- Email: [email protected]
Effect of process parameters on magnetic properties of praseodymium-iron-copper-boron
with respect to relationship with mechanical processes. It was noted that each material has characteristic
SHOCK-REACTIVE SYNTHESIS TITANIUM ALUMINIDE INTERMETALLIC MATERIALS
mechanical alloying studies of MA powders
T. Katoh et al (University
behaviour. X-ray were described.
FORMATION OF NICKEL-ALUMINIUM INTERMETALLICS BY MECHANICAL ALLOYING R. Orban, S. Domsa
(Technical
University of
Cluj-Napoca, Cluj-Napoca, Romania). Application of MA to Ni aluminides
was
discussed. It was reported that aluminides were synthesized from elemental powders by energetic milling and that nanocrystalline
powders
suggested for
the
were
formed.
that the powders production
ductile-brittle
of
alloys
transition
higher fracture
It was
had potential with
lower
temperatures
and
toughness.
htermetallic
of Tokyo, Tokyo,
produces pressures
H, as a means of producing anistropic permanent magnets, was investigated.
process
transient bursts and temperatures. variables,
detonation
initial
velocity
Microstructures EFFECTS
OF SMALL ADDITIONS
TITANIUM
F. Uberti et al (CISE SpA, Milano, Italy). Effects of small additions, 0.2wt%, of on the properties
Magnetic materials
al
(University
of
Dayton,
The
production
aluminide pressure was
in
of
a fine-grained
Ti-48at%Al-2%Nb
HIP from
reported.
by
gas atomized
The
fl
microstructure
MAGNETIC
and
E.
Schubert
HIP SINTERING
Inst for Dresden,
The development 2%Cr
and
of a TiAl base 2%Nb
was
alloy
described.
Powders were consolidated by CIP and hot extrusion at 350 and 43O”C, at which intermetallics 1250°C
do
not
form.
the microstructure
After
HIP at
was two-phase,
m and cczTi&l. Heat treatment gives a lamellar structure. Structure and properties were discussed. MANUFACTURE ALUMINIUM PARTS
process
industry
was
were
process,
cryogenic
was described. This rates and has been fine spherical
OF TITANIUMELEMENTAL
AGAINST
AND
POWDERS
M. Dahms,
et al (GKSS
Research
Centre,
Germany).
Applications
of
Ti
aluminides
were
discussed. The production of Ti-48at%Al and Ti-48%&2%Cr2%Nb, in sheet, foil and three
dimensional
and prealloyed Structure and and discussed.
parts
powders properties
from
elemental
was described. were outlined
to
ELEMENT
OF NEODYMIUM-IRON-
of Birmingham,
UK)
It was reported
magnetic
properties.
properties were exposed to air.
that powders
Optimum
obtained
magnetic
from
et al (Sintermetal Spain).
It was reported analysis had been
that used
main
bearing
Assembly
are
of
considered
conformity
and
of the
the
mating
The model is shown
to facilitate early stages in the development of the part regarding performance and economy. SINGLE
SINTERED
CONNECTING
RODS FOR PASSENGER ILLUSION?
CARS
-
AN
et al
The
single
cover
(Fraunhofer
Darmstadt, sintering
of about
Inst. fir
Germany).
technique
‘I.lgm.cm-a
the requirements
with
is said
of engines
to
in the
range 1.5 to 2.0 and running up to 7000 rpm and offers, if fracture splitting
I.R. Harris et al (University
of Birmingham,
UK).
It was reported been
cap.
arising when the part is fitted to
crankcase
densities
OF
BORON
had
finite element to determine
powders
EFFECTOFPROCESSPARAMETERS
Birmingham,
SA, Ripollet,
stresses, tolerances and to define manufacturing operations for a sintered
C.M. Sonsino
ON MAGNETIC PROPERTIES PRASEODYMIUM-IRON-COPPER-
OF A
MAIN
Barcelona,
importance
The use of H decrepitation in the processing of NdFeB magnets from powder was discussed.
wear
CAP
surfaces is emphasised. Birmingham,
of
Engine
good
ANALYSIS
A. Romero
the
POWDERS
I.R. Harris et al (University
show
AUTOMOTIVE
Betriebfestigkeit, Geestacht,
were outlined.
reported
BEARING
stresses,
partially degassed after H decrepitation showed improved oxidation resistance and
BASE MATERIALS
FROM
OXIDATION
respect
a small
powders with a narrow range of particle sizes. Magnetic properties were reported.
BORON
in
Vileck,
and the need to attain
STABILITY
weight
automotive
in the alloy.
FINITE
IMPROVED
the
discussed
the fitting technique tests
(WZEVUS,
novel
in
camshafts. The complete valve train is said to be extremely complex and the use
SINTERED
A
costs
automotive
Germany) with
OF
HARD
used with NdFeB to produce B. Kieback et al (Fraunhofer Applied Materials Research,
and
Production of NdFeB magnetic powder materials was discussed with reference to size.
Sintermetalltechnik
GmbH, Giessen, Germany). The need to reduce component
behaviour
al
liquid gas atomization gives high quenching
ALUMINIDE
H. Cohrt et al (Schunk
Germany)
domain
OF
et
CAMSHAFT
steel met the requirements of the camshaft. The principles of material development and
POWDERS
properties EXTRUDED TITANIUM BASE MATERIALS
AND PROPERTIES
GAS ATOMIZED
AND
FOR AN
of assembled camshafts was considered. It was shown that a low cost sintered MO-C
high
powders
properties were described and are said to be superior to cast/wrought materials. REACTIVE
internal
were described.
PRODUCTION LIQUID
OF MATERIALS
TECHNIQUE
AUTOMOTIVE
ALUMINIDE
ALUMINIDE et
ASSEMBLY
OF
oxidation and influences properties. Effects on structure and properties, including
Dayton, Ohio, USA).
from the tetragonal c-axis plane during adsorption of
DEVELOPMENT
OF
ON PROPERTIES
of easy
Structural applications
were outlined.
RARE EARTHS
magnetization to easy basal
The possibility direction of
and
investigated.
corrosion,
Eylon
of high Effects of
porosity
were
FORGING ROLLING AND NET-SHAPE PROCESSING OF TITANIUM
D.
were superior to as cast Effects of H adsorption
were considered. changing the
of T&Al were studied. RE promotes
BASE MATERIALS
magnets materials.
Japan). The use of large scale shock waves to synthesize Ti aluminide from elemental powders was described. The technique
rare earths, mischmetall,
materials
powder and PM technology. Effects of heat treatment on magnetic properties were described. The H decrepitated
FOR
made
that Pr-Fe-C&B by
magnets
H decrepitation
of
is used
on the big-end
reliable
means
weight
scatter
dimensional
of of
an economic
manufacture f5gm
and
and
with good
accuracy.
MPR February 1995 43
a
SHOCK-REACTIVE SYNTHESIS TITANIUM ALUMINIDE INTERMETALLIC MATERIALS
mechanical alloying studies of MA powders
T. Katoh et al (University
behaviour. X-ray were described.
FORMATION OF NICKEL-ALUMINIUM INTERMETALLICS BY MECHANICAL ALLOYING R. Orban, S. Domsa
(Technical
University of
Cluj-Napoca, Cluj-Napoca, Romania). Application of MA to Ni aluminides
was
discussed. It was reported that aluminides were synthesized from elemental powders by energetic milling and that nanocrystalline
powders
suggested for
the
were
formed.
that the powders production
ductile-brittle
of
alloys
transition
higher fracture
It was
had potential with
lower
temperatures
and
toughness.
htermetallic
of Tokyo, Tokyo,
produces pressures
H, as a means of producing anistropic permanent magnets, was investigated.
process
transient bursts and temperatures. variables,
detonation
initial
velocity
Microstructures EFFECTS
OF SMALL ADDITIONS
TITANIUM
F. Uberti et al (CISE SpA, Milano, Italy). Effects of small additions, 0.2wt%, of on the properties
Magnetic materials
al
(University
of
Dayton,
The
production
aluminide pressure was
in
of
a fine-grained
Ti-48at%Al-2%Nb
HIP from
reported.
by
gas atomized
The
fl
microstructure
MAGNETIC
and
E.
Schubert
HIP SINTERING
Inst for Dresden,
The development 2%Cr
and
of a TiAl base 2%Nb
was
alloy
described.
Powders were consolidated by CIP and hot extrusion at 350 and 43O”C, at which intermetallics 1250°C
do
not
form.
the microstructure
After
HIP at
was two-phase,
m and cczTi&l. Heat treatment gives a lamellar structure. Structure and properties were discussed. MANUFACTURE ALUMINIUM PARTS
process
industry
was
were
process,
cryogenic
was described. This rates and has been fine spherical
OF TITANIUMELEMENTAL
AGAINST
AND
POWDERS
M. Dahms,
et al (GKSS
Research
Centre,
Germany).
Applications
of
Ti
aluminides
were
discussed. The production of Ti-48at%Al and Ti-48%&2%Cr2%Nb, in sheet, foil and three
dimensional
and prealloyed Structure and and discussed.
parts
powders properties
from
elemental
was described. were outlined
to
ELEMENT
OF NEODYMIUM-IRON-
of Birmingham,
UK)
It was reported
magnetic
properties.
properties were exposed to air.
that powders
Optimum
obtained
magnetic
from
et al (Sintermetal Spain).
It was reported analysis had been
that used
main
bearing
Assembly
are
of
considered
conformity
and
of the
the
mating
The model is shown
to facilitate early stages in the development of the part regarding performance and economy. SINGLE
SINTERED
CONNECTING
RODS FOR PASSENGER ILLUSION?
CARS
-
AN
et al
The
single
cover
(Fraunhofer
Darmstadt, sintering
of about
Inst. fir
Germany).
technique
‘I.lgm.cm-a
the requirements
with
is said
of engines
to
in the
range 1.5 to 2.0 and running up to 7000 rpm and offers, if fracture splitting
I.R. Harris et al (University
of Birmingham,
UK).
It was reported been
cap.
arising when the part is fitted to
crankcase
densities
OF
BORON
had
finite element to determine
powders
EFFECTOFPROCESSPARAMETERS
Birmingham,
SA, Ripollet,
stresses, tolerances and to define manufacturing operations for a sintered
C.M. Sonsino
ON MAGNETIC PROPERTIES PRASEODYMIUM-IRON-COPPER-
OF A
MAIN
Barcelona,
importance
The use of H decrepitation in the processing of NdFeB magnets from powder was discussed.
wear
CAP
surfaces is emphasised. Birmingham,
of
Engine
good
ANALYSIS
A. Romero
the
POWDERS
I.R. Harris et al (University
show
AUTOMOTIVE
Betriebfestigkeit, Geestacht,
were outlined.
reported
BEARING
stresses,
partially degassed after H decrepitation showed improved oxidation resistance and
BASE MATERIALS
FROM
OXIDATION
respect
a small
powders with a narrow range of particle sizes. Magnetic properties were reported.
BORON
in
Vileck,
and the need to attain
STABILITY
weight
automotive
in the alloy.
FINITE
IMPROVED
the
discussed
the fitting technique tests
(WZEVUS,
novel
in
camshafts. The complete valve train is said to be extremely complex and the use
SINTERED
A
costs
automotive
Germany) with
OF
HARD
used with NdFeB to produce B. Kieback et al (Fraunhofer Applied Materials Research,
and
Production of NdFeB magnetic powder materials was discussed with reference to size.
Sintermetalltechnik
GmbH, Giessen, Germany). The need to reduce component
behaviour
al
liquid gas atomization gives high quenching
ALUMINIDE
H. Cohrt et al (Schunk
Germany)
domain
OF
et
CAMSHAFT
steel met the requirements of the camshaft. The principles of material development and
POWDERS
properties EXTRUDED TITANIUM BASE MATERIALS
AND PROPERTIES
GAS ATOMIZED
AND
FOR AN
of assembled camshafts was considered. It was shown that a low cost sintered MO-C
high
powders
properties were described and are said to be superior to cast/wrought materials. REACTIVE
internal
were described.
PRODUCTION LIQUID
OF MATERIALS
TECHNIQUE
AUTOMOTIVE
ALUMINIDE
ALUMINIDE et
ASSEMBLY
OF
oxidation and influences properties. Effects on structure and properties, including
Dayton, Ohio, USA).
from the tetragonal c-axis plane during adsorption of
DEVELOPMENT
OF
ON PROPERTIES
of easy
Structural applications
were outlined.
RARE EARTHS
magnetization to easy basal
The possibility direction of
and
investigated.
corrosion,
Eylon
of high Effects of
porosity
were
FORGING ROLLING AND NET-SHAPE PROCESSING OF TITANIUM
D.
were superior to as cast Effects of H adsorption
were considered. changing the
of T&Al were studied. RE promotes
BASE MATERIALS
magnets materials.
Japan). The use of large scale shock waves to synthesize Ti aluminide from elemental powders was described. The technique
rare earths, mischmetall,
materials
powder and PM technology. Effects of heat treatment on magnetic properties were described. The H decrepitated
FOR
made
that Pr-Fe-C&B by
magnets
H decrepitation
of
is used
on the big-end
reliable
means
weight
scatter
dimensional
of of
an economic
manufacture f5gm
and
and
with good
accuracy.
MPR February 1995 43
a