Teacher  

Djebar BAROUDI, Dr.


Main goals

• Understand the fundamentals of material modelling within the framework of continuum mechanics

• Comprehend the underlying physics and related mathematical description of key features of common material behavior (i.e., material models) in civil engineering related to their thermo-mechanical response

• Fully understand the material models within the computational tools commonly used in civil engineering with respect to thermo-mechanical behavior


Content

•   ELASTICITY   …  linear, hyper-elasticity, non-linear, isotropy, transverse isotropy, anisotropy, orthotropy

•   VISCOELASTICITY

•  VISCOPLASTICITY …  (creep - basics only)

•   PLASTICITY        ...  associative, non-associative

•   Damage  … this year 2018: damage-plasticity ex. Concrete Damage Plasticity,  Models in Abaqus

 

Main Textbooks for the current course

(Not the whole books but chosen chapters)

•  [1] Mechanics of Solid Materials . Jean Lemaitre, Université de Paris VI (Pierre et Marie Curie) & Jean-Louis
Chaboche, 1994. Cambridge Univ. Press.  


(Main Textbook 1, the relevant chapters and reading assignments
are given during the lectures)

Lemaitre & Chaboche textbook as an e-book:

http://proquestcombo.safaribooksonline.com.libproxy.aalto.fi/book/physics/9781107384712

•  [2] Plasticity for Structural Engineers . Wai Fah Chen, D.J. Han, Springer New York, 6
Dec 2012.

(Chapters 1-5 for the engineering plasticity-part of
our course … content well oriented for structural Engineers) 

•  [3] The Mechanics of Constitutive ModelingNiels Saabye Ottosen and
Matti Ristinmaa, 2005. Elsivier.

(Recommended elective textbook)

* [4] Plasticity Theory.  Jacob Lubliner.  

(Recommended
elective textbook. Some official released old versions can be found freely in
the internet).


About the course supporting Material

•  In addition to the pointed chapters from the course textbooks for each topic, I will provide an additional learning/reading supporting material together with weekly homework series (3-6 exercises/week. Each exercise is marked (arvosana) 0-5 if not otherwise stated in the homework-paper).

•  The Lecturer's written material is not a collection of lecture-slides but it is a learning supporting material offered to help and motivate students in their reading from the course textbooks & elsewhere.

•  The topics treated in this intensive course cannot be avoided by future structural engineers: these topics will wait for them hidden, inside the FE-software you will use to perform structural analysis, in the black-boxes called material models.  This course is may be the right place for first meeting them in a friendly learning environment and opening these black-boxes.

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Last modified: Thursday, 7 May 2020, 2:58 PM