Basic Examples (鉄筋コンクリート門型フレーム: 横荷重解析) 解説
のコマンドのサマリは以下の通りです。
このコマンドを ファイル名 RCF-GP.tcl として、テキストフォーマットで作成し、
OpenSeesの起動環境 で 起動しているOpenSees のコマンドラインに
OpenSees RCF-GP.tcl <Enter>
と打ち込んで、実行します。
この時、このtcl スクリプトは、
Basic Examples (鉄筋コンクリート門型フレーム:重力の柱軸力のみを作用させた解析) で作成した
RCF-G.tcl
も使用しますので、同じディレクトリに、RCF-G.tcl ファイルもおいておきます。
----- RCF-GP.tcl 始まり ------
# Units: kips, in, sec
#
# Written: GLF/MHS/fmk
# Date: January 2001
# ----------------------------------------------------
# Start of Model Generation & Initial Gravity Analysis
# ----------------------------------------------------
# Do operations of Example3.1 by sourcing in the tcl file
source RCF-G.tcl
puts "Gravity Analysis Completed"
# Set the gravity loads to be constant & reset the time in the domain
loadConst -time 0.0
# ----------------------------------------------------
# End of Model Generation & Initial Gravity Analysis
# ----------------------------------------------------
# ----------------------------------------------------
# Start of additional modelling for lateral loads
# ----------------------------------------------------
# Define lateral loads
# --------------------
# Set some parameters
set H 10.0; # Reference lateral load
# Set lateral load pattern with a Linear TimeSeries
pattern Plain 2 "Linear" {
# Create nodal loads at nodes 3 & 4
# nd FX FY MZ
load 3 $H 0.0 0.0
load 4 $H 0.0 0.0
}
# ----------------------------------------------------
# End of additional modelling for lateral loads
# ----------------------------------------------------
# ----------------------------------------------------
# Start of modifications to analysis for push over
# ----------------------------------------------------
# Set some parameters
set dU 0.1; # Displacement increment
# Change the integration scheme to be displacement control
# node dof init Jd min max
integrator DisplacementControl 3 1 $dU 1 $dU $dU
# ----------------------------------------------------
# End of modifications to analysis for push over
# ----------------------------------------------------
# ------------------------------
# Start of recorder generation
# ------------------------------
# Stop the old recorders by destroying them
# remove recorders
# Create a recorder to monitor nodal displacements
recorder Node -file node32.txt -time -node 3 4 -dof 1 2 3 disp
# Create a recorder to monitor element forces in columns
recorder EnvelopeElement -file ele32.txt -time -ele 1 2 forces
# --------------------------------
# End of recorder generation
# ---------------------------------
# ------------------------------
# Finally perform the analysis
# ------------------------------
# Set some parameters
set maxU 15.0; # Max displacement
set currentDisp 0.0;
set ok 0
while {$ok == 0 && $currentDisp < $maxU} {
set ok [analyze 1]
# if the analysis fails try initial tangent iteration
if {$ok != 0} {
puts "regular newton failed .. lets try an initail stiffness for this step"
test NormDispIncr 1.0e-12 1000
algorithm ModifiedNewton -initial
set ok [analyze 1]
if {$ok == 0} {puts "that worked .. back to regular newton"}
test NormDispIncr 1.0e-12 10
algorithm Newton
}
set currentDisp [nodeDisp 3 1]
}
if {$ok == 0} {
puts "Pushover analysis completed SUCCESSFULLY";
} else {
puts "Pushover analysis FAILED";
}
----- RCF-GP.tcl 終わり ------
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