%A ALDIKA CHANDRA NANANG 
%T IMPLEMENTASI BUILDING INFORMATION MODELING (BIM)
DALAM ANALISIS WASTE MATERIAL TULANGAN KOLOM GEDUNG

LVP PRODUCTION INDONESIA
%X Pesatnya perkembangan teknologi informasi khususnya di bidang konstruksi
menjadi isu penting dalam menunjang kebutuhan infrastruktur negara untuk
menghasilkan produk infrastruktur yang semakin berkualitas, terintegrasi dan
efisien. Oleh karena itu, Pemanfaatan teknologi Building Informasi Modeling
(BIM) menjadi alternatife yang memungkinkan tahap-tahap pembangunan lebih
cepat dan lebih efisien terutama dalam hal meminimalisir waste material. Penelitian
ini bertujuan untuk mengetahui pengaruh penerapan konsep BIM dalam optimasi
waste material tulangan kolom tipe 1, tipe 2 dan tipe 3. Penelitian dimulai dengan
pengumpulan data, pemodelan 3D struktural, pemodelan tulangan, input schedule
mark tulangan, clash detection, output Bar Bending Schedule (BBS), cutting list,
dan analisis waste material. Hasil penelitian menunjukkan total berat kebutuhan
tulangan kolom tipe 1 sebesar 28.449 kg. kolom tipe 2 sebesar 26.390 kg dan
kolom tipe 3 sebesar 26.784 kg, sementara untuk berat total waste kolom tipe 1
sebesar 1.256,41 kg, tipe 2 sebesar 872,6 kg, dan tipe 3 sebesar 916,14 kg. Waste
level tulangan kolom tipe 1 sebesar 4,42%, kolom tipe 2 sebesar 3,31%, dan kolom
tipe 3 sebesar 3,42%. Jadi dapat disumpulkan bahwa tulangan kolom tipe 2 lebih
efektif dan efisien jika dibandingkan tulangan kolom tipe 1 dan 3.

Kata kunci: Building Information Modeling (BIM), Autodesk Revit, Waste
Material, Bar Bending Schedule (BBS).

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ABSTRAK

IMPLEMENTATION OF BUILDING INFORMATION MODELING (BIM)
IN THE ANALYSIS WASTE MATERIAL OF COLUMN REINFORCEMENT

IN LVP PRODUCTION INDONESIA BUILDING

By

NANANG ALDIKA CHANDRA

The rapid development of information technology, especially in the construction
sector, has become an important issue in supporting the country's infrastructure
needs to produce increasingly high-quality, integrated, and efficient infrastructure
products. Therefore, the utilization of Building Information Modeling (BIM)
technology has become an alternative that allows construction stages to be faster
and more efficient, especially in minimizing waste material. This research aims to
determine the influence of applying BIM concepts in optimizing waste materials for
column reinforcement of type 1, type 2, and type 3. The research begins with data
collection, structural 3D modeling, reinforcement modeling, input of reinforcement
mark schedules, clash detection, Bar Bending Schedule (BBS) output, cutting lists,
and waste material analysis. The research results show that the total weight
requirement of type 1 column reinforcement is 28,449 kg, type 2 column is 26,390
kg, and type 3 column is 26,784 kg, while the total waste weight of type 1 column
is 1,256.41 kg, type 2 is 872.6 kg, and type 3 is 916.14 kg. The waste level of type
1 column reinforcement is 4.42%, type 2 column is 3.31%, and type 3 column is
3.42%. Thus, it can be concluded that type 2 column reinforcement is more
effective and efficient compared to type 1 and 3 column reinforcement.
%C UNIVERSITAS LAMPUNG
%D 2024
%I FAKULTAS TEKNIK
%L eprints84099