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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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16.225 is a graduate level course on Computational Mechanics of Materials. The primary focus of this course is on the teaching of state-of-the-art numerical methods for the analysis of the nonlinear continuum response of materials. The range of material behavior considered in this course includes: linear and finite deformation elasticity, i
Author(s):
Tag(s):
- aeronautics and astronautics
- computational mechanics
- computation
- mechanics
- materials
- numerical methods
- numerical
- nonlinear continuum response
- continuum
- deformation
- elasticity
- inelasticity
- dynamics
- variational formulation
- variational constitutive updates
- finite element
- discretization
- error estimation
- constrained problems
- time integration
- convergence a
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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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1.033 provides an introduction to continuum mechanics and material modeling of engineering materials based on first energy principles: deformation and strain; momentum balance, stress and stress states; elasticity and elasticity bounds; plasticity and yield design. The overarching theme is a unified mechanistic language using thermodynamics
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Tag(s):
- civil and environmental engineering
- continuum mechanics
- material modeling
- engineering materials
- energy principles: deformation and strain
- momentum balance
- stress
- stress states
- elasticity and elasticity bounds
- plasticity
- yield design
- first energy principles
- deformation
- strain
- elasticity bounds
- unified mechanistic language
- thermodynamics
- engineering structures
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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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This subject provides an introduction to the mechanics of materials and structures. You will be introduced to and become familiar with all relevant physical properties and fundamental laws governing the behavior of materials and structures and you will learn how to solve a variety of problems of interest to civil and environmental engineers
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Tag(s):
- civil and environmental engineering
- mechanics
- materials
- structures
- engineering design
- galileo's problem
- dimensional analysis
- atomic explosion
- world trade center towers
- stress
- continuum model
- beam model
- strength models
- strength criteria
- stress plane
- deformation
- strain tensor
- mohr circle
- elasticity
- energy bounds
- fracture mechanics
- collapse
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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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The main objective of 1.054/1.541 is to provide students with a rational basis of the design of reinforced concrete members and structures through advanced understanding of material and structural behavior. This course is offered to undergraduate (1.054) and graduate students (1.541). Topics covered include: Strength and Deformation of Conc
Author(s):
Tag(s):
- civil and environmental engineering
- concrete structures
- mechanics
- design
- strength
- deformation
- stress
- strain
- failure criteria
- concrete plasticity
- fracture mechanics
- reinforced concrete
- code constraints
- high-performance materials
- slabs
- yield line theory
- behavior models
- nonlinear analysis
- bridge structures
- concrete shells
- containments
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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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The goal of 3.044 is to teach cost-effective and sustainable production of solid material with a desired geometry, structure or distribution of structures, and production volume. Toward this end, it is organized around different types of phase transformations which determine the structure in various processes for making materials, in roughl
Author(s):
Tag(s):
- materials science and engineering
- diffusion
- chemical reaction
- phase transformation
- heat transport
- mass transport
- fluid
- fluid flow
- recycling
- cost modeling
- multilayer
- biot number
- radiation
- convection
- titanium
- moving bodies
- reynolds number
- turbulence
- reactor
- deformation
- polymer
- vapor transport
- nanotechnology
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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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Here we will learn about the mechanical behavior of structures and materials, from the continuum description of properties to the atomistic and molecular mechanisms that confer those properties to all materials. We will cover elastic and plastic deformation, creep, fracture and fatigue of materials including crystalline and amorphous metals
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Tag(s):
- materials science and engineering
- phenomenology
- mechanical behavior
- material structure
- deformation
- failure
- elasticity
- viscoelasticity
- plasticity
- creep
- fracture
- fatigue
- metals
- semiconductors
- ceramics
- polymers
- microstructure
- composition
- semiconductor diodes
- thin films
- carbon nanotubes
- battery materials
- superelastic alloys
- defect nucleation
- student proje
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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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This course will focus on various aspects of mirror symmetry. It is aimed at students who already have some basic knowledge in symplectic and complex geometry (18.966, or equivalent). The geometric concepts needed to formulate various mathematical versions of mirror symmetry will be introduced along the way, in variable levels of detail and
Author(s):
Tag(s):
- mathematics
- mirror symmetry
- deformation
- hodge theory
- pseudoholomorphic
- gromov-witten
- cohomology
- yukawa
- monodromy
- picard-fuchs
- lagrangian floer theory
- homology
- syz conjecture
- submanifolds
- k3 surfaces
- matrices
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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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This course provides an introduction to the mechanics of solids with applications to science and engineering. We emphasize the three essential features of all mechanics analyses, namely: (a) the geometry of the motion and/or deformation of the structure, and conditions of geometric fit, (b) the forces on and within structures and assemblage
Author(s):
Tag(s):
- mechanical engineering
- statics
- pressure
- deformation
- deformable solid
- equilibrium
- geometric compatibility
- material behavior
- stress
- strain
- shear
- elasticity
- thermal expansion
- failure modes
- biomechanics
- natural materials
- motion
- structure
- force
- moment
- member
- truss
- friction
- torsion
- bending
- displacement
- beam
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