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Impact consolidation of mechanically alloyed copper-carbon powder
It is reported W-C
that use of specially
powder,
powder,
instead
had allowed
WCC0
materials.
mation
production The
of triangular
was investigated. tening
of W
formation
of W-C-Co
crystallographic solid
state
grains
in
WC
during
grains to flat-
ball
milling,
die compaction,
intermediates,
relationship
heating, presence
with
to WC
and
a
during
collapse
of
of
a W-C-Co
liquid
K.Isonwhi, M.Asano.
by
hours
had
a Ti/Si
1000
hours
there
627°C
for powders was more
in a 1:l
ratio,
investigated
with
properties. The and
330
and
than
was
to structure
and
fracture
TiAl,
IOO-hour
phase
with
strength
1350MPa
The
sintered
a
hardness product
with
is
a Ni-Al
additive.
er density. spherical
ration
solubility tice
parameter
were
mechanically
the supersaturated
95%
was
25at%.
at 1.4GPa
and Vicker’s
hardness
of 121.
powder had 96.3%
density
of
compacted
and hardness
from lat-
compacted
Impact
Solid-state reactions in mechanically alloyed magnesium-silica A.Yamazaki et al. (Nihon University, Narashino, Japan.) J.Japan Sot Powder/Powde~/Metall., Vol 48, No 1, 2001,6 J -66. In Japanese. powders
alloyed
together
pressed.
Reactions
powders
and sintered
tigated.
It
44
was
in
Ar
were mechanically and
between materials
found
MPR October
that
2002
regard
to pore sizes and distribution
Milled
depended
on
materials.
Pores
under was a
594°C 1000
to
hours.
heating
and
hours attained
the
high-
is attributed
to
are discussed
findings
vacuum Mg
and were
the
of ordered
by
very
in dried
by promotion
in atmosphere
of moisof diffusion
products.
is essential
Presence for
of
complete
debinding.
fine
Digital in situ measurement of uneven shrinkage in PIM compacts R.Watanabe et al. (Tohoku University, Sendai, Japan.) J. japan Sot Powder/Powder/Metall., Vo148, No 1, 200 1, The problem ing sintering
intermetallic is noted.
several
materi-
This
NiAl
can
be
including
of long range ordering
by incorpo-
phases
phase.
Grain
methods
phases.
a composite Long
with
and
A ternary
milling
characterised
Rietvald’s
powder
Ni-Alof pro-
NiTi
and
Ni-Al-Ti
alloying
Structures
were
ordered
a disordered
mechanical
these phases.
at different
formed stages of
and analysed
structure
by
refinement
methodology.
shrinkage
sintering
is noted.
It is reported
imaging
technique
had been
that a digital used in situ to
measure this in two dimensions tact basis in real time. The experimental that
than
attributed
on a non-con-
method
results are described.
shrinkage
greater
beneath below
and some
It was found
a curved
a plane
to differences
dur-
moulded parts during
surface
surface.
in packing
This
is is
density.
Development and challenges injection moulding
of
Y..f.Cao. (Central Iron/Steel Research Inst., Beijing, China.) PM Industry, Vol 11, No 3, 2001, 7-17. In Chrnese Advantages
and limitations
tion
moulding,
PM
and
Potential cost
compared
investment
of powder injec-
with
casting
conventional are
reviewed.
for growth and challenges,
effectiveness
including
and attainment
of dimen-
are considered.
Powder injection moulding Miscellaneous
Characterisation of waterand gas-atomised SS powders for MIM
Automation
D.Rodrigues et al. (Inst. Pesqui. Tecnol. Estado, Sao Paula, Brazil.) PM SciencelTechnol. Briefs, Vol 3, No I, 2001,14-17 Parameters
affecting
and gas-atomised
hot-
moulding, discussed
inves-
of non-uniform
of injection
sional precision,
SiO,
products
proceedures
of 0 and decomposition
with
, which
due to evaporation
ture aid debinding 0
into pipes.
were investigated
mixing
and cellu-
in the
had a
of 200.
Mg and SiO,
After
The
of disordered
ducing
measurements,
density
for
had been extruded
at heating
Ti alloy was made with the intention
of C in the Cu, determined
Powder statically
and debinding
densification
during
brittleness
reduction
et al. (Hiroshima Inst. of Technology, Hwshima, Japan.) J.Japan Sot Powder/Powder/Metall., VoL48, No 1, 2001, 9-14. InJapanese. that
Drying
with Al and Ti are reviewed.
improved
T.Yamane
It is reported
lose feedstocks
M.De et al. (Indian Assoc. for Cuftioation of Scrence, Cakutta, India.) Mater. Chemistryll’hyws, Vol 72, 2002, 167-176.
Impact consolidation of mechanically alloyed copper-carbon powder
alloyed.
milled
of metal
propyl methyl
100
Microstructural evolution in ball milling of nickel aluminium titanium
boundary
powders
at
a range
for
up to 1000°C density
that
powder/hydroxy
powders
in terms of superplasticity.
Mechanical alloying
C
hot pressed
rapid
This
Properties
and
structure.
for 1000
grains.
als of Ni
Cu
lamellar
in
powder milled
ceramic
82-86. In Japanex.
Ti3Al
Vicker’s
was brittle.
material
milled
of 1OMPa to ZOOMPa. There increase
powder
of
was attained.
Ti-Al-Co
but the material softer
powders,
density
size of 20 to 25nm.
CoTi,
comprised
a solidified
with
Ti-37.5at%Si
of 20degC.min-1
sudden
elemental
Co
respect full
structure
grain was
Near
of TiAl,
and
of techniques.
1,
It is reported
was amorphisation.
There
Al,
by a range
powder is shown to be the more
K.Ikeda et al. (Tohoktr University, Sendar, Japan.) J .Japan SK Powder/Powder/Metall., Vol48, No I , 2001, 3-8. In English.
No
sintering,
Powders
were vacuum
A.Hibino, S.Matsuoka. Uniwersity of Toyama Prefecture, Toyama, Japan.) J.J@an Sot Pcwder/Powder/Meta11., Vol 48, No 1, 2001, 69-76 In Japanese.
rates
Vol 48,
pressure
alloyed
investigated.
pressures
from
Gas-atomised
(Shiga University, Otsu, Japan.)
Densification,
materials
additive,
were characterised
Drying and debinding of extruded pipes with a water soluble binder
Combustion synthesis of dense TIAJ with COAI sintering additive
sintering
and
heating
Mechanical alloying and densification of titanium-silicon powders
powders
Al
MgO
after
suitable.
mechanically
synthesis
and
at 500°C.
was
Combustion
Mg2Si hardness
J.Jagan Sot PowderlPowderlMerall., 2OOJ,77-81. In Japanese.
WC
ph ase.
Intermetallic
were
in increased
of for-
is attributed
during
in situ
resulted
of superior
prismatic
particles
of these
formed
WC
mechanism
This
orientation
prepared
of conventional
Waterpowders
notably
the suitability
metal
particle
size and shape, are
with regard to density and gas-atomised and
injection
of water-
powders for injection
316L
of compacts. stainless
moulding
steel
feedstocks
in PM operations
H.Hjort. (Jnnouata Inc., Fair&Id, USA.) .) PM SciencelTechnol. Briefs, Vof 3, No I, 2001, 23-26. Matters mentation tion
involved
operations
siderations
with planning
of automation
are discussed.
are illustrated
of a press-to-furnace
and imples
in PM parts producTechnical
through
system.
made for close co-operation
con-
a description
A strong
case is
between
automa-
tion system maker and parts producer
to define
the optimum
system for a given situation.
www.metal-powder.net
that use of specially
powder,
powder,
instead
had allowed
WCC0
materials.
mation
production The
of triangular
was investigated. tening
of W
formation
of W-C-Co
crystallographic solid
state
grains
in
WC
during
grains to flat-
ball
milling,
die compaction,
intermediates,
relationship
heating, presence
with
to WC
and
a
during
collapse
of
of
a W-C-Co
liquid
K.Isonwhi, M.Asano.
by
hours
had
a Ti/Si
1000
hours
there
627°C
for powders was more
in a 1:l
ratio,
investigated
with
properties. The and
330
and
than
was
to structure
and
fracture
TiAl,
IOO-hour
phase
with
strength
1350MPa
The
sintered
a
hardness product
with
is
a Ni-Al
additive.
er density. spherical
ration
solubility tice
parameter
were
mechanically
the supersaturated
95%
was
25at%.
at 1.4GPa
and Vicker’s
hardness
of 121.
powder had 96.3%
density
of
compacted
and hardness
from lat-
compacted
Impact
Solid-state reactions in mechanically alloyed magnesium-silica A.Yamazaki et al. (Nihon University, Narashino, Japan.) J.Japan Sot Powder/Powde~/Metall., Vol 48, No 1, 2001,6 J -66. In Japanese. powders
alloyed
together
pressed.
Reactions
powders
and sintered
tigated.
It
44
was
in
Ar
were mechanically and
between materials
found
MPR October
that
2002
regard
to pore sizes and distribution
Milled
depended
on
materials.
Pores
under was a
594°C 1000
to
hours.
heating
and
hours attained
the
high-
is attributed
to
are discussed
findings
vacuum Mg
and were
the
of ordered
by
very
in dried
by promotion
in atmosphere
of moisof diffusion
products.
is essential
Presence for
of
complete
debinding.
fine
Digital in situ measurement of uneven shrinkage in PIM compacts R.Watanabe et al. (Tohoku University, Sendai, Japan.) J. japan Sot Powder/Powder/Metall., Vo148, No 1, 200 1, The problem ing sintering
intermetallic is noted.
several
materi-
This
NiAl
can
be
including
of long range ordering
by incorpo-
phases
phase.
Grain
methods
phases.
a composite Long
with
and
A ternary
milling
characterised
Rietvald’s
powder
Ni-Alof pro-
NiTi
and
Ni-Al-Ti
alloying
Structures
were
ordered
a disordered
mechanical
these phases.
at different
formed stages of
and analysed
structure
by
refinement
methodology.
shrinkage
sintering
is noted.
It is reported
imaging
technique
had been
that a digital used in situ to
measure this in two dimensions tact basis in real time. The experimental that
than
attributed
on a non-con-
method
results are described.
shrinkage
greater
beneath below
and some
It was found
a curved
a plane
to differences
dur-
moulded parts during
surface
surface.
in packing
This
is is
density.
Development and challenges injection moulding
of
Y..f.Cao. (Central Iron/Steel Research Inst., Beijing, China.) PM Industry, Vol 11, No 3, 2001, 7-17. In Chrnese Advantages
and limitations
tion
moulding,
PM
and
Potential cost
compared
investment
of powder injec-
with
casting
conventional are
reviewed.
for growth and challenges,
effectiveness
including
and attainment
of dimen-
are considered.
Powder injection moulding Miscellaneous
Characterisation of waterand gas-atomised SS powders for MIM
Automation
D.Rodrigues et al. (Inst. Pesqui. Tecnol. Estado, Sao Paula, Brazil.) PM SciencelTechnol. Briefs, Vol 3, No I, 2001,14-17 Parameters
affecting
and gas-atomised
hot-
moulding, discussed
inves-
of non-uniform
of injection
sional precision,
SiO,
products
proceedures
of 0 and decomposition
with
, which
due to evaporation
ture aid debinding 0
into pipes.
were investigated
mixing
and cellu-
in the
had a
of 200.
Mg and SiO,
After
The
of disordered
ducing
measurements,
density
for
had been extruded
at heating
Ti alloy was made with the intention
of C in the Cu, determined
Powder statically
and debinding
densification
during
brittleness
reduction
et al. (Hiroshima Inst. of Technology, Hwshima, Japan.) J.Japan Sot Powder/Powder/Metall., VoL48, No 1, 2001, 9-14. InJapanese. that
Drying
with Al and Ti are reviewed.
improved
T.Yamane
It is reported
lose feedstocks
M.De et al. (Indian Assoc. for Cuftioation of Scrence, Cakutta, India.) Mater. Chemistryll’hyws, Vol 72, 2002, 167-176.
Impact consolidation of mechanically alloyed copper-carbon powder
alloyed.
milled
of metal
propyl methyl
100
Microstructural evolution in ball milling of nickel aluminium titanium
boundary
powders
at
a range
for
up to 1000°C density
that
powder/hydroxy
powders
in terms of superplasticity.
Mechanical alloying
C
hot pressed
rapid
This
Properties
and
structure.
for 1000
grains.
als of Ni
Cu
lamellar
in
powder milled
ceramic
82-86. In Japanex.
Ti3Al
Vicker’s
was brittle.
material
milled
of 1OMPa to ZOOMPa. There increase
powder
of
was attained.
Ti-Al-Co
but the material softer
powders,
density
size of 20 to 25nm.
CoTi,
comprised
a solidified
with
Ti-37.5at%Si
of 20degC.min-1
sudden
elemental
Co
respect full
structure
grain was
Near
of TiAl,
and
of techniques.
1,
It is reported
was amorphisation.
There
Al,
by a range
powder is shown to be the more
K.Ikeda et al. (Tohoktr University, Sendar, Japan.) J .Japan SK Powder/Powder/Metall., Vol48, No I , 2001, 3-8. In English.
No
sintering,
Powders
were vacuum
A.Hibino, S.Matsuoka. Uniwersity of Toyama Prefecture, Toyama, Japan.) J.J@an Sot Pcwder/Powder/Meta11., Vol 48, No 1, 2001, 69-76 In Japanese.
rates
Vol 48,
pressure
alloyed
investigated.
pressures
from
Gas-atomised
(Shiga University, Otsu, Japan.)
Densification,
materials
additive,
were characterised
Drying and debinding of extruded pipes with a water soluble binder
Combustion synthesis of dense TIAJ with COAI sintering additive
sintering
and
heating
Mechanical alloying and densification of titanium-silicon powders
powders
Al
MgO
after
suitable.
mechanically
synthesis
and
at 500°C.
was
Combustion
Mg2Si hardness
J.Jagan Sot PowderlPowderlMerall., 2OOJ,77-81. In Japanese.
WC
ph ase.
Intermetallic
were
in increased
of for-
is attributed
during
in situ
resulted
of superior
prismatic
particles
of these
formed
WC
mechanism
This
orientation
prepared
of conventional
Waterpowders
notably
the suitability
metal
particle
size and shape, are
with regard to density and gas-atomised and
injection
of water-
powders for injection
316L
of compacts. stainless
moulding
steel
feedstocks
in PM operations
H.Hjort. (Jnnouata Inc., Fair&Id, USA.) .) PM SciencelTechnol. Briefs, Vof 3, No I, 2001, 23-26. Matters mentation tion
involved
operations
siderations
with planning
of automation
are discussed.
are illustrated
of a press-to-furnace
and imples
in PM parts producTechnical
through
system.
made for close co-operation
con-
a description
A strong
case is
between
automa-
tion system maker and parts producer
to define
the optimum
system for a given situation.
www.metal-powder.net