Results 161 to 170 of about 4,870 (217)

Differentiating CSF flow artifacts from pathology: an educational review. [PDF]

open access: yesInsights Imaging
Pai V   +9 more
europepmc   +1 more source

Forming Limits in Hydromechanical Deep Drawing

open access: yesCIRP Annals - Manufacturing Technology, 1994
A systematic approach predicting the possibility of forming complex shapes in hydromechanical deep drawing has been developed The method is based on knowledge about the limiting curve of drawing-in of the flange caused by fracture, adopting different ...
N Bay
exaly   +2 more sources
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Hydromechanical deep drawing

Scandinavian Journal of Metallurgy, 2000
An experimental investigation on the control of process parameters for the hydromechanical deep drawing of mild steel and an aluminium alloy with special attention to control of the blank holder force (BHF) is carried out. The effect of the counter pressure in the hydromechanical deep drawing process is investigated in combination with different ...
Damborg, Flemming Falck   +1 more
openaire   +2 more sources

Hydromechanics

2011
- Kinematics of the Deformable Medium - Dynamic Equations of Continuum - Closed Systems of Mechanical Equations for the Simplest Models of Continuum - Basic Notions and Equations of Thermodynamics - Setting up of Problems in Continuum Mechanics - Hydrostatics - Stationary Motion of Continuum Medium - Application of Integral Relations to finite Volumes ...
  +4 more sources

The hydromechanics of suspensions

Journal of Engineering Physics, 1989
Thermodynamic forces are introduced into the momentum conservation equations for the phases of a monodisperse suspension of fine particles in order to permit effective description of the presence of diffusion processes in flows, thus circumventing the main difficulty encountered in the hydromechanics of suspensions.
Yu. A. Buevich   +2 more
openaire   +1 more source

Hydromechanics and biology

Biophysics of Structure and Mechanism, 1981
To exemplify relations between biology and hydrodynamics the Reynolds number range and the effects of viscosity and inertia in swimming and flying organisms is discussed. Comparing water beetles and penguins it is shown, that the technical drag coefficient is an adequate means to describe flow adaptation in animals.
openaire   +2 more sources

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