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decohesion

Decohesion is a fracture mechanism in which separation occurs along interfaces within a material due to loss of cohesion at the interface. It is particularly relevant for polycrystalline metals, ceramics, composites, and rocks, where grain boundaries, phase boundaries, or particle–matrix interfaces can govern failure. It can present as intergranular cracking, interfacial debonding, or delamination.

Mechanisms and driving factors: The strength of an interface is characterized by interfacial fracture toughness or

Characterization and examples: Observed as intergranular cracks in metals, delamination in layered composites, or debonding at

Relation to other failure modes and mitigation: Decohesion is distinct from transgranular fracture within grains. Controlling

energy
of
separation.
Decohesion
occurs
when
the
energy
release
rate
for
opening
the
interface
exceeds
this
toughness.
Environmental
and
microstructural
factors—such
as
chemical
reactions,
corrosion,
moisture,
temperature,
irradiation,
residual
stresses,
lattice
mismatch,
and
impurities—can
weaken
interfaces
and
promote
decohesion.
particle-matrix
boundaries.
Experimental
methods
include
microscopy
and
fracture
tests;
modeling
often
uses
cohesive-zone
concepts
with
traction-separation
laws
to
describe
opening
of
the
interface
and
calculation
of
Gc
or
interfacial
K_IC.
decohesion
involves
strengthening
interfaces,
applying
coatings,
adding
interfacial
toughening
mechanisms,
processing
to
reduce
residual
stresses,
and
managing
environmental
exposure.