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Status and development of powder metallurgy tooling materials
literature Powder production
~38
Compaction
~38
Sintering
P39
Fundamentals
P39
Iron and steel
P39
Molybdenum
P39
Nickel
P39
Tungsten
P40
Ceramics
P40
Composite
materials
P40
Electrical and magnetic Hard materials
materials
P40
and tool steels
intermetallic
materials
Mechanical
alloying
Metal injection
moulding
authors,
S.&b&m.
(Teknikokullar,
Al,
Al-lwt%Li,
P4*
and He, at high and low pressures, der characteristics. phology, gas
made
Particle
affected
in He
break-up
size and
and
were
sizes and were tions.
organizers.
were considered.
Oxidation
of
Powders
due to secondary
near-spherical
irregular
papers,
mor-
0 content
shape.
finer
on pow-
were influenced
particle
were
to
of air, Ar, N
and densities.
system or, for conference
at finer
in larger
size frac-
and times to disintegration
Use of rotating electric arc for production of spherical powders I.Bica.
(West University of Timisoara, Timisoara, Romania.) Rev. Metal. Madrid, Vol 36, No 4, 2000, 287-291. In English. electric
device had been used to make spherical
arc metal
atomization
and inductive
of
of centrifugal
plasma techniques
had been devised. The method was tested on a
tion frequency
Ni alloy, Ti-O.l7%Pd
SOVdc,
current
3gm.min -1.
50A
applied potential
and
mass
flow
rate
and pure Cu and the
results are described. Effects of process parameters on powder characteristics ed. The
method
were investigat-
allows molten
ed to attain this. Studies of powder and pressing on a CNC press were described. ed that under-cut
It is report-
shape parts had been pro-
duced. This made use of side pressing as well as multiple
top and bottom punches.
and accuracy
of the process,
Consistency
used to make a
gear, were evaluated.
A high-pressure
powders 15mm to 20mm in size when the rotawas 750sec-‘,
parts were discussed with regard to steps need-
triaxial
device
oped and used to investigate
fine, high purity powders of high melting point a combination
and process require-
of uniform high-density
et al. (University of I&ester, I.&ester, UK.) Powder Metall., Vol43, No 3, 2000, 253-262.
It is reported that a process for production using
Powder characteristics ments for production
I.C.Sinka
A.Lacour, F.Folio. (Swiss Federal Inst. of Techno&y, Lausanne, Swit&and.) Powder Met&, Vol 43, No 3, 2000, 245252.
alloys,
T.Hikitaet al. CWaidaMfg.Co. Ltd., Taknyama,Japan.) J.Japan Sot. Powder/Powder Metal., Vol47, No 6, 2000, 658.664. In Japanese.
High-pressure triaxial facility for powder compaction
Centrifugal atomisation of alloys in inductive plasma onto cooled disc
Powder production
a rotating
nozzle device
and surface texture
by gas velocities the
Loan
Powder
Mg and Sn powders were
in a confined
to contact the conference
that
Turkey.)
Metall., No143, No 2, 2000, 173-180.
test the effects of the properties
to contact individual
It is reported
Ankara,
Compaction Development of compacting process for production of under-cut shapes
Effect of atomising gas on characteristics of metal powders
P41
P4*
use the Interlibrary
plasma spraying or laser surface
alloying.
gas atomized
For copies of fuil papers you are recommended
for sintering,
P41
P4*
PM components
Literature.
alloy to fall,
metal powders. Testing by
hydrostatic
with using
two
Deformations
of cyhndrical
pressure
superimposed
was devel-
compaction
up
axial
to
loads
independent
of
samples 700MPa
was possible servo-systems.
and loads could
be measured.
The system is described and results for Fe powders presented. dated
triaxial
closed-die
Isostatic
compaction,
compaction
compaction
and
consolisimulated
tests were carried out.
Samples were compressed
from a state of dense
random packing to near full density.
Intensive grinding of metal powders in electro-magneto-mechanical mill
drop-by-drop, Cu disc.
Status and development of powder metallurgy tooling materials
F.Binczyk et al. (Silesian Technical University, Katowice, Poland.) Powder Tech&., Vol 114, No J-2, ZOOJ, 237, 243.
Laser synthesis of nano-crystalline silicon carbide powder
N.C.Dong, S.C.Yong. (Man&t. Technol. Inst DFM, 1I, No I, 2001, Hubei Shiyan, China.) PM Indushy,Vol 32-35. In Chinese.
Use of an electro-magneto-mechanical
mill
for very high energy grinding of metal powders is described.
It is reported
that the energy in
the centre of the mill is about 2MW.me3, very much
higher
Consequently
than
in
milling
conventional
time is short. Fe-AleSi
was reduced from 155mm utes.
Similar
materials.
38
The
effects
to 8mm in 2 min-
are
Fe-Al&
MPR April
mills.
2002
noted
powder
for
hard-
is intended
on to a spinning
water-cooled
PM tool materials
Y.Zhaoyuan et al. (North
Eastern University, Shenyang, China.) PM Technolqy,Vol19, No 3,2001,162-164. In Chinese. It is reported Sic
powder
vapour
that
had been
reaction
Productivity
of
of synthesis
and
from the
a low cost produced
nano-sized by a laser
(C,H,O)ZSi(CH,),. process,
powder
mechanism
properties
opmental
made for application
00260657/02/$
use and develSuggestions
are
of new tool materials.
Metal powder rolling Z.D.Zhou. (Central Iron and Steel Inst, Beijing, China.) PM Indusrry,Vol 11, No 1, 2001, 36-39. In Chinese Mechanisms
were A
investigated.
in current
trends are reviewed.
mechanism
-see front matter 0
2002
in powder rolling are discussed. where
powder
weight
is
Elsevier Science Ltd. All rights reserved.
~38
Compaction
~38
Sintering
P39
Fundamentals
P39
Iron and steel
P39
Molybdenum
P39
Nickel
P39
Tungsten
P40
Ceramics
P40
Composite
materials
P40
Electrical and magnetic Hard materials
materials
P40
and tool steels
intermetallic
materials
Mechanical
alloying
Metal injection
moulding
authors,
S.&b&m.
(Teknikokullar,
Al,
Al-lwt%Li,
P4*
and He, at high and low pressures, der characteristics. phology, gas
made
Particle
affected
in He
break-up
size and
and
were
sizes and were tions.
organizers.
were considered.
Oxidation
of
Powders
due to secondary
near-spherical
irregular
papers,
mor-
0 content
shape.
finer
on pow-
were influenced
particle
were
to
of air, Ar, N
and densities.
system or, for conference
at finer
in larger
size frac-
and times to disintegration
Use of rotating electric arc for production of spherical powders I.Bica.
(West University of Timisoara, Timisoara, Romania.) Rev. Metal. Madrid, Vol 36, No 4, 2000, 287-291. In English. electric
device had been used to make spherical
arc metal
atomization
and inductive
of
of centrifugal
plasma techniques
had been devised. The method was tested on a
tion frequency
Ni alloy, Ti-O.l7%Pd
SOVdc,
current
3gm.min -1.
50A
applied potential
and
mass
flow
rate
and pure Cu and the
results are described. Effects of process parameters on powder characteristics ed. The
method
were investigat-
allows molten
ed to attain this. Studies of powder and pressing on a CNC press were described. ed that under-cut
It is report-
shape parts had been pro-
duced. This made use of side pressing as well as multiple
top and bottom punches.
and accuracy
of the process,
Consistency
used to make a
gear, were evaluated.
A high-pressure
powders 15mm to 20mm in size when the rotawas 750sec-‘,
parts were discussed with regard to steps need-
triaxial
device
oped and used to investigate
fine, high purity powders of high melting point a combination
and process require-
of uniform high-density
et al. (University of I&ester, I.&ester, UK.) Powder Metall., Vol43, No 3, 2000, 253-262.
It is reported that a process for production using
Powder characteristics ments for production
I.C.Sinka
A.Lacour, F.Folio. (Swiss Federal Inst. of Techno&y, Lausanne, Swit&and.) Powder Met&, Vol 43, No 3, 2000, 245252.
alloys,
T.Hikitaet al. CWaidaMfg.Co. Ltd., Taknyama,Japan.) J.Japan Sot. Powder/Powder Metal., Vol47, No 6, 2000, 658.664. In Japanese.
High-pressure triaxial facility for powder compaction
Centrifugal atomisation of alloys in inductive plasma onto cooled disc
Powder production
a rotating
nozzle device
and surface texture
by gas velocities the
Loan
Powder
Mg and Sn powders were
in a confined
to contact the conference
that
Turkey.)
Metall., No143, No 2, 2000, 173-180.
test the effects of the properties
to contact individual
It is reported
Ankara,
Compaction Development of compacting process for production of under-cut shapes
Effect of atomising gas on characteristics of metal powders
P41
P4*
use the Interlibrary
plasma spraying or laser surface
alloying.
gas atomized
For copies of fuil papers you are recommended
for sintering,
P41
P4*
PM components
Literature.
alloy to fall,
metal powders. Testing by
hydrostatic
with using
two
Deformations
of cyhndrical
pressure
superimposed
was devel-
compaction
up
axial
to
loads
independent
of
samples 700MPa
was possible servo-systems.
and loads could
be measured.
The system is described and results for Fe powders presented. dated
triaxial
closed-die
Isostatic
compaction,
compaction
compaction
and
consolisimulated
tests were carried out.
Samples were compressed
from a state of dense
random packing to near full density.
Intensive grinding of metal powders in electro-magneto-mechanical mill
drop-by-drop, Cu disc.
Status and development of powder metallurgy tooling materials
F.Binczyk et al. (Silesian Technical University, Katowice, Poland.) Powder Tech&., Vol 114, No J-2, ZOOJ, 237, 243.
Laser synthesis of nano-crystalline silicon carbide powder
N.C.Dong, S.C.Yong. (Man&t. Technol. Inst DFM, 1I, No I, 2001, Hubei Shiyan, China.) PM Indushy,Vol 32-35. In Chinese.
Use of an electro-magneto-mechanical
mill
for very high energy grinding of metal powders is described.
It is reported
that the energy in
the centre of the mill is about 2MW.me3, very much
higher
Consequently
than
in
milling
conventional
time is short. Fe-AleSi
was reduced from 155mm utes.
Similar
materials.
38
The
effects
to 8mm in 2 min-
are
Fe-Al&
MPR April
mills.
2002
noted
powder
for
hard-
is intended
on to a spinning
water-cooled
PM tool materials
Y.Zhaoyuan et al. (North
Eastern University, Shenyang, China.) PM Technolqy,Vol19, No 3,2001,162-164. In Chinese. It is reported Sic
powder
vapour
that
had been
reaction
Productivity
of
of synthesis
and
from the
a low cost produced
nano-sized by a laser
(C,H,O)ZSi(CH,),. process,
powder
mechanism
properties
opmental
made for application
00260657/02/$
use and develSuggestions
are
of new tool materials.
Metal powder rolling Z.D.Zhou. (Central Iron and Steel Inst, Beijing, China.) PM Indusrry,Vol 11, No 1, 2001, 36-39. In Chinese Mechanisms
were A
investigated.
in current
trends are reviewed.
mechanism
-see front matter 0
2002
in powder rolling are discussed. where
powder
weight
is
Elsevier Science Ltd. All rights reserved.