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MachStämme

Machstämme (Mach stems) are a feature of shock-wave reflections observed in high-speed gas dynamics. They describe the portion of a reflected shock that forms a contiguous, nearly vertical front between a rigid boundary and the triple point where the incident, reflected, and Mach shocks meet. The Mach stem runs roughly normal to the boundary and concentrates pressure, producing higher stagnation pressures behind it than a simple regular reflection would.

The phenomenon occurs when a planar shock wave strikes a flat surface at a sufficiently large angle.

In practice, Machstämme influence peak overpressure and impulse in detonations and in explosive energy release, as

The term is mainly used in German-language literature on gas dynamics, while English sources usually refer

At
low
incidence
angles,
the
reflection
is
a
regular
reflection
with
two
shocks
meeting
the
boundary.
Above
a
critical
angle,
the
reflected
shock
cannot
attach
directly
to
the
boundary,
and
a
third
shock—the
Mach
stem—emerges,
along
with
a
Mach
front
and
a
triple
point
that
migrates
along
the
surface
as
the
flow
evolves.
The
terms
Mach
stem
and
Mach
reflection
originate
from
studies
of
high-speed
aerodynamics
by
Ernst
Mach
and
subsequent
experiments.
well
as
loads
on
aerospace
structures
during
hypersonic
flight
or
blast
interactions.
They
are
analyzed
with
gas-dynamic
theory,
shock
polar
diagrams,
and
numerical
simulations
to
estimate
pressures
and
distances
of
the
triple
point.
to
Mach
stems
and
Mach
reflection.