Skip to main content
Search form
Search
万博manbetx平台
manbetx体育
Secondary menu
最近的帖子
user list
about
contact
Main menu
research
教育
万博体育平台
opinion
年代oftware
ios万博体育app下载
conference
job
video
User login
Username
*
Password
*
Create new account
m.1manbetx
Navigation
Search iMechanica
Recent blog posts
Prof. Huajian Gao becomes Fellow of the Royal Society (FRS)
University of Utah Center for Aerospace Postdoc Position
Research Fellow Queen's University Belfast - School of Mechanical & Aerospace Engineering
KTH Summer school Computational Tissue Biomechanics: From in-vitro experiment to damage and failure analysis
A Geometric Field Theory of Dislocation Mechanics
Atomistic-informed kinetic phase-field modeling of non-equilibrium crystal growth during rapid solidification
CISM Advanced School on Nonlinear Dynamics and Model Order Reduction
Acoustics Week in Canada 2023
International Conference on Composites: Design, Processing, Manufacturing and Health Monitoring (CDPMHM 2024) at IIT Mandi (Himachal Pradesh, India)
Five fully funded Master positions in Computational Mechanics and Materials Science at CEMEF (Mines Paris, PSL University)
More
What we talked about
ABAQUS UMAT
ABAQUS tutorial
Cauchy stress
Geometry & Mechanics
Large elastic deformation
Logarithmic strain
Mechanics of growth
Mesh-free methods
目标利率的压力
Plastic potential
Poroelasticity
Stress and strain
Temperature
Timoshenko lectures
Viscoelasticity
Why is rubber incompressible?
Writing a paper
Writing a proposal
in situ Mechanics
tensor
tensor and its invariants
Sites of interest
AAM
AMD
Basic energy science
Buckled Shells
CFD online
EMI
Electroactive polymers
IUTAM
PolymerFEM
PoroNet
SES
Soft Matter World
USNC/TAM
eFluids
You are here
Home
P2/P1
A linearised consistent mixed displacement-pressure formulation for hyperelasticity
Thu, 2020-04-30 09:56 -
chenna
research
finite element analysis
Hyperelastic Q1/P0
two-field
three-field
BT2/BT1
P2/P1
If you are working on FEM for hyperelastic materials, then you might be interested in our new paper.
»
Read more
about A linearised consistent mixed displacement-pressure formulation for hyperelasticity
chenna's blog
Log in
or
register
to post comments
1237 reads
Quick guide
Ask iMechanica
Having difficulty with posting comments?
How to add an image
How to post an entry
Journal Club
Lecture notes
RSS Feeds
FAQ
Recent comments
Response to Ben
3 weeks 2 days ago
Great overview! A few
1 month 6 days ago
Links.
1 month 6 days ago
Dear Professor Per Ståhle,
1 month 2 weeks ago
Thank you, Marco. I am glad
1 month 3 weeks ago
I am speechless. Outstanding
1 month 3 weeks ago
Re. Analysis of diffraction data
1 month 3 weeks ago
Analyses of diffraction data
1 month 4 weeks ago
Thanks Darren for the comment
2 months 1 week ago
Monitoring Stress Evolution in the Future?
2 months 1 week ago
More comments
comments at a glance
Popular content
Today's:
I share the vision of iMechanica, but am not ready to post anything, should I register?
Safety Engineering and Risk Management Debate 2012
Sih's Strain Energy Density Approach in Fracture - why is it not very popular?
Topic 8: subsea integrity and reliability management
KTH Summer school Computational Tissue Biomechanics: From in-vitro experiment to damage and failure analysis
Open Source Software
Prof. Huajian Gao becomes Fellow of the Royal Society (FRS)
Topic 7: Wave energy system
University of Utah Center for Aerospace Postdoc Position
Strain Gradient Plasticity
Syndicate
Recent comments