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− | [mailto:ekuhl@stanford.edu ellen kuhl] | + | [mailto:ekuhl@stanford.edu ellen kuhl] thu 1-2pm, durand 217<br> |
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[mailto:steveb1@stanford.edu steve bachmeier] mon 1-2pm, terman 104<br> | [mailto:steveb1@stanford.edu steve bachmeier] mon 1-2pm, terman 104<br> | ||
+ | [mailto:mandyp@stanford.edu mandy philippine] tue 4-5pm, terman 104<br> | ||
+ | [mailto:noe.esparza@stanford.edu noe esparza] wed 4-5pm, terman 104 <br> | ||
spring 2009 <br> | spring 2009 <br> | ||
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==syllabus== | ==syllabus== | ||
− | chapters in the [http://biomechanics.stanford.edu/me309_09/me309_syllabus.pdf syllabus] refer to the fish & belytschko textbook "a first course in finite elements". | + | chapters in the [http://biomechanics.stanford.edu/me309_09/me309_syllabus.pdf syllabus] refer to the fish & belytschko textbook "a first course in finite elements". <br> |
+ | example of a matlab finite element code for euler bernoulli beams [http://biomechanics.stanford.edu/me309_09/FEM_beam.m download] | ||
{| class="wikitable" style="text-align:center; width: 100%" | {| class="wikitable" style="text-align:center; width: 100%" | ||
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! day !! date !! !! topic !! material !! hw !! due | ! day !! date !! !! topic !! material !! hw !! due | ||
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− | | tue || mar || 31 || introduction || chapter 1 [http://biomechanics.stanford.edu/me309_09/me309_c01.pdf slides] || || | + | | tue || mar || 31 || introduction || chapter 1 [http://biomechanics.stanford.edu/me309_09/me309_c01.pdf slides] [http://biomechanics.stanford.edu/me309_09/me309_c01.ppt slides.ppt] || || |
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| thu || apr || 02 || motivation / direct approach || chapter 2 || [http://biomechanics.stanford.edu/me309_09/me309_h01.pdf h01] || | | thu || apr || 02 || motivation / direct approach || chapter 2 || [http://biomechanics.stanford.edu/me309_09/me309_h01.pdf h01] || | ||
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| tue || apr || 14 || 1d model problems || chapter 3.5,3.6,3.8 || || | | tue || apr || 14 || 1d model problems || chapter 3.5,3.6,3.8 || || | ||
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− | | thu || apr || 16 || 1d discretization || chapter 4 || [http://biomechanics.stanford.edu/me309_09/me309_h02.pdf h02][http://biomechanics.stanford.edu/me309_09/beam1.log b01] [http://biomechanics.stanford.edu/me309_09/beam2.log b02][http://biomechanics.stanford.edu/me309_09/beam3.log b03]|| h01 | + | | thu || apr || 16 || 1d discretization || chapter 4 || [http://biomechanics.stanford.edu/me309_09/me309_h02.pdf h02] [http://biomechanics.stanford.edu/me309_09/beam1.log b01] [http://biomechanics.stanford.edu/me309_09/beam2.log b02] [http://biomechanics.stanford.edu/me309_09/beam3.log b03]|| h01 |
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− | | tue || apr || 21 || 1d finite elements || chapter 5 || | + | | tue || apr || 21 || 1d finite elements || chapter 5 || || |
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| thu || apr || 23 || multi d strong and weak forms || chapter 6 || || | | thu || apr || 23 || multi d strong and weak forms || chapter 6 || || | ||
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| tue || apr || 28 || multi d discretiation / triangles || chapter 7.2,7.6 || || | | tue || apr || 28 || multi d discretiation / triangles || chapter 7.2,7.6 || || | ||
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− | | thu || apr || 30 || multi d discretiation / quads || chapter 7.4,7.5,7.8 || h03,h04 || | + | | thu || apr || 30 || multi d discretiation / quads || chapter 7.4,7.5,7.8 || [http://biomechanics.stanford.edu/me309_09/me309_h03.pdf h03] , [http://biomechanics.stanford.edu/me309_09/me309_h03d.pdf h03d] , [http://biomechanics.stanford.edu/me309_09/me309_h04.pdf h04] || |
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− | | tue || may || 05 || multi d fem / | + | | tue || may || 05 || multi d fem / linear elasticity || chapter 9.1,9.2 || [http://biomechanics.stanford.edu/me309_09/me309_h05.pdf h05] || h02 |
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− | | thu || may || 07 || multi d fem / linear elasticity || chapter 9. | + | | thu || may || 07 || multi d fem / linear elasticity || chapter 9.3-9.7 || || |
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− | | tue || may || 12 || multi d fem / | + | | tue || may || 12 || multi d fem / heat equation || chapter 8 || || h03 |
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− | | thu || may || 14 || 1d structural elements / beams || chapter 10.1,10.2 || || | + | | thu || may || 14 || 1d structural elements / beams || chapter 10.1,10.2 [http://biomechanics.stanford.edu/me309_09/me309_beam.pdf slides] || || |
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− | | tue || may || 19 || 1d structural elements / beams || chapter 10.3-10.5 || || | + | | tue || may || 19 || 1d structural elements / beams || chapter 10.3-10.5 [http://biomechanics.stanford.edu/me309_09/FEM_beam.m matlab]|| || |
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| thu || may || 21 || midterm prep || || || h04 | | thu || may || 21 || midterm prep || || || h04 |
Latest revision as of 07:56, 29 March 2010
Contents |
[edit] me309 - finite element analysis in mechanical design
ellen kuhl thu 1-2pm, durand 217 spring 2009 |
[edit] goals
the key goal of this class is the fundamental understanding of the finite element method and its application to classical and state-of-the-art design problems. in class, we discuss the basic equations for one-, two-, and three-dimensional scalar- and vector-valued problems, i.e., heat transfer, convection-diffusion, and elasticity. in the hands-on part of the course, we introduce commercial finite element programs and demonstrate how to use ansys in analysing design problems. individual final projects focus on the interplay of analysis and testing in product design and development. to take this course, basic knowledge and general interest in mathematics, strength of materials, structural and solid mechanics, and heat transfer is highly recommended.
[edit] grading
- 50 % homework - 4 homework assignments, 12.5% each
- 30 % midterm - closed book, closed notes, one single letter format page of notes
- 20 % project - final homework project
[edit] syllabus
chapters in the syllabus refer to the fish & belytschko textbook "a first course in finite elements".
example of a matlab finite element code for euler bernoulli beams download
day | date | topic | material | hw | due | |
---|---|---|---|---|---|---|
tue | mar | 31 | introduction | chapter 1 slides slides.ppt | ||
thu | apr | 02 | motivation / direct approach | chapter 2 | h01 | |
tue | apr | 07 | ansys - introduction (in terman 104) | t01 t02 t03 | ||
thu | apr | 09 | 1d strong and weak forms | chapter 3.1,3.2,3.4 | ||
tue | apr | 14 | 1d model problems | chapter 3.5,3.6,3.8 | ||
thu | apr | 16 | 1d discretization | chapter 4 | h02 b01 b02 b03 | h01 |
tue | apr | 21 | 1d finite elements | chapter 5 | ||
thu | apr | 23 | multi d strong and weak forms | chapter 6 | ||
tue | apr | 28 | multi d discretiation / triangles | chapter 7.2,7.6 | ||
thu | apr | 30 | multi d discretiation / quads | chapter 7.4,7.5,7.8 | h03 , h03d , h04 | |
tue | may | 05 | multi d fem / linear elasticity | chapter 9.1,9.2 | h05 | h02 |
thu | may | 07 | multi d fem / linear elasticity | chapter 9.3-9.7 | ||
tue | may | 12 | multi d fem / heat equation | chapter 8 | h03 | |
thu | may | 14 | 1d structural elements / beams | chapter 10.1,10.2 slides | ||
tue | may | 19 | 1d structural elements / beams | chapter 10.3-10.5 matlab | ||
thu | may | 21 | midterm prep | h04 | ||
tue | may | 26 | midterm | |||
thu | may | 28 | special topics in finite element analysis | slides | ||
tue | jun | 02 | special topics in finite element analysis | slides | ||
thu | jun | 04 | no class | |||
fri | jun | 05 | final projects due | h05 |
[edit] textbooks
fish j, belytschko t cook rd buchanan gr logan dl |