File:Roscoe surface (notransparent).svg

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Original file (SVG file, nominally 1,280 × 960 pixels, file size: 2.32 MB)

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Summary

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Description
English: Roscoe Surface, plotted by Cambridge Method.

Lines on Roscoe Surface shows same line as each stress paths, which is parallel to axis p' for Consolidated Undrain(CU), non-parallel for Consolidated Drain(CD). Symbols on this figure are defined as followings.

p'
mean effective value = (σ1 + σ2 + σ3)/3
v
volume ratio = 1 + e
q
deviator stress = σ1 - σ3
NCL
Normal Consolidation Line
CSL
Critical State Line
Roscoe
Roscoe surface
See #gnuplot code for the physical parameters.
日本語: ロスコー面(ケンブリッジ法でプロット)。

ロスコー面上の各線はそれぞれ応力径路に対応しており、p'軸に平行なものが圧密非排水(CU)、平行でないものが圧密排水(CD)。 図中の各記号は以下の通り。

p'
平均有効応力 = (σ1 + σ2 + σ3)/3
v
体積比 = 1 + e
q
軸差応力 = σ1 - σ3
NCL
正規圧密曲線
CSL
限界状態曲線
Roscoe
ロスコー面
物性値などについては#gnuplot codeを参照。
Date
Source Own work
Author aokomoriuta(青子守歌)
Other versions

Licensing

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I, the copyright holder of this work, hereby publish it under the following licenses:
w:en:Creative Commons
attribution share alike
This file is licensed under the Creative Commons Attribution-Share Alike 3.0 Unported, 2.5 Generic, 2.0 Generic and 1.0 Generic license.
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Under the following conditions:
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Creative Commons license
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This file is licensed under the Creative Commons Attribution-Noncommercial 3.0 Unported license.
You are free:
  • to share – to copy, distribute and transmit the work
  • to remix – to adapt the work
Under the following conditions:
  • attribution – You must attribute the work in the manner specified by the author or :licensor (but not in any way that suggests that they endorse you or your use of the work).
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GNU head Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled GNU Free Documentation License.
You may select the license of your choice.

gnuplot code

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This W3C-unspecified plot was created with Gnuplot.
English: All source code are also available same license as this file.
日本語: ソースコードはファイルと同じライセンスで利用可能です。

roscoe.plt

[edit]
# parametric with p&v
set parametric
set dummy p,v

# constant
N = 2.5
lambda = 0.12
gamma = 2.45
M= 1.40

p0 = 200

#function
NCL(p) = N - lambda * log(p)        # v
NCL_p(v) = exp((N - v)/lambda)      # p

CSL1(p) = gamma - lambda * log(p)   # v
CSL2(p) = M * p                     # q
CSL3(v) = M * exp((gamma-v)/lambda) # q

CSL1_p(v) = exp((gamma - v)/lambda) # p

CSL_CU_p(p0) = p0 * exp((gamma - N)/lambda)
CSL_CU_v(p0) = NCL(p0)
CSL_CU_q(p0) = CSL2(CSL_CU_p(p0))

CSL_CD_p(p0) = 1/(1-M/3.0) * p0
CSL_CD_v(p0) = CSL1(CSL_CD_p(p0))
CSL_CD_q(p0) = CSL2(CSL_CD_p(p0))

#other constant
vtics = 0.1
ptics = 100
qtics = 200

max_v = ceil(NCL(100)     /vtics)*vtics
max_p = ceil(CSL_CD_p(300)/ptics)*ptics
max_q = ceil(CSL2(max_p)  /qtics)*qtics

min_v = int(CSL1(max_p) * 0.98 /vtics)*vtics
min_p = 0
min_q = 0

max_x1 = max_p
max_x2 = max_v

min_x1 = -1
min_x2 = min_v

#range
set urange[min_x1:max_x1] # p
set vrange[min_x2:max_x2] # v

set xrange[min_v:max_v] # p
set yrange[min_p:max_p] # v
set zrange[min_q:max_q] # q

#ticslevel
set ticslevel 0

#label
set xlabel "v"
set ylabel "p'"
set zlabel "q"

#grid
set xtics vtics nomirror
set ytics ptics nomirror
set ztics qtics nomirror
set mxtics 2
set mytics 2
set mztics 2
set grid xtics ytics ztics mxtics mytics mztics front lt -1 lw 1, lt 0 lw 1

#border
unset border

# surface settings
set isosample 100
set view 60,120,1,1

# stress path
SP_p(p0, v) = p0 + (CSL_CD_p(p0) - p0) * (v  - NCL(p0))/(CSL_CD_v(p0) - NCL(p0))
SP_v(p0, v) = (v > NCL(p0)) ? NCL(p0) : ((v < CSL_CD_v(p0))? CSL_CD_v(p0) : v)
SP_q(p0, v) = CSL_CD_q(p0) * (v - NCL(p0)) / (CSL_CD_v(p0) - NCL(p0))

# plot
splot  SP_v(p, v), SP_p(p, SP_v(p, v)), SP_q(p, SP_v(p, v)) title "Roscoe" ls 2 lw 0.5, \
           NCL(p), p,       0 title "NCL" ls 1 lw 3, \
          CSL1(p), p,       0 notitle     ls 3 lw 2, \
            min_v, p, CSL2(p) notitle     ls 3 lw 2, \
                v, 0, CSL3(v) notitle     ls 3 lw 2, \
          CSL1(p), p, CSL2(p) title "CSL" ls 3 lw 3

# create gif

theta = 0
set terminal gif notransparent size 1280, 960 font "Times New Roman"

load "roscoe_loop.plt"

set output
set terminal wxt

roscoe_loop.plt

[edit]
set view 60,theta,1,1

set output sprintf("roscoe%3d.gif", theta)

replot

theta = theta + 5
if(theta<360) reread

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Date/TimeThumbnailDimensionsUserComment
current12:21, 20 April 2011Thumbnail for version as of 12:21, 20 April 20111,280 × 960 (2.32 MB)青子守歌 (talk | contribs)== {{int:filedesc}} == {{User:青子守歌/own work/information|File=Figures |en=Roscoe Surface, plotted by Cambridge Method. Lines on Roscoe Surface shows same line as each stress paths, which is parallel to axis p' for Consolidated Undrain(CU), non-para

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