
per
tam
a
di
da
lam
str
uk
tur
ged
un
g
f2 =
fak
tor
ku
at
leb
ih s
tru
ktu
r a
kib
at
keh
iper
sta
tik
an
str
uk
tur
ya
ng
men
yeb
ab
ka
n t
erja
din
ya
red
istr
ibu
si g
ay
a-g
ay
a o
leh
pro
ses
pem
ben
tuk
an
sen
di
pla
stis
ya
ng
tid
ak
ser
emp
ak
ber
sam
aa
n
f2 =
0.8
3 +
0.1
7
ma
ka
pem
beb
an
an
gem
pa
ma
ksi
mu
m a
kib
at
pen
ga
ruh
gem
pa
ren
can
a V
m d
ap
at
dih
itu
ng
da
ri p
emb
eba
na
n g
emp
a n
om
ina
l V
n
Vm
= f
x V
nd
ima
na
:f
=fa
kto
r k
ua
t le
bih
to
tal
ya
ng
ter
da
pa
t d
i d
ala
m g
edu
ng
,
ya
ng
dit
eta
pk
an
men
uru
t p
ersa
ma
an
;
f =
f1
x f
2
f2 =
0.8
3 +
0.1
7
=1.
414
f =
f1 x
f2
=2
.26
3f
=f1
x f
2=
2.2
63
Vm
=2
.26
3 x
Vn
-
TO
WE
R B
- P
ag
e 2
TIP
E P
ON
DA
SI
TE
KA
NT
AR
IKT
EK
AN
TA
RIK
BO
RE
PIL
E(t
on
)(t
on
)(t
on
)(t
on
)
1
00
0m
m340
-90
34
0-9
0
8
00
mm
220
-70
22
0-7
0
TE
KA
N
MA
Xn
TIA
NG
ST
AT
US
T
AR
IK
MA
XS
TA
TU
S
TE
KA
N
MA
XS
TA
TU
S
TA
RIK
MA
X
ST
AT
US
(NC
OM
BO
A)
ST
AT
US
(NC
OM
BO
B)
TE
KA
N
MA
XS
TA
TU
S
TA
RIK
MA
X
ST
AT
US
(NC
OM
BO
A)
ST
AT
US
(NC
OM
BO
C)
TE
KA
N
MA
XS
TA
TU
S
TA
RIK
MA
X
ST
AT
US
(NC
OM
BO
A)
ST
AT
US
(NC
OM
BO
D)
49
22
79
1O
K2
40
OK
37
5O
K13
3O
KO
K5
26
OK
-19
OK
OK
22
3O
K2
23
OK
OK
Da
ya
Dk
g P
on
da
siC
OM
BO
AC
OM
BO
BC
OM
BO
CC
OM
BO
D
TE
KA
NT
AR
IK
(to
n)
(to
n)
(to
n)
(to
n)
(to
n)
(to
n)
TE
KA
NT
AR
IKT
EK
AN
TA
RIK
-10
5
510
-13
56
80
-18
05
10-1
35
33
0-1
05
44
0-1
40
33
0
Po
int
CO
MB
O A
CO
MB
O B
CO
MB
O C
CO
MB
O D
N D
raw
N R
esu
lt
49
22
79
1O
K2
40
OK
37
5O
K13
3O
KO
K5
26
OK
-19
OK
OK
22
3O
K2
23
OK
OK
49
33
29
1O
K2
79
OK
37
8O
K2
36
OK
OK
419
OK
182
OK
OK
24
8O
K2
48
OK
OK
50
43
37
1O
K2
92
OK
50
9O
K10
7O
KO
K7
48
NO
T O
K-1
32
OK
22
81
OK
28
1O
KO
K
54
54
68
2O
K4
05
OK
56
2O
K3
02
OK
OK
69
5O
K16
1O
KO
K3
91
OK
39
1O
KO
K
1413
5O
K12
17O
K18
24
OK
77
7O
KO
K2
38
8O
K19
2O
KO
K11
42
OK
114
2O
KO
K
50
23
02
1O
K2
60
OK
36
7O
K19
0O
KO
K4
61
OK
88
OK
OK
24
8O
K2
48
OK
OK
55
35
95
2O
K5
14O
K7
79
OK
30
6O
KO
K10
54
OK
30
OK
OK
50
3O
K5
03
OK
OK
89
73
OK
77
4O
K11
45
OK
49
5O
KO
K15
15O
K11
8O
KO
K7
50
OK
75
0O
KO
K
70
912
31
OK
104
OK
147
OK
80
OK
OK
177
OK
42
OK
OK
68
OK
68
OK
OK
75
74
33
2O
K3
74
OK
52
2O
K2
77
OK
OK
64
2O
K14
8O
KO
K3
63
OK
36
3O
KO
K
75
99
81
OK
84
OK
119
OK
61
OK
OK
155
OK
23
OK
OK
69
OK
69
OK
OK
79
310
11
OK
87
OK
123
OK
64
OK
OK
158
OK
25
OK
OK
62
OK
62
OK
OK
79
43
171
OK
27
6O
K3
75
OK
212
OK
OK
45
8O
K12
5O
KO
K2
68
OK
26
8O
KO
K
3
P5
-10
0
P3
-10
0
5
79
43
171
OK
27
6O
K3
75
OK
212
OK
OK
45
8O
K12
5O
KO
K2
68
OK
26
8O
KO
K
85
19
11
OK
78
OK
111
OK
56
OK
OK
147
OK
18O
KO
K6
6O
K6
6O
KO
K
85
32
76
1O
K2
40
OK
32
3O
K18
7O
KO
K3
96
OK
112
OK
OK
23
4O
K2
34
OK
OK
89
810
01
OK
86
OK
120
OK
64
OK
OK
153
OK
28
OK
OK
61
OK
61
OK
OK
914
26
31
OK
23
0O
K3
08
OK
179
OK
OK
37
9O
K10
6O
KO
K2
23
OK
22
3O
KO
K
96
59
71
OK
84
OK
118
OK
62
OK
OK
153
OK
24
OK
OK
68
OK
68
OK
OK
96
92
75
1O
K2
40
OK
32
6O
K18
2O
KO
K4
07
OK
100
OK
OK
23
3O
K2
33
OK
OK
100
13
171
OK
27
6O
K3
77
OK
210
OK
OK
46
7O
K11
6O
KO
K2
68
OK
26
8O
KO
K
100
312
31
OK
104
OK
146
OK
82
OK
OK
176
OK
44
OK
OK
69
OK
69
OK
OK
109
54
32
2O
K3
74
OK
52
0O
K2
76
OK
OK
64
6O
K14
3O
KO
K3
63
OK
36
3O
KO
K
30
48
9O
K2
63
8O
K3
63
3O
K19
93
OK
OK
45
13O
K10
56
OK
OK
24
16O
K2
416
OK
OK
119
03
06
1O
K2
63
OK
38
8O
K17
0O
KO
K5
20
OK
34
OK
OK
25
0O
K2
50
OK
OK
127
76
02
2O
K5
19O
K7
82
OK
315
OK
OK
105
1O
K4
5O
KO
K5
09
OK
50
9O
KO
K
90
83
OK
78
2O
K11
70
OK
48
4O
KO
K15
71
OK
80
OK
OK
75
9O
K7
59
OK
OK
P3
-10
03
P16
-10
09
90
83
OK
78
2O
K11
70
OK
48
4O
KO
K15
71
OK
80
OK
OK
75
9O
K7
59
OK
OK
125
02
82
1O
K2
42
OK
39
2O
K12
0O
KO
K5
65
OK
-53
OK
OK
22
5O
K2
25
OK
OK
135
53
29
1O
K2
78
OK
38
2O
K2
30
OK
OK
42
9O
K16
8O
KO
K2
47
OK
24
7O
KO
K
135
64
74
