首页/文章/ 详情

PFC6.0-FLAC3D柔性膜常规三轴排水实验

8月前浏览4876

通过PFC6.0和FLAC耦合来模拟柔性膜,需要注意的是,这里不是预压围压后移除墙边界,再加柔性膜。

而是直接生成柔性膜,给柔性膜施加预压和围压,更符合实际。


加载后的效果:

PFC6.0-FLAC3D柔性膜常规三轴排水实验.JPG

应力应变,密砂到达峰值后应变软化:

image.png

体应变,密砂先剪缩再剪胀,后趋于稳定:

image.png


  1. 成样

model new


def para_set

;;==========bondary condition======

rad = 0.025

height = 0.10

poros = 0.42

segments = 12

Density =2650

b_rad = 0.001

freeRegion = height/2.0

;;==========contact patameter========

emod = 1.0e8

fric = 0.5

rr_fric = 0.4

end

@para_set


model random 10001


;domain setting

model domain extent [-rad*2] [rad*2] [-rad*2] [rad*2] [-height] [height] condition destroy 

;wall generating

program call 'boundary_generate.dat'

;ball generating

ball distribute porosity [poros] box [-rad] [rad] [-rad] [rad] [-height/2] [height/2] radius [b_rad] ...

                range cylinder end-1 (0,0,[-height/2*0.98]) end-2 (0,0,[height/2*0.98]) radius [rad*0.98]


;ball attribute generating

ball attribute density [Density*10000] damp 0.7


;contact model setting

contact cmat default type ball-facet model linear method deformability emod 1e8 kratio 1.5 property fric 0.2

contact cmat default type ball-ball model linear method deformability emod 1e8 kratio 1.5

contact cmat apply 


;balance model

model cycle 1000 calm 10

model mechanical timestep scale

model solve ratio-average 5e-5 max_cycles 5000

model mechanical timestep auto


;Return the contact force to zero 

contact property lin_force 0 0 0 rr_moment 0 0 0 lin_mode 1

ball attribute force-contact multiply 0 moment-contact multiply 0

model cycle 1


;save model

model save '1specimen'


2.预压

model restore '1specimen'


program call 'MonitorUtilities.p3fis'

program call 'ServoUtilities.p3fis'


[targetzz = 10e3]

structure node free velocity rotation range group 'middle'

structure shell apply [-targetzz] range group 'middle'


ball property 'kn' 0 'ks' 0

wall property 'kn' 0 'ks' 0


@_compute_dia

[wlz_ini=wlz]

[wlr_ini=wlr]


contact cmat default type ball-facet model linear method deformability emod 1e8 kratio 1.5

contact cmat default type ball-ball model rrlinear property fric [fric] rr_fric [rr_fric] method deformability emod 1e8 kratio 1.5

contact cmat apply

model calm


model cycle 1


wall servo activate on force-z [-targetzz*math.pi()*rad^2.0] ...

                       velocity-max 1 range set id 2

wall servo activate on force-z [targetzz*math.pi()*rad^2.0] ...

                       velocity-max 1 range set id 1


history interval 100

fish callback add @servo_walls -1.0


model calm


[stop_me_compaction = 0]

model solve fish-halt @stop_me_compaction


model save '2yuya'

program return


3.围压

model restore '2yuya'


[targetzz = 100e3]

structure shell apply [-targetzz] range group 'middle'


[stop_me_compaction = 0]

model solve fish-halt @stop_me_compaction


model save '3weiya'


program return


本案例全部计算代码如下,附件可直接导入PFC。

下面的内容为付费内容,购买后解锁。

内容简介:模型算例

岩土离散元PFCFLAC3D
著作权归作者所有,欢迎分享,未经许可,不得转载
首次发布时间:2024-02-16
最近编辑:8月前
Leo
硕士 签名征集中
获赞 5粉丝 30文章 3课程 0
点赞
收藏
未登录
1条评论
栋
签名征集中
6月前
你好,程序打不开,显示系统中断强制关闭
1条回复
课程
培训
服务
行家
VIP会员 学习 福利任务 兑换礼品
下载APP
联系我们
帮助与反馈