# Fingerprint Dive into the research topics where Stephen R Reid is active. These topic labels come from the works of this person. Together they form a unique fingerprint.

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### Engineering & Materials Science

Crushing

Finite element method

Pipe

Mechanics

Elasticity

Foams

Compaction

Structural dynamics

Membranes

Hinges

Viscosity

Shock waves

Analytical models

Porous materials

Experiments

ABAQUS

Compressive strength

Plastics

Testing

Metals

Mechanical properties

Struts

Dynamic response

Computer simulation

Polymers

Densification

Air

Rigidity

Anisotropy

Kinematics

Geometry

Defects

Momentum

Heuristic methods

Energy absorption

Hazards

Missiles

Piping systems

Convergence of numerical methods

Numerical models

Computational methods

Cells

Linearization

Plasticity

Nonlinear systems

### Physics & Astronomy

#### Chemistry and Materials

elastic properties

porous materials

mechanical properties

polymers

compressive strength

#### General

aerial explosions

dynamic structural analysis

shock

voids

membranes

time marching

shell theory

simulation

retaining

cells

continuity

newton

formulations

heuristic methods

augmentation

kernel functions

incompressibility

numerical stability

plastics

defects

linearization

nonlinear systems

artifacts

proposals

interactions

mesh

crushing

derivation

dissipation

#### Engineering

foams

metal foams

locking

plane stress

solid mechanics

impact loads

#### Physics

viscosity

oscillations

overpressure

shock fronts

kinematics

impact velocity

#### Mathematical and Computer Sciences

approximation

statistical distributions

iteration

#### Aeronautics

blast loads

### Chemical Compounds

Mechanics

Finite element method

Porous materials

Foams

Elasticity

Compaction

Metals

Pipe

Membranes

Mechanical properties

Compressive strength

Testing

Air

Viscosity

Plastics

Anisotropy

Heuristic methods

Energy absorption

Crushing

Geometry

Densification

Defects

Dynamic response

Piping systems

Momentum

Convergence of numerical methods

Structural dynamics

Cells

Linearization

Plasticity

Nonlinear systems

Hazards

Kinematics