SwRI uses hydrocodes to discover the underlying physical processes that control a system's response.

	Hydrocode graph

Hydrocodes are used to simulate large deformation material response and dynamic processes and to solve the continuum equations for the nonlinear response of materials and structures.

Hydrocodes routinely used are based on methods such as:

• One-dimensional Lagrangian to fully three-dimensional Lagrangian

• Eulerian methods to Arbitrary Lagrangian Eulerian (ALE)

• Smooth particle hydrodynamics (SPH)

Expertise in constitutive modeling, fracture mechanics, algorithms, and parallel computing are employed to enhance problem solving. Southwest Research Institute (SwRI) Engineering Dynamics staff enhance and apply hydrocodes to a broad range of problems such as:

	Hydrocode graph

• Penetration mechanics

• Fracture mechanics

• Fluid-structure interaction

• Armor system design

• Detonation analysis

• Blast analysis

A suite of codes for these applications is maintained.
 

Computational Mechanics Hydrocodes:

• CTH

• ALE3D

• CALE

• DYNA3D

• EPIC 99

• PRONTO

• HEMP

Computational Mechanics Applications:

	Simulation of penetration of a yawed long rod into a target (Hydrocode simulation)

• Penetration

• Detonation / blast

• Fluid-structure interaction

• Large deformation response

• Hydrodynamic ram

• Armor systems

• Agent defeat

• Failure response

• Impact

For more information about computational mechanics and hydrocodes capabilities at SwRI or how you can contract with SwRI, please contact Christopher Freitas, Ph.D., P.E., at cfreitas@swri.org or  (210) 522-2137.