File Metadata

Created: Thu, Jun 27, 10:42

truss_fe.py
View Options

	""" truss_fe.py: truss tester"""
	# ------------------------------------------------------------------------------
	__author__ = "Nicolas Richart"
	__credits__ = [
	"Nicolas Richart <nicolas.richart@epfl.ch>",
	]
	__copyright__ = "Copyright (©) 2016-2021 EPFL (Ecole Polytechnique Fédérale" \
	" de Lausanne) Laboratory (LSMS - Laboratoire de Simulation" \
	" en Mécanique des Solides)"
	__license__ = "LGPLv3"
	# ------------------------------------------------------------------------------

	import copy
	import numpy as np
	import scipy.sparse as sp
	from . import export
	from . import fe


	@export
	class TrussFE(fe.Model):
	def __init__(self, **kwargs):
	opt = copy.copy(kwargs)
	self._A = opt.pop("A", 1.)
	self._E = opt.pop("E", 1.)
	self._L = opt.pop("L", 1.)
	self._rho = opt.pop("rho", 1.)

	self._F = opt.pop("F", {-10: [-1]})
	self._blocked = opt.pop("blocked", ([0], [0]))

	self._Ne = opt.pop("Ne", 1)
	self._Le = self._L / self._Ne

	self._F_ext = np.zeros((self._Ne + 1))
	self._F_int = np.zeros((self._Ne + 1))
	self._u = np.zeros((self._Ne + 1))
	self._v = np.zeros((self._Ne + 1))
	self._a = np.zeros((self._Ne + 1))

	self.assembleMass()

	def assembleMass(self):
	Me = np.array([[2., 1.],
	[1., 2.]])
	Me = self._rho self._A * self._Le / 6
	self._M = sp.lil_matrix((self._Ne + 1, self._Ne + 1))
	for i in range(self._Ne):
	self._M[i:i+2, i:i+2] += Me

	self._M = self._M.tocsr()

	def assembleStiffness(self):
	Ke = np.array([[1., -1.],
	[-1., 1.]])
	Ke = self._E self._A / self._Le
	self._K = sp.lil_matrix((self._Ne + 1, self._Ne + 1))
	for i in range(self._Ne):
	self._K[i:i+2, i:i+2] += Ke

	self._K = self._K.tocsr()

	def applyNeumannBC(self):
	for force, nodes in self._F.items():
	self._F_ext[nodes] = force

	def applyDirichletBC(self):
	for i, b in enumerate(self._blocked[0]):
	self._u[b] = self._blocked[1][i]

	def computeInternalForces(self):
	self._F_int = self._K * self._u

	@property
	def K(self):
	self.assembleStiffness()
	return self._K

	@property
	def M(self):
	return self._M

	@property
	def C(self):
	return None

	@property
	def u(self):
	self.applyDirichletBC()
	return self._u

	@u.setter
	def u(self, x):
	self._u = x
	self.applyDirichletBC()

	@property
	def v(self):
	return self._v

	@v.setter
	def v(self, v_):
	self._v = v_

	@property
	def a(self):
	return self._a

	@a.setter
	def a(self, a_):
	self._a = a_

	@property
	def f_int(self):
	self.computeInternalForces()
	return self._F_int

	@property
	def f_ext(self):
	self.applyNeumannBC()
	return self._F_ext

	@f_ext.setter
	def f_ext(self, f):
	self._F_ext = f

	@property
	def blocked(self):
	return self._blocked[0]

	@property
	def Le(self):
	return self._Le

truss_fe.py
No OneTemporary
Actions

File Metadata

truss_fe.py
View Options

Event Timeline

truss_fe.pyNo OneTemporaryActions

File Metadata

truss_fe.pyView Options

Event Timeline

truss_fe.py
No OneTemporary
Actions

truss_fe.py
View Options