ANALISA STRUKTUR SABO DAM YANG BERFUNGSI SEBAGAI JEMBATAN

PALMAWANTO, ADITYA (2014) ANALISA STRUKTUR SABO DAM YANG BERFUNGSI SEBAGAI JEMBATAN. S2 thesis, UAJY.

[img] Text (Halaman Judul)
MTS001897.pdf

Download (1MB)
[img] Text (Bab I)
MTS101897.pdf

Download (140kB)
[img] Text (Bab II)
MTS201897.pdf

Download (1MB)
[img] Text (Bab III)
MTS301897.pdf
Restricted to Registered users only

Download (1MB)
[img] Text (Bab IV)
MTS401897.pdf
Restricted to Registered users only

Download (1MB)
[img] Text (Bab V)
MTS501897.pdf

Download (79kB)

Abstract

As a sediment control facility, sabo dam has to prevent erosions, to stabilize the riverbank, to reduce the velocity of debris flow, and to store the flow of sediment. Recently, sabo dam is not only intended to control the sediment but also to be utilized as connection bridge. To design sabo dam, it has to be taken into account the stability of the dam beside its structural - strength. The stability analysis of sabo should be done in 3 points as stability analysis includes stability against overturning and tensile stress, sliding of the base and bearing capacity of ground. To do so, it is considered three conditions. The first is normal condition, the second is the condition when the flood taken place, and the third is when the debris flow happen. As a road bridge, sabo dam will receive significant traffic load therefore the strength of the slab must be analyzed. The standard design used was RSNI T-02-2005 “Pembebanan untuk Jembatan”, and structural analysis used was SAP2000 software. The results indicated that the safety factor for stability against overturning and tensile stress is 7,95 and 6,19 that is larger than the suggested safety factor (Sf),1,5 therefore the sabo dam is safe for overturning moment and tensile stress. The safety factor for sliding was a 2,64 and 2,33 that is also larger than suggested safety factor 2,0, then the structure is also safe against sliding. Based on three conditions : normal, flood and debris flow, the calculated maximum stress ( ) were 27,40 t/m2, 29,72 t/m2 and 29,28 t/m2, those are less than allowable bearing capacity of soil under the base of the dam 60 t/m2. The result of concrete slab analysis indicated that the area of reinforced bar is 3166,67 mm2 that is more than existing structure using longitudinal bar D16-200 (1005,31 mm2), it means that the slab is not strong enough to resist the load according to RSNI T-02-2005 having the truck load of 50 ton. Suggested maximum vehicle load is 8 ton that results the reinforced area 988,97 mm

Item Type: Thesis (S2)
Uncontrolled Keywords: sabo dam, stability, slab, load, reinforced area
Subjects: Magister Teknik Sipil > Struktur
Divisions: Pasca Sarjana > Magister Teknik Sipil
Depositing User: Editor UAJY
Date Deposited: 27 Oct 2014 12:02
Last Modified: 27 Oct 2014 12:02
URI: http://e-journal.uajy.ac.id/id/eprint/6145

Actions (login required)

View Item View Item