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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 objective of this course is to introduce large-scale atomistic modeling techniques and highlight its importance for solving problems in modern engineering sciences. We demonstrate how atomistic modeling can be used to understand how materials fail under extreme loading, involving unfolding of proteins and propagation of cracks.
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Author(s):
Tag(s):
- civil and environmental engineering
- large-scale atomistic
- large-scale atomistic modeling techniques
- modern engineering sciences
- atomistic modeling
- extreme loading
- ductile and brittle materials failure
- molecular dynamics
- simulations
- cauchy-born rule
- biomechanics
- biomaterials
- copper nanocrystal
- nanomechanics
- material mechanics
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This OER is part of OCW: From Nano to Macro: Introduction to Atomistic Modeling Techniques
Published under: /Download Course Materials
This OER is part of OCW: From Nano to Macro: Introduction to Atomistic Modeling Techniques
Published under: /Download Course Materials
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Used by:
Inherited Tag(s):
- civil and environmental engineering
- large-scale atomistic
- large-scale atomistic modeling techniques
- modern engineering sciences
- atomistic modeling
- extreme loading
- ductile and brittle materials failure
- molecular dynamics
- simulations
- cauchy-born rule
- biomechanics
- biomaterials
- copper nanocrystal
- nanomechanics
- material mechanics
File: ps2_solution.pdf
This OER is part of OCW: From Nano to Macro: Introduction to Atomistic Modeling Techniques
Published under: /Assignments
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OCW Authors:
Inherited Tag(s):
- civil and environmental engineering
- large-scale atomistic
- large-scale atomistic modeling techniques
- modern engineering sciences
- atomistic modeling
- extreme loading
- ductile and brittle materials failure
- molecular dynamics
- simulations
- cauchy-born rule
- biomechanics
- biomaterials
- copper nanocrystal
- nanomechanics
- material mechanics
File: ps1.pdf
This OER is part of OCW: From Nano to Macro: Introduction to Atomistic Modeling Techniques
Published under: /Assignments
Share in:
OCW Authors:
Inherited Tag(s):
- civil and environmental engineering
- large-scale atomistic
- large-scale atomistic modeling techniques
- modern engineering sciences
- atomistic modeling
- extreme loading
- ductile and brittle materials failure
- molecular dynamics
- simulations
- cauchy-born rule
- biomechanics
- biomaterials
- copper nanocrystal
- nanomechanics
- material mechanics
File: ps2.pdf
This OER is part of OCW: From Nano to Macro: Introduction to Atomistic Modeling Techniques
Published under: /Assignments
Share in:
OCW Authors:
Inherited Tag(s):
- civil and environmental engineering
- large-scale atomistic
- large-scale atomistic modeling techniques
- modern engineering sciences
- atomistic modeling
- extreme loading
- ductile and brittle materials failure
- molecular dynamics
- simulations
- cauchy-born rule
- biomechanics
- biomaterials
- copper nanocrystal
- nanomechanics
- material mechanics
File: ps1_solution.pdf
This OER is part of OCW: From Nano to Macro: Introduction to Atomistic Modeling Techniques
Published under: /Assignments
Share in:
OCW Authors:
Inherited Tag(s):
- civil and environmental engineering
- large-scale atomistic
- large-scale atomistic modeling techniques
- modern engineering sciences
- atomistic modeling
- extreme loading
- ductile and brittle materials failure
- molecular dynamics
- simulations
- cauchy-born rule
- biomechanics
- biomaterials
- copper nanocrystal
- nanomechanics
- material mechanics
File: c_nmd_tutorl_prt.pdf
This OER is part of OCW: From Nano to Macro: Introduction to Atomistic Modeling Techniques
Published under: /Readings
Share in:
OCW Authors:
Inherited Tag(s):
- civil and environmental engineering
- large-scale atomistic
- large-scale atomistic modeling techniques
- modern engineering sciences
- atomistic modeling
- extreme loading
- ductile and brittle materials failure
- molecular dynamics
- simulations
- cauchy-born rule
- biomechanics
- biomaterials
- copper nanocrystal
- nanomechanics
- material mechanics
File: lec02.pdf
This OER is part of OCW: From Nano to Macro: Introduction to Atomistic Modeling Techniques
Published under: /Lecture Notes
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OCW Authors:
Inherited Tag(s):
- civil and environmental engineering
- large-scale atomistic
- large-scale atomistic modeling techniques
- modern engineering sciences
- atomistic modeling
- extreme loading
- ductile and brittle materials failure
- molecular dynamics
- simulations
- cauchy-born rule
- biomechanics
- biomaterials
- copper nanocrystal
- nanomechanics
- material mechanics
File: lec05.pdf
This OER is part of OCW: From Nano to Macro: Introduction to Atomistic Modeling Techniques
Published under: /Lecture Notes
Share in:
OCW Authors:
Inherited Tag(s):
- civil and environmental engineering
- large-scale atomistic
- large-scale atomistic modeling techniques
- modern engineering sciences
- atomistic modeling
- extreme loading
- ductile and brittle materials failure
- molecular dynamics
- simulations
- cauchy-born rule
- biomechanics
- biomaterials
- copper nanocrystal
- nanomechanics
- material mechanics
File: lec07.pdf
This OER is part of OCW: From Nano to Macro: Introduction to Atomistic Modeling Techniques
Published under: /Lecture Notes
Share in:
OCW Authors:
Inherited Tag(s):
- civil and environmental engineering
- large-scale atomistic
- large-scale atomistic modeling techniques
- modern engineering sciences
- atomistic modeling
- extreme loading
- ductile and brittle materials failure
- molecular dynamics
- simulations
- cauchy-born rule
- biomechanics
- biomaterials
- copper nanocrystal
- nanomechanics
- material mechanics
File: lec01.pdf
This OER is part of OCW: From Nano to Macro: Introduction to Atomistic Modeling Techniques
Published under: /Lecture Notes
Share in:
OCW Authors:
Inherited Tag(s):
- civil and environmental engineering
- large-scale atomistic
- large-scale atomistic modeling techniques
- modern engineering sciences
- atomistic modeling
- extreme loading
- ductile and brittle materials failure
- molecular dynamics
- simulations
- cauchy-born rule
- biomechanics
- biomaterials
- copper nanocrystal
- nanomechanics
- material mechanics
File: lec06.pdf
This OER is part of OCW: From Nano to Macro: Introduction to Atomistic Modeling Techniques
Published under: /Lecture Notes
Share in:
OCW Authors:
Inherited Tag(s):
- civil and environmental engineering
- large-scale atomistic
- large-scale atomistic modeling techniques
- modern engineering sciences
- atomistic modeling
- extreme loading
- ductile and brittle materials failure
- molecular dynamics
- simulations
- cauchy-born rule
- biomechanics
- biomaterials
- copper nanocrystal
- nanomechanics
- material mechanics
File: lec04.pdf
This OER is part of OCW: From Nano to Macro: Introduction to Atomistic Modeling Techniques
Published under: /Lecture Notes
Share in:
OCW Authors:
Inherited Tag(s):
- civil and environmental engineering
- large-scale atomistic
- large-scale atomistic modeling techniques
- modern engineering sciences
- atomistic modeling
- extreme loading
- ductile and brittle materials failure
- molecular dynamics
- simulations
- cauchy-born rule
- biomechanics
- biomaterials
- copper nanocrystal
- nanomechanics
- material mechanics
File: lec03.pdf
This OER is part of OCW: From Nano to Macro: Introduction to Atomistic Modeling Techniques
Published under: /Lecture Notes
Share in:
OCW Authors:
Inherited Tag(s):
- civil and environmental engineering
- large-scale atomistic
- large-scale atomistic modeling techniques
- modern engineering sciences
- atomistic modeling
- extreme loading
- ductile and brittle materials failure
- molecular dynamics
- simulations
- cauchy-born rule
- biomechanics
- biomaterials
- copper nanocrystal
- nanomechanics
- material mechanics
File: lec08.pdf
This OER is part of OCW: From Nano to Macro: Introduction to Atomistic Modeling Techniques
Published under: /Lecture Notes
Share in:
OCW Authors:
Inherited Tag(s):
- civil and environmental engineering
- large-scale atomistic
- large-scale atomistic modeling techniques
- modern engineering sciences
- atomistic modeling
- extreme loading
- ductile and brittle materials failure
- molecular dynamics
- simulations
- cauchy-born rule
- biomechanics
- biomaterials
- copper nanocrystal
- nanomechanics
- material mechanics
File: project_intro.pdf
This OER is part of OCW: From Nano to Macro: Introduction to Atomistic Modeling Techniques
Published under: /Projects
Share in:
OCW Authors:
Inherited Tag(s):
- civil and environmental engineering
- large-scale atomistic
- large-scale atomistic modeling techniques
- modern engineering sciences
- atomistic modeling
- extreme loading
- ductile and brittle materials failure
- molecular dynamics
- simulations
- cauchy-born rule
- biomechanics
- biomaterials
- copper nanocrystal
- nanomechanics
- material mechanics
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