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testfitting

Testfitting is the process of evaluating the fit, clearance, and interface of components, assemblies, or spaces before final fabrication or installation. It uses real parts, mockups, or digital representations to verify geometry, tolerances, alignment, and usability. The aim is to identify clashes, misalignments, or ergonomic issues early, reducing the risk of costly changes during construction or production.

In architecture and interior fit-outs, test fitting assesses whether a proposed layout will function within a

Methods range from full-size physical mockups and 3D-printed components to digital simulations and virtual clash detection.

Typical workflow involves defining requirements and constraints, developing a test model or mock-up, performing the fit

given
space.
It
examines
the
positions
of
walls,
doors,
columns,
utilities,
and
furniture
or
equipment,
as
well
as
circulation
and
accessibility.
In
manufacturing,
test
fitting
checks
that
machined
parts
and
subassemblies
join
correctly
and
that
interfaces,
fasteners,
seals,
and
cables
align
as
designed.
In
cabinetry,
plumbing,
or
electrical
installations,
test
fitting
helps
verify
mounting
locations
and
service
clearances
before
permanent
installation.
Tools
include
measurement
devices,
laser
scanners,
CAD
models,
and
BIM
software.
The
process
may
also
involve
creating
a
temporary
assembly,
documenting
deviations,
and
iterating
the
design
until
the
fit
is
acceptable.
check,
recording
measurements
and
issues,
revising
the
design
or
layout,
re-testing,
and
finalizing
documentation
for
construction
or
production.
Benefits
include
reduced
field
modifications,
improved
ergonomics
and
safety,
and
lower
risk
of
schedule
delays.
Limitations
may
include
added
lead
time
and
cost
for
mockups
or
prints
and
the
possibility
that
a
test
fit
cannot
capture
all
real-world
conditions.