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loadinduced

Load-induced refers to effects or phenomena that arise from externally applied loads or forces on a material, structure, or biological tissue. It encompasses the mechanical response to loading, including immediate elastic deformation and time-dependent processes such as plastic deformation, creep, fatigue, and progressive damage.

In materials science, loads produce stress and strain and can induce changes such as phase transformations,

Modeling and measurement approaches used to study load-induced responses include finite element analysis, strain gauges, and

See also: stress and strain, fatigue, creep, buckling, phase transformation, finite element analysis, mechanostat.

crack
initiation,
and
crack
growth
under
cyclic
loading.
In
civil
and
mechanical
engineering,
designs
must
anticipate
expected
loads
to
prevent
failure;
dynamic
or
impact
loads
can
cause
resonance,
excessive
stresses,
reduced
fatigue
life,
or
buckling
in
slender
components.
In
biomechanics,
load-induced
adaptation
describes
how
tissues
respond
to
mechanical
stimuli:
bones
remodel
with
changing
strain
levels
(the
mechanostat
concept),
joints
experience
cartilage
compression,
and
ligaments
adapt
to
loading
regimes.
In
manufacturing
and
electronics,
assembly
and
service
loads
can
cause
deformation
that
degrades
performance
or
reliability,
with
potential
load-induced
failures
including
creep,
fatigue
fracture,
and
thermal–mechanical
distortion.
nondestructive
testing.
Design
and
analysis
aim
to
predict
these
responses,
establish
safety
factors,
and
guide
material
selection
and
geometry
to
mitigate
adverse
effects
or
to
harness
beneficial
adaptations.