Faculty Directory

Haslach, Henry

Haslach, Henry

Associate Research Professor
Senior Lecturer
Mechanical Engineering
Brain and Behavior Institute
2153 Glenn L. Martin Hall
Website(s):

A long-term goal of my research is to investigate the interaction between cerebral arteries and the brain tissue under external trauma. Dangerous mechanical interaction of the cerebral vascular system with the brain parenchyma during mild traumatic brain injury may result from a combination of shear and compression deformation waves that causes non-diffusive extracellular fluid motion. This investigation would measure the mechanical response, to a combination of shear and compressive deformation, of animal model specimens containing the boundary between the cerebral vascular system and the brain parenchyma, and in particular would measure the mechanical damage that may occur to the blood-brain barrier.  Ultimately the goal is to develop a mathematical model for the mechanical interaction of the vascular system with the brain parenchyma and for flow in the glymphatic system during mild traumatic brain injury to predict forces generated in the extracellular fluid and in the walls of the cerebral arteries.

BACKGROUND

Dr. Haslach is an Associate Research Professor in the Department of Mechanical Engineering of the University of Maryland. His degrees in mathematics are a Bachelor of Science from Trinity College, Hartford, a Masters Degree from the University of Chicago, and a Ph. D from the University of Wisconsin, Madison in algebraic topology. He also has a Masters Degree in Engineering Mechanics from the University of Wisconsin, Madison. He has previously taught Engineering Mechanics at the University of Wisconsin, Madison, and Mechanical Engineering at UMCB in Baltimore. He worked for many years with the Minority Engineering Program at the University of Wisconsin - Madison. Part of this program involved developing and teaching a summer Strength of Materials course to minority high school students to encourage them to enter engineering.

Haslach’s background in mathematics as well as theoretical and experimental mechanics has led to research publications on the application of mathematical catastrophe theory to engineering design, a novel physically-based construction for the non-equilibrium thermodynamics of solids, paper physics, modeling of intracranial aneurysms, the rupture of arteries, and the material properties of brain tissue.

  • Mechanics of soft biological tissue, including brain tissue and arteries.
  • Non-equilibrium thermodynamics.
  • Solid mechanics.
  • Dynamical systems

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