PERKUATAN LENTUR DAN PERKUATAN TORSI BALOK SEMI PRACETAK DENGAN PENAMBAHAN TULANGAN TARIK, TULANGAN TEKAN, SENGKANG U TERTUTUP SERTA KOMPOSIT MORTAR
Precast concrete technology has been rapidly developed, which is indicated by its numerous variations of models such as the small size 14x14x29 cm semi-precast concrete called the U concrete-brick. One of the advantages is it does not require heavy equipment and applicable for small construction suc...
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| Main Authors: | , |
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| Format: | Theses and Dissertations NonPeerReviewed |
| Published: |
[Yogyakarta] : Universitas Gadjah Mada
2011
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| Subjects: | |
| Online Access: | https://repository.ugm.ac.id/97598/ http://etd.ugm.ac.id/index.php?mod=penelitian_detail&sub=PenelitianDetail&act=view&typ=html&buku_id=53753 |
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| Institution: | Universitas Gadjah Mada |
| Summary: | Precast concrete technology has been rapidly developed, which is
indicated by its numerous variations of models such as the small size 14x14x29
cm semi-precast concrete called the U concrete-brick. One of the advantages is it
does not require heavy equipment and applicable for small construction such as
housing construction. Semi-precast concrete beam can also be used for long span.
It has significant strength although requires a reinforcement method. The
objective of this experiment is to identify the torsion capacity and stiffness,
flexural capacity, and the cracking pattern of squared section of semi precast
beam before and after reinforced with additional tensile reinforcement,
compressive reinforcement of U-clossed stirrup and mortar composite.
In this research, three specimens were made. It consisted of one torsion
precast beam (BT) in 14x29x270 cm dimension with 4D12 longitudinal
reinforcement and P6-150 stirrup. The other two were torsion reinforcement
precast beam (BPT) and flexural reinforcement precast beam (BPL) in
24x39x2700mm dimension with 4D12 longitudinal reinforcement, P6-150 stirrup,
4D10 longitudinal reinforcement with U-Closed stirrup and mortar composite as
the jacket. BT and BPT beams were given torsion experiment and centered
loading on each beam hand. The placement on both beam end was specially made
by using lacker to enable the beam for free turn on the lengthwise axe of the beam
in order to obtain pure torsion compressive strength. The BPL beam was given
with flexural experiment with static centered loading to obtain pure capacity and
compared with flexural precast beam (BL), as done by Pramono (2011).
Based on the experiment results, it can be indicated that the torsion
strength of BT and BPT experiments were 2.88 KNm and 19.42 KNm,
respectively. BPT experienced increasing torsion strength of 573.941% to BT.
The torsion second stiffness resulted from the experiments to BT and BPT
specimens were 502.96 KNm/rad and 9220.24 KNm/rad, respectively. BPT
experienced increasing torsion second stiffness of 1733.20% to BT. Flexural
capacity based on the experiment results of BL and BPL specimens were 42.42
KN and 147.4 KN, respectively. BPL experienced flexural capacity of 247.48%
to BL. The stiffness of flexural second stiffness resulted from experiment results
for BL and BPL experiments were 4859.38 N/mm and 11208.46 N/mm,
respectively. BPL experienced increasing flexural second stiffness of 130.66% to
BL. |
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