Shape Accuracy Improvement of the Flange Turning Process in Aluminum Aerosol Can Production
Eng—Advances in Engineering,
Journal Year:
2024,
Volume and Issue:
5(4), P. 3381 - 3396
Published: Dec. 15, 2024
This
study
investigates
the
flange
turning
process
in
production
of
aluminum
aerosol
bottles.
Aluminum
discs
are
lubricated,
extruded,
trimmed,
washed,
painted,
and
lacquered
before
undergoing
necking,
where
ensures
a
secure,
aesthetically
pleasing
fit.
Errors
turning,
such
as
uneven
or
tapered
surfaces,
can
compromise
bottle
functionality
appearance.
To
address
this,
experiments
were
performed
with
different
tool
geometries,
feed
rates,
rotational
speeds.
The
investigations
aimed
to
achieve
flat,
consistent
surfaces
minimal
deviation
from
desired
geometry.
Two
main
variables
examined:
1
s
waiting
time
at
end
position
variations
rate
cutting
depth.
improved
flatness,
halving
surface
deviations,
while
regrinding
reduced
flatness
errors
tenth
original
values.
Higher
rates
speeds
also
enhanced
quality,
ranging
371
μm
75
μm.
Overall,
this
demonstrates
that
optimizing
parameters
like
angle,
rate,
speed,
along
period,
significantly
enhances
accuracy.
These
findings
support
more
efficient
processes
for
Language: Английский
Analytical and Experimental Study of the Start of the Chip Removal in Rotational Turning
Journal of Experimental and Theoretical Analyses,
Journal Year:
2024,
Volume and Issue:
2(4), P. 103 - 120
Published: Oct. 29, 2024
The
present
challenges
in
the
automotive
industry
require
development
and
practical
implication
of
novel
machining
procedures,
which
will
provide
appropriate
solutions.
These
procedures
should
still
meet
requirements
productivity,
surface
quality
energy
efficiency.
further
introduces
new
problems
that
did
not
occur
(or
occurred
to
a
lesser
extent)
with
traditionally
applied
procedures.
Rotational
turning
has
come
attention
production
engineers
previous
decade
since
it
can
be
used
machine
ground-like
surfaces
an
ecologically
friendly
highly
productive
manner.
However,
chip
removal
characteristic
is
slightly
different
from
traditional
due
special
kinematic
relation
complex
tool
edge
geometry.
run-in
phase
take
longer,
time
period
between
first
contact
formation
constant
cross-sectional
area.
clarification
important
any
procedure.
To
achieve
this
goal,
geometric
parameters
must
determined.
Since
start
crucial
stage
rotational
its
length,
height,
width
area
separately
defined
initial
stage.
Therefore,
paper,
studied.
increasing
determined
analytically
by
application
previously
elaborated
equation
cut
surface.
Calculating
formulas
are
for
stages
removal,
could
forthcoming
studies
analyze
formation.
effects
determining
analyzed
theoretically
deduced
experiments
also
carried
out.
analytical
experimental
analyses
showed
feed
increases
dynamic
load
on
cutting
edge,
while
depth
lowers
growth
chip,
results
lower
tool.
Language: Английский
Generalization Process of the Integrated Mathematical Model Created for the Development of the Production Geometry of Complicated Surfaces
Symmetry,
Journal Year:
2024,
Volume and Issue:
16(12), P. 1618 - 1618
Published: Dec. 6, 2024
Computer
modelling
of
technical
constructions
is
increasingly
carried
out
using
software
that
includes
more
detailed
knowledge,
which
requires
an
increase
in
the
level
as
well
expansion
scope
geometric
knowledge.
A
significant
part
motion
transmission
mechanisms
are
worm
drive
pairs,
for
separation
parts
dealing
with
theoretical
and
practical
problems
found
literature
can
be
experienced
numerous
instances.
Due
to
different
features,
many
cases
helical
surfaces
not
designed
manufactured
a
geometrically
correct
way,
or
best
solution
compulsory
chosen.
The
model
describing
production
process
provides
basis
examining
deviation
between
surface
mathematically
determined
by
designer
produced.
An
integrated
mathematical
kinematic
was
developed
geometrical
analysis
elements
cylindrical
conical
gear
pairs
machining
traditional
thread
grinding
machine,
causes
serious
pitch
fluctuating
error
among
several
other
case
worm.
Modelling
simultaneous
study
manufacturing
errors
basically
performed
toolbox
descriptive
geometry,
including
use
projective
invariants.
Knowing
inheritance
invariants
aim
generalization
creation
relationship
reference
spiral
surfaces.
As
result,
improved
constructive
created,
method
analytically
creating
helicoid
has
been
described
first
time
this
article.
This
procedure
considered
most
important
result
present
Another
significance
further
development
presented
during
surface,
fluctuation
eliminated.
results
obtained,
consisting
model,
lead
new
geometry
technological
environment
regarding
relative
position
cutting
tool
workpiece
them.
Language: Английский
Optimization of Turning of Inconel 625 to Improve Surface Quality After Finishing Process
Materials,
Journal Year:
2024,
Volume and Issue:
17(23), P. 6009 - 6009
Published: Dec. 8, 2024
The
process
of
machining
the
modern
engineering
materials,
such
as
nickel-based
superalloys,
still
requires
improvement.
This
paper
focuses
on
comparing
turning
Inconel
625
superalloy
using
three
types
cutting
inserts
to
obtain
finishing
process.
influence
data,
speed,
feed
rate,
and
depth,
machined
surface
quality,
quality
were
selected.
novelty
research,
described
in
article,
is
optimization
by
stepwise
selection
parameters.
most
important
issue
that
method
can
be
used
industry,
where
increasingly
new
nickel-chromium
materials
with
more
specific
strength
properties
are
for
parts.
Language: Английский