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NEWBuildS Tall Wood Building Design Project

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Title: Seismic performance of multi-storey light wood frame buildings with hybrid bracing systems Author: Z.Y.Chen Last modified by: Minghao Created Date – PowerPoint PPT presentation

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Title: NEWBuildS Tall Wood Building Design Project


1
NEWBuildS Tall Wood Building Design Project
Structural Design and Analysis
  • Zhiyong Chen Minghao Li
  • University of New Brunswick, University of
    British Columbia

www.NEWBuildSCanada.ca
2
Location and Design Data
  • North Vancouver high earthquake, wind and rain
  • Climatic Design Data (Per BCBC 2012)
  • Ground Snow Load Ss3 KPa, Sr0.3 KPa Plus snow
    built up where applicable
  • Hourly Wind Pressure 0.35kPa (1/10) and 0.45kPa
    (1/50)

3
Structural Plan
4
Structural Scheme
  • Lateral load resisting system SCL core CLT
    moment frame (Strong column-weak beam
    balloon-frame)
  • Gravity resisting system CLT roof / floors ?
    SCL core CLT moment frame post-beam frame
  • Seismic force modification factors Rd 2.0 and
    R0 1.5
  • Connection HBV wood concrete or HSK hold downs

5
Wind Induced Response
  • Structural integrity (building structure check
    and component cladding check) under ultimate
    wind loads (1/50, ULS)
  • Serviceability under service wind loads (1/10)
    with serviceability criteria (inter-story drift
    limit 1/500, SLS)
  • Building motions and occupant comfort
    (cross-wind acceleration aw and along-wind
    acceleration aD)

6
  • Wind Design Parameters
  • Pressure Coefficient
  • Cp0.8 for windward walls
  • Cp0.5 for leeward walls
  • Internal Pressure Coefficient
  • Cpi-0.450.3 Category 2
  • Exposure B
  • (rough exposure, urban and suburban areas)
  • Ce0.5(h/12.7)0.5
  • Cg Gust effect factor
  • calculated by Dynamic procedure

7
Wind Induced Response
  • Estimated fundamental frequency 0.25Hz lt fn lt
    1Hz therefore, Dynamic Procedure is required to
    calculate gust effect factor.
  • PIwqCeCgCp and PiIwqCeCgiCpi
  • Calculations of Ce , Cg , Cp and Cpi follow NBCC
    Structural Commentary I Wind Load and Effects.
  • Sufficient lateral stiffness is needed to satisfy
    the drift limit criteria.

8
Numerical Models
  • Beam188 elements (glulam, steel beams and
    columns)
  • Shell181 elements (floor diaphragms and shear
    walls)
  • Pinned connections
  • Combin39 nonlinear springs (for hold-downs, shear
    connections panel-panel contacts, under
    development)

9
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10
Fig. I-16 Full and partial wind loads for
building structure (NBCC 2010 Structural
Commentary)
11
Wind Load (ULS)
Level q (kPa) Cp (windward) Cp (leeward) Ce(static method) Cg(static) fi (kN)
2 0.45 0.8 -0.5 0.64 2 86
3 0.45 0.8 -0.5 0.70 2 94
4 0.45 0.8 -0.5 0.75 2 101
5 0.45 0.8 -0.5 0.79 2 106
6 0.45 0.8 -0.5 0.83 2 111
7 0.45 0.8 -0.5 0.86 2 116
8 0.45 0.8 -0.5 0.89 2 120
9 0.45 0.8 -0.5 0.92 2 124
10 0.45 0.8 -0.5 0.95 2 128
11 0.45 0.8 -0.5 0.97 2 131
12 0.45 0.8 -0.5 1.00 2 134
13 0.45 0.8 -0.5 1.02 2 137
14 0.45 0.8 -0.5 1.04 2 140
15 0.45 0.8 -0.5 1.06 2 143
16 0.45 0.8 -0.5 1.08 2 145
17 0.45 0.8 -0.5 1.10 2 148
18 0.45 0.8 -0.5 1.12 2 150
19 0.45 0.8 -0.5 1.13 2 153
20 0.45 0.8 -0.5 1.15 2 155
12
Building Deformations(ULS, Case A)
Roof drift 89 mm (1/640) Max. Inter-story
drift 4.8 mm (1/625)
13
Stresses in LSL Shear Walls (ULS)
14
Bending Stresses in Steel Link Beams
15
Bending Stresses in Glulam Beams Columns
16
Lowest Natural Frequency 0.467 Hz for Dynamic
Procedure
 
Calculation of gust effect factor Cg Calculation
of aw and aD related to building vibrations
under serviceability limit state
17
  • Thank you for your attention!
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