257618915-Contoh-Perhitungan-Struktur-Jembatan.xls

ANALISIS BEBAN PIER JEMBATAN SRANDAKAN KULON PROGO D.I. YOGYAKARTA [C]2008:MNI-EC

URAIANDIMENSI

NOTASI

DIMENS SATUAN I

Leba !a"a# $!a"% "a"%-"&#'a()

b/

*

+

Leba ',',a $e!a"a# a&)

b2

/.

+

Leba +e1&a# $e+&(a !a"%)

b

2

+

Leba ','a" !e+ba'a#

b

/3

Teba" ("ab "a#'a& !e+ba'a# Teba" "a&(a# a(a" 4 ,5e"a6

'( 'a ''

0.2 0./

+ +

0.

+

' b

0.0

+

Tc& 9&1e a'e9a#9

2./

+

Tc& b&1a#9 (a+ !e+ba'a#

a

2.*

+

Jaa a#'aa ba", a'e9a#9

( L

/.8 0

+

Teba" ',',a 7 +e1&a# Teba" 9e#a#9a# a& %!a#

Pa#!a#9 be#'a#9 !e+ba'a#

N7+

Se;&<&; Ga5&'6

=; >

2

Bea' a(a"

=?; > =a >

2 22

Bea' !e#&( a&

== >

3.8

Bea' be',# be'%"a#9 Bea' be',# '&1a be'%"a#9 $be',# aba')

+

+

@EADSTOCK NOTASI

b/ b2

$+)

DATASUNGAI

NOTASI

$+)

0.

/

0.

0.

/.3

2

b

2.*



0.*

b

/.2



0.*

a

2.2

Ba

/8

PIER ALL $COLUMN) NOTASI

$+)

NOTASI

KEDALAMAN AIR Saa' ba#!& e#;a#a



Ra'a-a'a 'a%#a#

@

/.

S%1%' aa a"&a# (%#9a& 'ea1a P&e

>

/0



TANA@ DASAR PILE CAP $+)

Bea' 5,"%+e =( >



B;

/.

S%1%' 9e(e



/.2

L;

*

K,e(& C >

Bb

2.8 $+)

M%'% Be',#

PILE-CAP $+)

$+)

@b

B

NOTASI

NOTASI

>

/8. / 

N7+  Pa

BA@ANSTRUKTUR

NOTASI



/.2

BF

8

'

2

B6

20

M%'% Ba!a T%"a#9a#

K - 00 U - 3

I. ANALISIS BEBAN KERJA 1. BERAT SENDIRI (MS)

Berat sendiri ( self weight ) adalah berat bahan dan bagian jembatan yang mer!a"an elemen str"tral# ditambah dengan elemen n$n%str"tral yang di!i"lnya dan bersifat teta!. Berat sendiri dibeda"an menjadi & ma'am# yait berat sendiri str"tr atas# dan berat sendiri str"tr bawah.

1.1. BERAT SENDIRI STRUKTUR ATAS

N$.

Beban * & 1 3

arameter $lme (m) L n ,.& -, *.&* ,.,/ -, -, -, -, 2$tal berat sendiri str"tr atas#

(m) b

Slab e'" Slab 2r$t$ar (slab# sandaran# dll) Bal$" !rategang iafragma

(m) t *+

Leta" 44" berat str"tr atas terhada! f$ndasi# 5a6ht7L'7a7ha8& 6

* 0 & *, 0

*&.3/3 m

1.2. BERAT SENDIRI STRUKTUR BAWAH BERAT HEADSTOCK

N9 (m) b * & 1 3

ARA:E2ERBERA2BA;IAN (m) h (m) L ,.1 ,.1 *.0 ,.&./ ,./3 *.& ,./3 *.3 ,./3 Beratheadst$'"#

Leta"44"beratterhada!alas# Leta"44"beratterhada!dasarf$ndasi#

BERA2 Sha!e ("N) *< * -,.3 *< * 1-& *< * 0**.&3 *3.& * 1-& *3.& * -&/.3 =h6 &,+1.&3 yh6:h8=h6 5h6yh7L'7ht6

BERAT PIER WALL (COLUMN)

N9 +

ARA:E2ERBERA2BA;IAN (m) h (m) L 3 *.&

/

*.&

(m) b

Jmlah Sha!e /

*

&

/ ?8->h&

&

Berat ier =all

=' 6

Leta"44"beratterhada!alas#

y'6:'8='6

Leta"44"beratterhada!dasarf$ndasi# Las!enam!angier=all Lebar ier =all

5'6y'7ht6 A6&>(B>h7?8->h&)6 6 h 8 A 6Be

Berat pile ap

n$.

!arameter berat bagian * b & 1 -

Berat h *.& +.< <

L ,.< ,.< &

sha!e */.+ */.+ &,

* ,.3 * =!

Leta" 44" berat terhada! alas# Leta" 44" berat terhada! dasar f$ndasi#

REKAP BERAT SENDIRI STRUKTUR BAWAH (PIER)

N$

Jenis K$nstr"si *@ eadst$'"(ier@ead) =h6 & ier=all($lmn) ='6 1 ile'a! =!6 2$talberatsendiristr"trbawah#

ms6

1.! BEBAN AKIBAT BERAT SENDIRI (MS)

N$.

Beratsendiri * Str"tratas

& Str"trbawah Bebanberatsendiri!ada$ndasi Bebanberatsendiri!adaier=all

ms("N) *1/00.* *-&3/.-3<<,0

&<,3+.3+ *<-1/.1+

Berat ("N) &,+1.&3 &3/3.,,0 0+*0.& *-&3/.-+

-&&.**0+.< <,,, 0+*0.&

Berat &3 &3 , &*.* 1.<<

Satan "N8m1 "N8m1 "N8m1 "N8m1 "N8m1 :S 6

Berat("N) 1&,, /+&.1 , <--, *10+.< *1/00.*

Lengan terhada! alas :$m. Stat ("Nm) y (m) a%h*8& &.,3 <1.,&3 a%h*%h&8& *./ 3<*.h-7h18& *.*&3 *,&3.*3+&3 h-8& ,.1/3 *&<.&3 &81>h,.3 &*1./3 "N :h6 &,1*.3<*&3 ,.0<-+3*,1+ 0.0<-+3*,1+

BERA2 ("N)

Lengan y (m) &*,,

-/3.,,<<,0&&&< &3/3.,,<<,0&&1 :'6 1.3 m

:$m. Stat ("Nm) 1.3

/13,

1.3

*++&.31,<1&&/0/ 0,*&.31,<1&&/0/

3.3 m *-.&+*0-+/*,+ m& **.<<-03330&& m

lenganterhada! y h!7(ht%h!)8& h!7(ht%h!)81 h!8&

m$mstat ("nm) *.+ +/3.<*.-++++++++/ */33.1,+++++++/ ,.+ -<,, :! /&1*.*-+++++++/ y!6:!8=! ,./3*/-,0+&3 (m)

5!6y!

,./3*/-,0+&3

ata @eadst$'" N92ASI (m) b* b&

N92ASI ,.1 h* *.0 h&

b1 bBa

&./ h1 *.& h*< a

ier =all ($lmn) N92ASI (m) N92ASI B 3 B' h *.& L' Bb &.< ile%a! N92ASI h!

(m)

ht

Draiandimensi

N92ASI *.& BC & By

n$tasi

dimensi

b* b& b1 b ts ta

/ *.3 & *0 ,.& ,.*

 th hb

,.1 ,.,3 &.*

ha s L

&./3 *.< -,

w' wF' wa ww

&3 &&& 0.<

ata Sngai (m) ,.1 Saatbanjir @b ,.-R ata%rata @r

1 *.3

,./3 Sdt arah aliran sngai terhada! ier ,./3  6 *, G &.&

(m)

(m)

asar 2anah ile a! BeratH$l *<.-" N8m1 *.- Sdt gese *3 G /K $hesi#6 3" a

Bahan Str"tr :tBet$K %1,, < :t baja D%10 &,

satan

data !ile 'a!

m m m m m m m m m m m m

h! ht

*.& bC & by

< &,

BEBAN MATI TAMBAHAN (MA)

Beban ma4 tambahan ( s!erim!$sed dead l$ad )# adalah berat selrh bahan yang menimbl"an sat beban !ada jembatan yang mer!a"an elemen n$n%str"tral# dan mng"in besarnya berbah selama mr jembatan. Jembatan dianalisis hars mam! memi"l beban tambahan se!er4  *) enambahan la!isan as!al ($Herlay) di "emdian hari# &) ;enangan air hjan ji"a sis4m drainase 4da" be"erja dengan bai"# 1) emasangan 4ang listri" dan instalasi :E.

N$ * & 1 -

Jenis beban ma4 tambahan La!.As!al7$Herlay Railing#lights Instalasi:E Air hjan

2ebal (m)

Lebar (m)

anjang (m)

,.* w6 w6 ,.,3

/

-,

,.3 ,.* *0

-, -, -,

Jmlah & & & *

Bebanma4tambahan!ada!ier# Leta" 44" berat beban ma4 tambahan terhada! f$ndasi# 5a 6 ht 7 L' 7 a 7 h a8& 6

w Berat ("N) ("N8m1) &&

0.<

*&1& -, < 1/&.-

:A 6 *+3&.*&.3/3 m

BEBAN LA"UR (TD)

Beban lajr  terdiri dari beban terbagi merata (Dnif$rmly istribted L$ad)# DL dan beban garis (Knife Edge L$ad)# KEL se!er4 terlihat !ada ;ambar *. DL mem!nyai intensitas M ("a) yang besarnya tergantng !ada !anjang t$tal L yang dibebani lal%lintas se!er4 ;ambar & ata dinyata"an dengan rms sebagai beri"t  6 M< "a nt" L P 1, m M6 <.,>(,.37*38L) "a nt"L1,m

nt" !anjang bentang# KELmem!nyaiintensitas#

6L M6< .,>(,.37*38L)6 !6

-, m /" a -- "N8m

;ambar &. Intensitas Dnif$rmly istribted L$ad (DL) a"t$r beban dinamis (inami' L$ad All$wan'e) nt" KEL diambil sebagai beri"t  LA 6 ,.nt" L P 3, m LA 6 ,.- % ,.,,&3>(L % 3,) nt" 3, O L O 0, m LA 6 ,.1

nt" L Q 0, m

;ambar 1. a"t$r beban dinamis (LA)

nt" harga 6 L -, m 6 bt /m Besar beban lajr  !ada !ier  2 6 & >  M > L > (3.3 7 b) 8 & 7 ! > LA > (3.3 7 b) 8 &  6

6LA 1/&, "N

,.-

Jembatan jalan raya diren'ana"an mam! memi"l beban hid! merata !ada tr$t$ar yang besarnya tergantng !ada las bidang tr$t$ar yang did"ngnya. @bngan antara beban merata dan lasan yang dibebani !ada tr$t$ar# dil"is"an se!er4 ;ambar - ata da!at dinyata"an dengan !ersamaan sebagai beri"t  Dnt" A  *, mT 6 M 3 "a Dnt" *, mT O A P *,, mT M6 3%,#,,11 > (A % *,)" a Dnt" A  *,, mT 6 M & "a A 6 las bidang tr$t$ar yang dibebani !ejalan "a"i (mT) M 6 beban hid! merata !ada tr$t$ar ("a)

;ambar -.embebanan nt" !ejalan "a"i

anjang bentang 6L Lebar tr$t$ar b& 6 Jmlah tr$t$ar 6n Las bidang tr$t$ar yang did"ng ier A 6 b&>L>n 6 Bebanmerata!ada!edestrian M6 Beban!adaiera"ibat!ejalan"a"i 2 6 A > M 6

-, m *.3 m & *&, mT & "a &-,K N

#A$A REM (TB)

engarh !engereman dari lal%lintas di!erhitng"an sebagai gaya dalam arah memanjang dan diangga! be"erja !ada !erm"aan lantai jembatan. Besarnya gaya rem arah memanjang jembatan tergantng !anjang t$tal jembatan (L t). @bngan antara besarnya gaya rem dan !anjang t$tal jembatan dil"is"an se!er4 !ada ;ambar 3# ata da!at dinyata"an dengan !ersamaan sebagai beri"t  ;aya rem# 6 22B ;ayarem# 622B

&3, KN &3,7&.3>(Lt%<,) KN

;aya rem# 6 22B

3,, KN

Lt P <, m nt" L nt" P<,

t

O *<, m

Lt Q *<, m nt"

;ambar 3. ;aya rem nt"#

Lt 6 L 6

;ayarem!ada!ier(nt"&jalrlallintas)# Lengan terhada! f$ndasi :$men!adaf$ndasia"ibatgayarem Lengan terhada! dasar !ier wall :$men!ada!ierwalla"ibatgayarem

-, m

;aya rem 6

3,, "N

22B 6 & > &3, 6 *,,," N U2B 6 ht 7 L' 7 a 7 hb 6 *1.1 m :2B 6 2B > U2B *11,, 6 "Nm UF2B 6 L' 7 a 7 h b 6**.1 m :2B 6 2B > UF2B**1,, 6 "Nm

+. BEBAN AN;IN +.*. BEBAN AN;IN ARA@ U (:ELIN2AN; JE:BA2AN)

Beban angin dihitng dengan rms sebagai beri"t 

w 6 w6

*.&3 13 m8det

!anjang bentang# 6L 2inggibidangsam!ingatas#ha6 2inggibidangsam!ing "endaraan#h"6 Ab*6L>(ha7h")6

-, m &./3 m &m

*0, m&

Beban angin !ada str"tr atas  2%E=*6 */-.3+&3 "N lenganterhada!f$ndasiU%E=*6ht7L'7a7ha8&6 m$men !ada f$ndasi a"ibat angin atas  :%E=*6 2%E=*>U%E=* 6

*&.3/3 m &*03.*&1 "Nm

lengan terhada! dasar !ier wall UFE=*6 L'7a7ha8& 6 m$men !ada !ier wall a"ibat angin atas  :F%E=*6 2%E=* > UF%E=*6

*,.3/3 m *<-3.00< "Nm

4nggibidangsam!ingstr"trbawahL'7a6 Ab& 6 &> h> (L'7a) 6 &&.,< m&

0.&m

Beban angin !ada str"tr bawah  2%E=&6 &,.&<+ "N lenganterhada!f$ndasiU%E=&6ht7(L'7a)8&6 +.+ m m$men !ada f$ndasi a"ibat angin bawah  :%E=&6 2%E=&>U%E=& 6 *11.<UF%E=& 01.1*3+ "Nm

2$tal gaya a"ibat beban angin 6 2%E=6 2%E=* 7 2%E=& 6 *0-.<-<3 "N 2$tal m$men !ada f$ndasi a"ibat beban angin 6 :%E=*7:%E=&6 &1&0.,** "Nm 2$tal m$men !ada !ier wall a"ibat beban angin 6 :F%E=*7:F%E=&6 *010.1*- "Nm

2%E= 6 *./+- "Nm bidang Her4"al yang di4! angin mer!a"an bidang sam!ing "endaraan dengan 4nggi &m diataslantaijembatan h6 &m jara" antar r$da "endaraan C6 *./3 m gaya !ada abtment a"ibat transfer beban angin "e lantai jembatan# %E=6 &> (*8&>h8C > 2%E=) > L 6

<,.+- "N

+.& BEBAN AN;IN ARA@ V (:E:ANJAN; JE:BA2AN)  "ran bidang !ier yang di4! angin  2inggiL'7a6 0.& m Lebar&>(B7h)6 *&.- m las bidang !ier yang di4! angin# Ab6 &>(B7h) > (L'7a) 6 Beban angin !ada str"tr atas  2%E= 6 ,.,,,+>w>wW&>Ab 6 *,-.<** "N lenganterhada!f$ndasiU%E=6ht7(L'7a)8&6 m$men !ada f$ndasi a"ibat beban angin# :%E=6 2%E=>U%E=6 lenganterhada!!ierwallUF%E=6(L'7a)8&6 m$men !ada !ier wall a"ibat beban angin# :F%E=6 2%E=>UF%E= 6

**-.,< m&

+.+ m +0*./3&+ "Nm -.+m -<&.*1,+ "Nm

/. ALIRAN AIR# BENA @ANUD2AN# AN 2D:BDKAN /.* ALIRAN AIR /.*.* ;AUA SERE2 ARA@ U (:ELIN2AN; JE:BA2AN)

 6 a 6

,./ 1 m8det

sdt arah aliran terhada! !ier#u 6 "edalaman air banjir# @b6 Lebar!iertega"lrsaliran#h6 lebar !r$ye"si !ier tega" lrs aliran# A6@b>&>h8'$su

=

gaya !ada !ier a"ibat aliran air# 2%E6,.3> > aW&>A 6 lenganterhada!f$ndasi#U%E6@b8&7ht6 m$men !ada f$ndasi a"ibat aliran air :%E6 2%E> U%E 6 lenganterhada!!ierwall#UF%E=6@b8&6 m$men !ada !ier wall a"ibat aliran air# :F%E6 2%E> UF%E6 /.& ;AUA AN;KA2 ARA@ V (:E:ANJAN; JE:BA2AN)

L6

,.0

*, F 1m *.& m /.1**,/& m& &1.,&0<< "N 1.3m <,.+,-3+ "Nm *.3m 1-.3--<* "Nm

lebar!iersejajaraliran#&>(B7h)6 las !r$ye"si !ier sejajar aliran# AL6 @b>&>(B7h)8'$s u 6 gaya ang"at !ada !ier# 2%E6,.3>L>aW&>Al 6 lenganterhada!f$ndasi#U%E6@b8&7ht6 m$men !ada f$ndasi a"ibat aliran air# :%E6 2%E>U%E6 lenganterhada!!ierwall#UF%E6@b8&6 m$men !ada !ier wall a"ibat aliran air# :F%E6 2%E> UF%E 6

*&.- m 1/.//1
/.& BENA @ANUD2AN AN 2D:BDKAN EN;AN KAUD /.&.* BENA @ANUD2AN

 6 *.,"edalaman benda hanytan (di bawah m"a iar banjir) 6# h6 lebarbendahanytan#Bh6L8&6 AF6 Bh >h8'$s u 6 gaya a"ibat benda hanytan# 2%E6 ,.3>>aW&>AF 6 /.&.& 2D:BDKAN EN;AN BA2AN; KAUD

6: & t$n s6 -.& m8det d6 ,.,/3 m8det gaya a"ibat tmb"an dengan "ay 6

-/,.- "N

*.& m &, m &-.1/,&- m& **-.,3&/ "N

/.1 ;AUA AN :9:EN UAN; I;DNAKAN

2%E6 -/,.-" N ma"a  lenganterhada!f$ndasi#U%E6@b%h8&7ht6 m$men !ada f$ndasi a"ibat aliran air# :%E6 2%E> U%E 6 lenganterhada!!ierwall#UF%E6@b%h8&6 m$men terhada! !ier wall a"ibat aliran air# :F%E6 2%E> UF%E 6

-.- m &,+0./+ "Nm &.-m **&<.0+ "Nm

<. BEBAN ;E:A (EX) <.* BEBAN ;E:A S2A2IK EKIALEN

<.*.* BEBAN ;E:A ARA@ V (:E:ANJAN; JE:BA2AN)

las !enam!ang !ier wall# A6 &> (B>h 7 u 8- > hW&) 6 tebal!enam!ang!ierwall#h6 lebar !enam!ang !ier wall e"iHalen# Be6A8h6 4nggi !ier wall# L' 6 inersia !enam!ang !ier wall# I'6 *8*& > Be>hW1 6 mtbet$n# K% 1,, #f'F6,.<1>K8*,6 m$dls elas4s bet$n# E'6 -/,,> sMrt(f'F)6 nilai "e"aan !ier wall# K!6 1>E'>I'8L'W1 6 !er'e!atangraHitasi#g6 berat sendiri str"tr atas# %:S(str"tr atas) 6 berat sendiri head st$'"# %:S(head st$'") 6 se!arh berat !ier wall# *8&>%:S(!ier wall) 6 beban ma4 tambahan str"tr atas# %:A6 berat t$tal str"tr# =t6 %:S(t$tal) 7 %:A6 wa"t getar alami str"tr# 2 6

* *.&&3

6 

*./**-1- m&-.0 :!a &1-3&.03 :a &1-3&031 K!a 13*,+&./ "N8m1 0.<* m8det& *1/00.* "N &,+1.&3 "N *&
,.-+-&3+ de4"

dari "rHa "$eYsien geser !ada gambar + %%

6 n 6S

*-.&+*03 m& *.& m& **.<<-0+ m& / m&

"$eYsien geser dasar  6

,.*/

*.&&3

"$eYsien beban gem!a h$ri5$ntal# Kh6 >S 6

,.&,<&3

I6

*

2%EX6 ,.&,<&3 >=t distribsi beban gem!a !ada !ier adalah sebagai beri"t 

N$ * & 1

= ("N)

JenisBeban:a4 bebansendiristr"tratas bebanma4tambahan beratsendiriheadst$'"

beratsendiri!ierwall 3 beratsendiri!ile'a! gaya!df$ndasia"ibatgem!a#2%EX6

2%EX ("N)

lengan thd f$nd

Z (m)

2%EX>Z ("Nm)

*1/00.* &
Za Za Zh

*1 1+*1+.1* *1 -1&/.&*& *, -1,/.,1

&3/3.,,0 31+.&-3+ 0+*+.& &,,&.3/+*<+.&++

Z' Z! "N

3.3 &0-0.13* ,./3 *3,3.013 :%EX -0&&3.<13

lenganterhada!f$ndasi#U%EX6:%EX82%EX6 /.03/&/< m lenganterhada!!ierwall#UF%EX6U%EX%ht6 3.03/&/< m m$men !ada !ier wall a"ibat beban gem!a :%EX6 2%EX> UF%EX 6 1+<31.1 "Nm <.*.* BEBAN ;E:A ARA@ U (:ELIN2AN; JE:BA2AN)

inersia !enam!ang !ier wall# I' 6 *8*&>h>BeW1 6 nilai"e"aan#K!61>E'>I'8L'W16 wa"tgetaralamistr"tr#26

*+/.
dari "rHa "$eYsien geser !ada gambar +# di!er$leh  "$eYsiengeserdasar#6 ,.*< fa"t$r4!estr"tr#S6 *.&&3 fa"t$r "e!en4ngan# I6 * "$eYsien gem!a h$ri5$ntal# Kh6>S6 ,.&&,3 gayagem!a#2%EX6Kh>I>=t6 ,.&&,3 >=t

N$ * & 1 -

JenisBeban:a4 bebansendiristr"tratas bebanma4tambahan beratsendiriheadst$'" beratsendiri!ierwall

= ("N) *1/00.* *+3&.&,+1.&3 &3/3.,,0

2%EX ("N) 1,-&./,& 1+-.13-& -3-.0-++ 3+/./<0-

lengan thd f$nd Za Za Zh Z'

Z (m)

2%EX>Z ("Nm)

*1 *1 *, 3.3

1<&+*.0/ -3<*./3-3+,.1<3 1*&&.<-&

3 beratsendiri!ile'a! gaya!df$ndasia"ibatgem!a#2%EX6

0+*+.& &*&,.1/& +33,.*+-

lenganterhada!f$ndasi#U%EX6:%EX82%EX6 lenganterhada!!ierwall#UF%EX6U%EX%ht6 m$men !ada !ier wall a"ibat beban gem!a :%EX6 2%EX> UF%EX 6 <.& 2EKANAN AIR LA2ERAL AKIBA2 ;E:A

=w6 @r 6 Kh6 I6

Z! "N

,./3

/.03/&/< m 3.03/&/< m 10,&*.*- "Nm

0.< "N8m1 *.3 m ,.&,<&3 *

<.&.* 2EKANAN AIR AKIBA2 ;E:A ARA@ V (:E:ANJAN; JE:BA2AN) lebar !ier arahmemanjang jembatan#B! 6 &> (B7h) 6 *&.- m te"anan air lateral 2%EX6 ,.3< > Kh> I> =w>B!>@rW& 6 11.,&3,1 "N lenganterhada!f$ndasi#U%EX6@r8&7ht6 &./3m m$men !ada f$ndasi a"ibat te"anan air# :%EX6 2%EX>U%EX 6 0,.<*<<3 "Nm lenganterhada!!ierwall#UF%EX6@r8&6 ,./3m m$men !ada !ier wall a"ibat te"anan air lateral# :%EX62%EX>UF%EX6 &-./+
<.&.* 2EKANAN AIR AKIBA2 ;E:A ARA@ U (:ELIN2AN; JE:BA2AN)

*30-.3&

:%EX 3&*&*.-/1

lebar!ierarahmelintangjembatan#B!6&>h6

&.-m

te"anan air lateral# 2%EX6 ,.3<>Kh>I>=w>B!>@rW& 6 +.10*0-& "N lenganterhada!f$ndasi#U%EX6@r8&7ht6 &./3m m$men !ada f$ndasi a"ibat te"anan air# :%EX6 2%EX> U%EX6 */.3//<- "Nm lenganterhada!!ierwall#UF%EX6@r8&6 ,./3m m$men !ada !ier wall a"ibat te"anan air lateral# :%EX62%EX>UF%EX6 -./0103/ "Nm

0. ;AUA ;ESEK (B) AN EN;ARD@ 2E:ERA2DR (E2)

*,. K9:BINASI BEBAN KERJA REKABEBAN KERJA AA IER N$

* &

A"si8Beban a"si teta! beratsendiri bebanma4tambahan beban lal%lintas

3 +

bebanlajr beban!edestrian gaya rem a"si ling"ngan / aliranair < hanytan8tmb"an 0 bebana ngin *, bebangem!a ** te"ananairgem!a

Her4"al K$de

:S :A 2 2 2B

A"si8Beban

** te"ananairgem!a K9:BINASI%& N$

* & 3 +

A"si8Beban

K$de

a"si teta! beratsendiri :S bebanma4tambahan :A beban lal%lintas bebanlajr 2 beban!edestrian 2 gaya rem 2B a"si ling"ngan

m$men 2y ("N)

:C ("Nm)

3,,

:y ("Nm)

++3,

*3&.0<-& &1.,&0<< -/,.<,.+- *,-.<** *0-.<-<3 +*<+.&++ +33,.*+11.,&3,1 +.10*0-&

313.---+ <,.+,-3+ &,+0./+ +0*./3&+ &1&0.,** -0&&3.<- 3&*&*.-/ 0,.<*<<3 */.3//<-

h$ri5$ntal

m$men



2C

2y

:C

:y

("N)

("N)

("N)

("Nm)

("Nm)

K$de

EX

2C ("N)

1/&, &-,

Her4"al

a"si teta! * beratsendiri :S & bebanma4tambahan :A beban lal%lintas - beban lajr  2 3 beban!edestrian 2 + gaya rem 2B a"si ling"ngan / aliran air E < hanytan8 tmb"an E 0 bebanangin E= *, bebangem!a EX

h$ri5$ntal

&<,3+.3+ *+3&.-

E E E= EX EX

K9:BINASI%* N$

 ("N)

&<,3+.3+ *+3&.1/&,

[ &-,

11++<.0+ Her4"al  ("N) &<,3+.3+ *+3&.1/&, &-,

, h$ri5$ntal 2C ("N)

2y ("N)

,

, m$men :C ("Nm)

:y ("Nm)

,

/ < 0 *, **

aliranair hanytan8tmb"an bebanangin bebangem!a te"ananairgem!a

E E E= EX EX

*3&.0<-& &1.,&0<< 313.---+ <,.+,-3+ -/,.&,+0./+

11++<.0+ *3&.0<-& -01.-&00 313.---+ &*3,.1+3 Her4"al h$ri5$ntal m$men

K9:BINASI%1 N$

A"si8Beban

a"si teta! beratsendiri :S bebanma4tambahan :A beban lal%lintas - bebanlajr 2 3 beban!edestrian 2 + gaya rem 2B a"si ling"ngan / aliranair E < hanytan8tmb"an E 0 bebana ngin E= *, bebangem!a EX ** te"ananairgem!a EX * &

A"si8Beban

/

a"si teta! beratsendiri bebanma4tambahan beban lal%lintas bebanlajr beban!edestrian gaya rem a"si ling"ngan aliran air

< 0 *, **

hanytan8 tmb"an bebanangin bebangem!a te"ananairgem!a

* & 3 +

2C ("N)

2y ("N)

:C ("Nm)

:y ("Nm)

&<,3+.3+ *+3&.1/&, &-, 3,,

++3,

*3&.0<-& &1.,&0<< 313.---+ <,.+,-3+ -/,.&,+0./+ <,.+- *,-.<** *0-.<-<3 +0*./3&+ &1&0.,**

11/-0.+ /3/./03& +<<.&/<- /
K9:BINASI%N$

 ("N)

K$de

 ("N)

K$de

:S :A

2C ("N)

2y ("N)

:C ("Nm)

:y ("Nm)

&<,3+.3+ *+3&.-

2 2 2B E E E= EX EX

+*<+.&++ +33,.*+- -0&&3.<- 3&*&*.-/ 11.,&3,1 +.10*0-& 0,.<*<<3 */.3//<&0/,<.0+ +&*0.&0* +33+.33+ -01*+.+3 3&*10.,3

REKA K9:BINASI BEBAN DN2DK ERENANAAN 2E;AN;AN KERJA N$

K$mbinasi Beban

* K9:BINASI%* & K9:BINASI%& 1 K9:BINASI%1

2egangan berlebih , \ &3 \ -, \

 ("N)

2C ("N)

2y ("N)

:C ("Nm)

:y ("Nm)

11++<.0+ , , , , 11++<.0+ *3&.0<-& -01.-&00 313.---+ &*3,.1+3 11/-0.+ /3/./03& +<<.&/<- /
- K9:BINASI%-

3, \

&0/,<.0+ +&*0.&0* +33+.33+ -01*+.+3 3&*10.,3

**. K9N2R9L S2ABILI2AS ;DLIN; **.* S2ABILI2AS ;DLIN; ARA@ :E:ANJAN; JE:BA2AN leta" 44" gling A (jng f$ndasi) terhada! !sat f$ndasi 

BC8& -m

" 6 !ersen "elebihan beban yang diijin"an (\) :C 6 m$men !enyebab gling

N$ * & 1 -

K$mbinasi Beban K9:BINASI%* K9:BINASI%& K9:BINASI%1 K9:BINASI%-

 ("N)

" ,\ &3\ -,\ 3,\

:C ("Nm)

:! ("Nm)

S

Ket

11++<.0+ , *1-+/3.< 11++<.0+ 313.---+ *+<1--.< 1*-.-,*0 &#&9K 11/-0.+ /
**.& S2ABILI2AS ;DLIN; ARA@ :ELIN2AN; JE:BA2AN leta" 44" gling A (jng f$ndasi) terhada! !sat f$ndasi 

By8& *, m

N$ * & 1 -

K$mbinasi Beban K9:BINASI%* K9:BINASI%& K9:BINASI%1 K9:BINASI%-

 ("N)

" ,\ &3\ -,\ 3,\

:y ("Nm)

:! ("Nm)

S

Ket

11++<.0+ , 11++<0.+ 11++<.0+ &*3,.1+3 -&,<+& *03./*++ &#&9K 11/-0.+ --/0.1/+ -/&-0-.- *,3.-<&& &#&9K &0/,<.0+ 3&*10.,3 --3+1-.- <.3-/,1/ &#&9K

*&. K9N2R9L S2ABILI2AS ;ESER *&.* S2ABILI2AS ;ESER ARA@ :E:ANJAN; JE:BA2AN !arameter tanah dasar !ile%'a!  sdt gese"# u6 *3 F "$hesi# 6 3 "a "ran dasar !ile%'a!  6 BC < m 6By &, m

N$ * & 1 -

K$mbinasi Beban

2C ("N)

K

K9:BINASI%* K9:BINASI%& K9:BINASI%1 K9:BINASI%-

,\ &3\ -,\ 3,\

 ("N)

@ ("N)

S

Ket

, 11++<.0+ 0<&*.3/ *3&.0<-& 11++<.0+ *&&/+.0+ <,.&-0<0 *#*9K /3/./03& 11/-0.+ *1/<,.-3 *<.*<-01 *#*9K +&*0.&0* &0/,<.0+ *1*-,./&.**&0 *#*9K

*&.& S2ABILI2AS ;ESER ARA@ :ELIN2AN; JE:BA2AN !arameter tanah dasar !ile%'a!  sdt gese"# u6 "$hesi# 6 "ran dasar !ile%'a!  6 BC < m 6By &, m

N$ * & 1 -

K$mbinasi Beban K9:BINASI%* K9:BINASI%& K9:BINASI%1 K9:BINASI%-

*3 F 3 "a

2y ("N)

K ,\ &3\ -,\ 3,\

 ("N)

@ ("N)

S

Ket

, 11++<.0+ 0<&*.3/ -01.-&00 11++<.0+ *&&/+.0+ &-.<<,
N$ * & 1 3 + / <

A"si8Beban BeratSendiri Beb.:a4tambahan Bebanlajr Beban!edestrian ;aya Rem Aliran Air @anytan82mb""an Bebanangin

0 *,

Bebangem!a 2e"ananairgem!a

N$ * & 1 3 + / <

A"si8Beban BeratSendiri Beb.:a4tambahan Beban lajr  Beban!edestrian ;ayaRem AliranAir @anytan82mb""an Bebanangin

0 *,

Bebangem!a 2e"ananairgem!a

K9:BINASI * N$ A"si8Beban * BeratSendiri & Beb.:a4tambahan 1 Beban lajr  Beban!edestrian 3 ;ayaRem + AliranAir / @anytan82mb""an < Beban angin 0 *,

K$deBeban :S :A 2 2 2B E E E= EX EX

("N) 2C("N) &<,3+.3+ *+3&.-, 1/&,.,, &-,.,, 3,,.,, *3&.0< <,.+-

2y("N)

:C("Nm) :y("Nm)

*,-.<*

&1.,1 -/,.-, *0-.<3

+*<+.&/ 11.,1

+33,.*+ +.10

++3,.,, 313.-+0*./3

<,.+, &,+0./+ &1&0.,*

-0&&3.<- 3&*&*.-/ 0,.<& */.3<

BEBAN DL2I:I2 ILE A a"t$rBeban ("N) 2C("N) 2y("N) :C("Nm: y("Nm *.1 1+-/1.31 & 11,-.< *.< ++0+ & -<, *.< 0,, **0/, * *3&.0<-& &1.,&0<< 313.---+ <,.+,-3+ * -/,.&,+0./+ *.& 0+./+< *&3.//1& &11.<*<& <1,.*,1* &/0-.<*1 * *

+*<+.&++ +33,.*+- -0&&3.<- 3&*&*.-/ 11.,&3,1 +.10*0-& 0,.<*<<3 */.3//<-

a"t$rBeban ("N) 2C("N) 2y("N) :C("Nm: y("Nm *.1 1+-/1.31 & 11,-.< *.< ++0+ & -<, *.< 0,, **0/, * *3&.0<-& &1.,&0<< 313.---+ <,.+,-3+ * -/,.&,+0./+

Beban gem!a 2e"anan air gem!a -+03-.11 *,3&.0<- -01.-&00 *&3,3.-- &*3,.1+3

K9:BINASI & N$ A"si8Beban * BeratSendiri & Beb.:a4tambahan 1 Beban lajr  Beban !edestrian 3 ;ayaRem + / < 0 *,

Aliran Air @anytan82mb""an Bebanangin Beban gem!a 2e"anan air gem!a

K9:BINASI 1 N$ A"si8Beban * BeratSendiri & Beb.:a4tambahan 1 Beban lajr  Beban !edestrian 3 ;ayaRem + / < 0 *,

AliranAir @anytan82mb""an Bebanangin Beban gem!a 2e"anan air gem!a

a"t$rBeban ("N) 2C("N) *.1 1+-/1.31 & 11,-.< *.< ++0+ -<, *.< , 0,,

2y("N)

:C("Nm: y("Nm

**0/,

, *.&

, , , , , , 0+./+< *&3.//1& &11.<*<& <1,.*,1* &/0-.<*1 , , , , -/,3*.,0 *,&3.//1 &11.<*<& *&<,,.* &/0-.<*1

a"t$rBeban ("N) 2C("N) *.1 1+-/1.31 & 11,-.< *.< ++0+ -<, *.< * * *.&

, , 0+./+<

2y("N)

:C("Nm: y("Nm

*3&.0<-& &1.,&0<< 313.---+ <,.+,-3+ , -/,., &,+0./+ *&3.//1& &11.<*<& <1,.*,1* &/0-.<*1

-/,3*.,0 &/<./3/- /&/.&-<* *1+3.3-< -0-3.*/< K9:BINASI N$ A"si8Beban * Berat Sendiri & Beb. :a4 tambahan 1 Beban lajr  Beban !edestrian 3 + / < 0 *,

;ayaRem Aliran Air @anytan82mb""an Beban angin Beban gem!a 2e"anan air gem!a

a"t$rBeban *.1 & *.< & *.< * * *.&

("N) 2C("N) 1+-/1.31 11,-.< ++0+ -<, , , , 0+./+<

2y("N)

:C("Nm: y("Nm

0,, **0/, *3&.0<-& &1.,&0<< 313.---+ <,.+,-3+ , -/,., &,+0./+ *&3.//1& &11.<*<& <1,.*,1* &/0-.<*1

-/,3*.,0 **/<./3/ /&/.&-<* *1113.33 -0-3.*/< K9:BINASI 3 N$ A"si8Beban * Berat Sendiri & Beb. :a4 tambahan 1 Beban lajr 

a"t$rBeban ("N) 2C("N) *.1 1+-/1.31 & 11,-.<

2y("N)

:C("Nm: y("Nm

3 + / < 0 *,

Beban !edestrian ;ayaRem Aliran Air @anytan82mb""an Beban angin Beban gem!a 2e"anan air gem!a

* *

+*<+.&++ +33,.*+- -0&&3.<- 3&*&*.-/ 11.,&3,1 +.10*0-& 0,.<*<<3 */.3//<10//<.11 +&*0.&0* +33+.33+ -01*+.+3 3&*10.,3

REKA K9:BINASI BEBAN DL2I:I2 ILEA N$. K$mbinasiBeban ("N) 2C("N) 2y ("N) :C("Nm :y ("Nm) * K9:BINASI%* -+03-.11 *,3&.0< -01.-1 *&3,3.-- &*3,.1+ & K9:BINASI%& -/,3*.,0 *,&3.// &11.<& *&<,,.*, &/0-.<* 1 K9:BINASI%1 -/,3*.,0 &/<./+ /&/.&3 *1+3.33 -0-3.*< K9:BINASI%-/,3*.,0 **/<./+ /&/.&3 *1113.33 -0-3.*< 3 K9:BINASI%3 10//<.11 +&*0.&0 +33+.3+ -01*+.+3 3&*10.,3

&. IER =ALL ( ININ; ILAR ) &.*. BEBAN DL2I:A2E IER =ALL N$ * & 1

A"si8Beban BeratSendiri Beban:a42ambahan BebanLajrD

K$deBeban ("N) :S *<-1/.1+ :A *+3&.-, 2 1/&,.,,

3 + / < 0 *,

Bebanedestrian ;aya Rem Aliran Air @anytan82mb"an BebanAngin Beban;em!a 2e"ananAir;em!a

N$ * & 1

A"si8Beban Berat Sendiri Beban :a4 2ambahan Beban Lajr 

a"t$rBeban *.1 & *.<

("N) &10+<.3/ 11,-.<, ++0+.,,

3 + / < 0 *,

Beban edestrian ;aya Rem Aliran Air @anytan82mb"an Beban Angin Beban ;em!a 2e"anan Air ;em!a

& *.< * * *.& * *

-<,.,,

2 2B E E E= EX EX

&-,.,,

<,.+-

0+.//

2s("N)

3,,.,, *3&.0< *,-.<* +*<+.&/ 11.,1

2y("N)

:C("Nm) :y("Nm)

3+3,.,, &&0.-<

&1.,1 -/,.-, *0-.<3 1+<31.1, +.10

-<&.*1 -0&&3.<&-.//

1-.3**&<.0+ *010.1* 10,&*.*-./0

BEBAN DL2I:A2E IER =ALL 2s("N) 2y("N) :C("Nm) :y("Nm)

0,,.,, *3&.0< *&3.// +*<+.&/ 11.,1

&1.,1 -/,.-, &11.<& 1+<31.1, +.10

*,*/,.,, &&0.-< 3/<.3+ -0&&3.<&-.//

1-.3**&<.0+ &1&/.*< 10,&*.*-./0

&.&. K9:BINASI BEBAN K9:BINASI * N$ A"si8Beban * & 1 3 + / < 0 *,

Berat Sendiri Beban :a4 2ambahan Beban Lajr  Beban edestrian ;aya Rem Aliran Air @anytan82mb"an Beban Angin Beban ;em!a 2e"anan Air ;em!a

a"t$rBeban *.1 & *.< & *.< * *

("N)

2y("N)

:C("Nm) :y("Nm)

&10+<.3/ 11,-.<, ++0+.,, -<,.,, 0,,.,, *3&.0<

1---0.1/ K9:BINASI &

2s("N)

*,3&.0<

&1.,1 -/,.-,

-01.-1

*,*/,.,, &&0.-<

*,100.-<

1-.3**&<.0+

**+1.3,

N$ * & 1 3 + / <

A"si8Beban Berat Sendiri Beban :a4 2ambahan Beban Lajr  Beban edestrian ;aya Rem Aliran Air @anytan82mb"an Beban Angin

0 *,

Beban ;em!a 2e"anan Air ;em!a

K9:BINASI 1 N$ A"si8Beban * Berat Sendiri & Beban :a4 2ambahan 1 Beban Lajr  - Beban edestrian 3 ;aya Rem + Aliran Air / @anytan82mb"an < 0 *,

Beban Angin Beban ;em!a 2e"anan Air ;em!a

K9:BINASI N$ A"si8Beban * Berat Sendiri & Beban :a4 2ambahan 1 Beban Lajr  - Beban edestrian 3 ;aya Rem + Aliran Air / < 0 *,

@anytan82mb"an Beban Angin Beban ;em!a 2e"anan Air ;em!a

K9:BINASI 3 N$ A"si8Beban * Berat Sendiri & Beban :a4 2ambahan 1 Beban Lajr  - Beban edestrian 3 ;aya Rem

a"t$rBeban *.1 & *.<

("N) &10+<.3/ 11,-.<, ++0+.,,

*.<

*.&

a"t$rBeban *.1 & *.< &

a"t$rBeban *.1 & *.< & *.< * * *.&

a"t$rBeban *.1 &

2y("N)

0,,.,,

:C("Nm) :y("Nm)

*,*/,.,,

0+.//

*&3.//

&11.<&

3/<.3+

&1&/.*<

1-,++.*1

*,&3.//

&11.<&

*,/-<.3+

&1&/.*<

("N) &10+<.3/ 11,-.<, ++0+.,, -<,.,,

* * *.&

2s("N)

2s("N)

2y("N)

:C("Nm) :y("Nm)

*3&.0<

&1.,1 -/,.-,

&&0.-<

1-.3**&<.0+

0+.//

*&3.//

&11.<&

3/<.3+

&1&/.*<

1-3-+.*1

&/<./+

/&/.&3

<,<.,1

1-0,.+<

("N) &10+<.3/ 11,-.<, ++0+.,, -<,.,,

2s("N)

2y("N)

:C("Nm) :y("Nm)

0,,.,, *3&.0<

&1.,1

*,*/,.,, &&0.-<

1-.3-

0+.//

*&3.//

-/,.-, &11.<&

3/<.3+

**&<.0+ &1&/.*<

1-3-+.*1

**/<./+

/&/.&3

*,0/<.,1

1-0,.+<

("N) &10+<.3/ 11,-.<,

2s("N)

2y("N)

:C("Nm) :y("Nm)

+ / < 0 *,

Aliran Air @anytan82mb"an Beban Angin Beban ;em!a 2e"anan Air ;em!a

* * &/&/1.1/

+*<+.&/ 11.,1 +&*0.&0

REKA K9:BINASI BEBAN DL2I:A2E IER =ALL ( ININ; ILAR ) N$ K$mbinasiBeban ("N) 2s("N) * & 1 3

K9:BINASIBEBAN* K9:BINASIBEBAN& K9:BINASIBEBAN1 K9:BINASIBEBANK9:BINASIBEBAN3

1---0.1/ 1-,++.*1 1-3-+.*1 1-3-+.*1 &/&/1.1/

*,3&.0< *,&3.// &/<./+ **/<./+ +&*0.&0

1+<31.1, +.10 1+<30./,

2y("N)

-0&&3.<&-.// -0&3,.+,

10,&*.*-./0 10,&3.0-

:C("Nm) :y("Nm)

-01.-1 &11.<& /&/.&3 /&/.&3 1+<30./,

*,100.-< *,/-<.3+ <,<.,1 *,0/<.,1 -0&3,.+,

**+1.3, &1&/.*< 1-0,.+< 1-0,.+< 10,&3.0-