MINISTRY OF EDUCATION AND TRAINING HO CHI MINH CITY UNIVERSITY OF TECHNOLOGY AND EDUCATION FACULTY FOR HIGH QUALITY TRAINING GRADUATION PROJECT CIVIL AND INDUSTRIAL CONSTRUCTION ENGINEERING TECHNOLOGY INDOCHINA ACM APARTMENT DESIGN DOCUMENT LECTURER: PHD NGUYEN VAN HAU STUDENT: LE DUC VIET SKL008573 Ho Chi Minh City, July, 2022 MINISTRY OF EDUCATION & TRAINING HO CHI MINH CITY UNIVERSITY OF TECHNOLOGY AND EDUCATION FACULTY OF CIVIL ENGINEERING ~~~~~~*~~~~~~ GRADUATION PROJECT INDOCHINA ACM APARTMENT DESIGN DOCUMENT ADVISOR : PHD NGUYỄN VĂN HẬU STUDENT : LÊ ĐỨC VIỆT ID : 18149345 Ho Chi Minh City, July 2022 ACKNOWLEDGEMENT This graduation project would not have been possible without the exceptional support of my supervisor, Ph.D Nguyễn Văn Hậu His enthusiasm, knowledge and exacting attention to detail have been an inspiration and kept my work on track from my first encounter with concept drawings of Indochina ACM Apartment to the final draft of this graduation project I am also grateful for all teachers in Faculty Civil Engineering – Hồ Chí Minh City University of Technology and Education The generosity and expertise of them have improved this study in innumerable ways and saved me from many errors; those that inevitably remain are entirely my own responsibility Finally, I wish to thank my parents for their support and encouragement throughout my study and this final project th Hồ Chí Minh City, July 15 ,2022 Student Lê Đức Việt COMMITMENT I commit that this graduation project is entirely done by myself All figures, contents, graphs, etc in this project have never been published th Hồ Chí Minh City, July 15 ,2022 Student Lê Đức Việt Name: Lê Đức Việt Department: Civil Engineering Specialization: Civil and Industrial Construction Engineering Technology Advisor: Ph.D Nguyễn Văn Hậu th Submitted date: July 15 , 2022 GRADUTION PROJECT SUMMARY Initial document (provided by advisor) ▪ Architecture drawings profile ▪ Geotechnical investigation report ▪ ▪ Project contents Model, analysis, calculate, design rooftop water tank Model, analysis, calculate, design typical floor ▪ Model, analysis, calculate, design shear wall – core system including beams, shear walls and shift core ▪ ▪ ▪ ▪ ▪ Model, analysis, calculate, design foundation Construct piles Model infill walls, analysis and calculate soft-storey effect Results document and appendix document 18 detail drawings Hồ Chí Minh City, July 15th ,2022 Advisor Student Ph.D Nguyễn Văn Hậu Lê Đức Việt TABLE OF CONTENTS CHAPTER OVERVIEW OF BUILDING’S ARCHITECTURE Project introduction Architectural features - solutions 1.2.1 Floor plan – functional subdivision 1.2.2 Traffic system CHAPTER OVERVIEW OF BUILDING’S STRUCTURE Design material 2.1.1 Standards – regulations applied 2.1.2 Software used 2.1.3 Calculation principles 2.1.4 Material criteria .8 Structural plan 2.2.1 Structural plan for vertical load 2.2.2 Structural plan for lateral load 10 Preliminary cross-sectional dimensions .10 CHAPTER LOADS AND ACTIONS 11 Static load 11 3.1.1 Loads the structural floor layers 11 3.1.2 Loads of masonry wall .12 Live load 15 Wind load 16 3.3.1 Static wind load 16 3.3.2 Dynamic wind load 18 Seismic load 26 3.4.1 Oscillation analysis in seismic load calculation 26 3.4.2 Calculation of earthquakes by response spectrum analysis method 27 3.4.3 Features of earthquake calculation 27 3.4.4 Calculation and combination of oscillation seismic modes 30 Load combination .34 3.5.1 Load Patterns .34 3.5.2 Load Cases 35 3.5.3 Load combinations .35 CHAPTER CHECKING SERVICEABILITY LIMIT STATE (SLS) 37 Factors to consider before running ETABS .37 4.1.1 Stiffness modifiers 37 4.1.2 Automatic rigid-zone area over column/shear wall 38 Checking the condition of anti-overturning stability .38 Checking the condition of peak acceleration 39 Checking the condition of peak displacement 39 Checking the condition of drift 41 Checking the P-Delta effect .43 CHAPTER ROOFTOP WATER TANK DESIGN 46 Design parameters 46 5.1.1 Water supply in the building 46 5.1.2 Preliminary dimensions of slabs, beams and columns .47 5.1.3 Preliminary dimensions of rooftop water tank 47 5.1.4 Materials used 48 Live load 49 5.2.1 Roof slab 49 5.2.2 Side wall 49 5.2.3 Floor slab 51 Load patterns and load combinations 51 Rooftop water tank modeling 52 Calculation of rooftop water tank 53 5.5.1 Analysis of roof slab, side wall, floor slab .53 5.5.2 Calculation of roof slab girders, floor slab girders 68 5.5.3 Calculation of columns .70 CHAPTER TYPICAL FLOOR DESIGN 72 Applying load 72 Analytical and calculated model 72 6.2.1 Get internal force from SAFE model 73 6.2.2 Calculation of longitudinal reinforcement 74 6.2.3 Checking crack formation and expansion 77 6.2.4 Check deflection .83 CHAPTER BEAM, SHEAR WALL & CORE DESIGN 84 Typical floor beam design 84