Skip to main navigation
Skip to search
Skip to main content
TU Delft Research Portal Home
Help & FAQ
Home
Research units
Researchers
Research output
Datasets
Projects
Equipment
Press/Media
Prizes
Activities
Search by expertise, name or affiliation
Kinematic Methods for the Rational Design of Mechanical Metamaterials
F.G.J. Broeren
Precision and Microsystems Engineering
Research output
:
Thesis
›
Dissertation (TU Delft)
34
Downloads (Pure)
Overview
Fingerprint
Research output
(5)
Fingerprint
Dive into the research topics of 'Kinematic Methods for the Rational Design of Mechanical Metamaterials'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Applied Force
16%
Compliant Mechanism
16%
Computer Model
16%
Design Adaptation
16%
Design Decisions
16%
Design Freedom
16%
Design Iteration
16%
Design Problems
16%
Design Process
33%
Design Strategy
16%
Forced Deformation
16%
Kinematic Method
100%
Long Passive
16%
Material Design
33%
Material Properties
66%
Mechanical Metamaterials
100%
Metamaterials
33%
Model Complexity
16%
Multiple Functions
16%
Natural Materials
16%
Negative Poisson's Ratio
16%
Pseudo-rigid-body Model
16%
Rational Design
100%
Rigid Parts
16%
Stadium
16%
Stiffness
33%
Structured Design
33%
Engineering
Applied Force
12%
Complex Model
12%
Complexity
25%
Compliant Mechanism
12%
Computer Model
12%
Deformation
37%
Design
100%
Design Decision
12%
Design Iteration
12%
Design Problem
12%
Design Process
25%
Desired Property
12%
Direction Perpendicular
12%
Environment
12%
Fields
12%
Great Variety
12%
Joints (Structural Components)
12%
Models
37%
Poisson Ratio
12%
Rigid Part
12%
Rigid Structure
12%
Small Scale
12%
Stadiums
12%
Material Science
Compliant Mechanism
12%
Materials
100%
Materials Design
12%
Materials Property
50%
Mechanical Metamaterials
100%
Metamaterial
25%
Natural Material
12%
Poisson Ratio
12%
Stiffness
25%
INIS
atoms
7%
computerized simulation
7%
contracts
7%
deformation
23%
design
100%
environment
7%
metamaterials
100%
molecules
7%
poisson ratio
7%
range
7%
solutions
7%
stiffness
15%