- Email: [email protected]
Tensile behaviour of doped tungsten wire at elevated temperatures
Manu$
Processes,
Vol 10, No 3, 1995,
473.
An unusual morphology in 200 pm Cu powder, milled for long times is reported. The powders granulated and were 1 mm after 3 hours, 3 mm after 60 and 5 mm after 222 hours. The 3 hour granules were solid with pores and cracks. After 60 hours the granules were hollow with residual porosity in the walls. After 222 hours the hollow shells contained secondary hollow
492. A study of t,urning of carbon and stainless steels with tools with a chamfered main cutting edge is described. A force model for a single point tool is constructed which could be applied to the design of tools made with a built-up edge. Tool holder design is discussed and
granules.
It
experiments
granules
could
is
suggested
form
that
after
tertiary
further
with
are described. force, related
milling.
tools
of differing
Measurements of cutting to cutting speed and tool
Iron and steel
angle were reported to agreement with predictions.
MECHANICAL PROPERTIES OF HIGH VACUUM SINTERED IRON-SILICON ALLOYS
secondary
M.
Seleka
et
Sciences,
al.
Kosice,
kwve Metahrgie, Czech.) An Fe and
of Fe-4.5XSi ferro-Si
700 MPa, llOO-125O’C
the
(In
of powder
made
at
sintering at is described.
characteristics
245
are
reported.
The
results
are
MICROSTRUCTURE
28,
hour
with
l/2,
Academy of Meta/. Prosz-
1995,
0.2 to 0.6!‘#
at 1200°C
in either
21-25.
sintered
(In
effect
for
vacuum,
NHcj or N-25’%H. N is shown the denshying
1
The 12%Cr
investigated.
MADE
nitriding steel
by open 5% open
that
of a were
compact.
Only
treatment
with
the
OF PHOSPHORUS
ADDITION SINTERED
ALLOY
ON PROPERTIES MOLYBDENUM
National
(Yatsushiro
Yatsushiro, Japan). J. Japan and Powder Metallurgy, Vol
College
41, No 4. 1994, 467-461. (In Japanese.) Sintering of MO powder with addition It is reported
enhanced to
Quenching
and
of temperatures,
that
densification.
the
formation
of
powder, the
This of
a
is
liquid
decomposed
on
made are
K.H.
Fuh,
tempering,
were
at a
used. STEEL
CHAMFERED
Japan).
.J, Japan
Metalhrgy,
a range
annealed castings. than for castings
of compacted
Ti alloys have similar to those of
Fatigue limits are higher but inferior to wrought
Porosity is reduced and improved by thermal cycling.
AND
OF TITANIUM
Japanese.) It is reported material, particles,
that
a TiAl
reinforced had been
pressing.
Some
particulates particles
and with
reaction
or R,C by hot between
matrix was reaction
homogeneously
composite
with SIC fabricated
detected. The zones were
dispersed
improvements
in properties
Structure/property
are
and reported.
relationships
are
Chang
TENSILE BEHAVIOUR OF DOPED TUNGSTEN WIRE AT ELEVATED
WITH
MAIN
studied cubic
(Tatung
Taiwan).
Inst. Mater.
of and
(Jniversity,
Fukuoka,
Sot. Powder and Powder
Vol 41, No 4, 1994, 462-467.
with
(In
K.
Fujii
Fukuoka,
et
al.
(Nippon
Tungsten
Co,
Japan),
Nippon
Tungsten
Rev.,
properties
of W
Vol 27, 1995, of Tii (2 to 4)wtWr reference
transformations.
relationships,
Taipeh,
that
TEMPERATURES et al. (Kyushi
Japanese.) Sintering
EDGE C.S.
No 1, 1993, 28. (In Russian.)
Tungsten
Y. Ikeda
treatment, Technology,
Masckin.,
discussed.
University
alloys, powder.
OF STAINLESS
WITH
Moscow,
i Teknol.
Japan). J. .Japan Sot. Powder and Powder Metallurgy, Vol 41, No 5. 1994, 514-517. (In
of Technology, Sot. Powder
of NIP or FeP alloy
(Moscow
ALUMINIDE MATRIX COMPOSITES A. Nakahira et al. (Osaka IJniversity, Osaka,
OF COMPACTS
T. Sakamoto
investigated.
TITANIUM
Inst.,
MICROSTRUCTURES
on properties
of three sintered Fe-Cu-Mo from Fe-1.5% prealloyed
CUTTING
is
of final
Mai’skdya.
,Voic,vyr Mater.
Russia).
Composites
on cooling. Repressing enhances strength.
ALLOYS
TOOLS
E.Y.
Technological
martensitic martensite
Spanish.) Effects
TURNING
Iiazimov,
materials. properties
MICRO-DUPLEX TREATMENT OF SINTERED TITANIUM-CHROMIUM
range
properties
OF POWDER
It is reported
surface
of Madrid. Madrid, Spain). Rehta Metal. Madrid, 1’01 31. No 2, 1995, 71-77. (In
evaluated.
powders
POWDERS
et al. (Polytechnic
of heat
conditions on arc presented.
and vacuum sintered mechanical properties
Titanium J.M. Torralba
OP.
nitriding
pores reaching porosity right
phase. The P compound formation of the liquid.
PREALLOYED
IRON-MOLYBDENUM
process products
of Ti and Ti alloy
Vol
Pressing sintering and post treatments are discussed. of powder characteristics and
Aviation
It is reported
the
addition
OF SINTERED
FROM
Production described. sintering Influences
nitriding occurs if the porosity is closed. N is an austenitr stabilizer and the steel is austenitic at nitriding temperture becoming
was
to counteract
Gorniczo-Ilutnic-
SOC. Powdw
Vol 41, No 4, 1994,
effects of pores on ferritic stainless
P, in the form
cracked
of B.
TREATMENT
STEEL
(Akademia
ALLOYS
lJniversity,
(In Japanese.)
attributed HEAT
(Kyushi
J. fJapan
Japan)
EFFECT
No
S. Szczepanik
za, Krakow, Poland). Metal. Proszkow, 28 No l/2, 1995, 26-38. (In Polish.)
PROPERTIES
An evaluation of B as a sintering enhancer is described for Fe and Fe-B’%Ni0.5%Mo
al.
IN DIFFERENT
M. Seleka et al. (Slovak Sciences, Kosice, Slovakia). kou:, Vol English.)
et
Molybdenum
OF IRON-BORON
OF HIGH DENSITY FROM TITANIUM ALLOY
PROPERTIES N. Nakamura
through
discussed with regard to the effects of surface oxide dissociation during vacuum sintering.
ALLOYS SINTERED ATMOSPHERES
OF
PRODUCTION MATERIALS POWDERS
COMPACTS
is enhanced 0.26wtXN at
and
process conditions were determined. Maximum values of 97.8% density, tensile strength of 718 MPa and Vicker’s hardness of
STEEL
468-473.
from
by compaction
vacuum 1-4 hours,
are considered.
and Powder Metallurgy,
mechanical
alloys,
powders,
and for
effects
of
Fukuoka. of
formation
good and
Prcw
28-46.
1994,
chip
be in Primary
EFFECTS OF PORES ON NITRIDING CHROMIUM FERRITIC STAINLESS
Academy Pokroky
No 4,
investigation
properties
The
(Slovak
Slovakia).
design
annealing in the r’+ p region gives the duplex structure. This is reported to have good mechanical properties.
as are
to
alloys
was
hexagonal
to
Structure/property functions
established.
of
heat
Quenching
from the single p phase condition results in formation of ry’ phase and subsequent
High
l-9.
temperture
tensile
wire, doped with different different grain sizes, were H or N. Fractures brittle to 0 increase
were
in N. The differences content. Strength
‘%;K and with investigated in
ductile
in H and
are attributed increased with
in %K.
MPR February
1996
39
MANUFACTURE
TO NEAR-NET
OF TUNGSTEN-COPPER
SHAPE
COMPOSITES
Y. Kai et al. (Nippon Tungsten Co., Fukouka, Japan). Nippon Tungsten Rev., Vol 27, 1995, 10-17. Production of W- (10 to 40) %Cu parts, to close dimensional tolerances, by liquid phase sintering or Cu infiltration was investigated. It is reported that parts could be made in W-(15 to 27)YKu with minimal shrinkage from a blend of 1 and 8 urn powder and infiltration.
Hard materials and too/ steels A HISTORY OF FINE-GRAINED HARDMETALS G.E. Spriggs (Rusheen, Castlemain, Ireland). Znt. J. Refi-uctory Metals and Hard Muteriuls, Vol 13, No 5, 1995, 241. 255. The scientific and technological development of fine-grained hardmetals historically
reviewed. 1929 is noted as the
year of identification
Electrical and magnetic ma teriak
the particle size which can be produced. The role of milling is discussed with reference to uniformity of compacts and inhibition of grain growth during sintering
of some aspects of WC
grain refinement and by 1939 the beneficial grain relining effects of VC and TaC had been established. Changes in the definition
A TECHNICAL ECONOMIC ANALYSIS OF MAGNETS AND MAGNETIC MATERIALS
of ‘fine’ are considered, going from pm sizes in early years to nm sizes more recently. The author asks if this is the end of the story.
T. Abraham
APPLICATION
(Business Communications
Co,
Norwalk, Connecticut, USA). Int. J. Powder Metullurgy, Vol 31, No 2, 1995, 133-136. The commercial magnetic magnet
CARBIDE BASED CARBIDES
status of hard and soft
materials is reviewed. Permanent alloys
TUNGSTEN CEMENTED
OF FINE-GRAINED
considered
included
hard
L.J. Prakash (PM Pulvermetall GmbH, Rottenburg, Germany). Znt. J. Refructory Me-
ferrites, Sm-Co, Fe-Nd-B and Alnico. Soft materials were Fe-% electrical steels,
tals und Hard
amorphous
It is noted that sub-micron grade cemented carbides account for 10.15% of
feromagnetic
It is considered
alloys and Fe-Ni.
that
with
continuous
further improvements numerous applications will be found.
novel
1995, 257-264.
the market being characterized
properties
of Science, Beijing,
PM Technology, Vol 13, No 1, 1995,
3-7. (In Chinese.) It is reported that Ar atomized Fe-Nd-B powder consisted of a tetragonal NdzFe,,B phase. The compared
magnetic properties with powder made
comminution
of cast material
MECHANISM OF IMPROVEMENT CORROSION RESISTANCE OF TERNARY NEODYMIUM-BORON
are by
OF
Corporation,
Chiba, Japan).
DIFFUSION
BONDING
CARBIDE ON TO NODULAR CAST IRON BY HOT ISOSTATIC PRESSING C. Feixiong,
L. Shikui
(Central
Iron and
Steel Research Inst., Beijing, China). PM Technology, Vol 13, No 1, 1995, S-13. (In Chinese.) reported of
that
direct
cemented
diffusion
carbide
on
to
and
the
characteristics
bond are
(In
between
phases
in
At pH above 5.8 by a passive film.
performance described. modulus
of bonded
diamond
It is reported is a controlling
TERMINOLOGY
Young’s
factor in bonding.
TESTING
IMAGING AND MODELS GRAINED HARDMETALS B. Roebuck Teddington,
tools are
that
PROPERTIES FOR FINE-
(National Physical Laboratory, Middlesex, UK). Znt. J. Kefiac-
tory Metals and Hard Materials, Vol 13, No 5, 1995, 265-279. The hardness of WC hardmetals, particle
for
size
and
powders
of
and
it
relative
availability
is discussed.
standardization
emphasized
the
of
The need
terminology is
noted
is that
improvements in the technology of testing and characterization are required. These issues and models for prediction of hardness and magnetic properties from grain size are considered,
the Hall-Petch
relationship in particular. The use coercivity measurements for estimation
of of
grain
in
size
and
the
are are
caution
mentioned.
critically
needed
Published
reviewed
with
regard to the need for standardization
of
for grain size measurement. OF BORON CARBIDE
MANUFACTURE
S.M. Joo et al. (Chungnam
National
lltri
tory Metals and Hard Materials, Vol 13, No 5, 1995, 281-296. Aspects and liquid
of powder production, milling phase sintering of WC based
Synthesis of B,C was investigated a11(1is shown to be possible by reacting :! 1i;ir.l~
materials
are
BzO:r, 6 to 7 parts Mg and 1 to 1.4 parts 01’ C. The B,C particles are showu IO I),* spherical and pure. ParticI(b si/.cb is
production
to be more effective than Co against pitting.
particle
of
discussed. WC
are
growth considered.
that 50-150 nm represents
1996
bonding
versity, Daejeon, Korea). J. Korean Ztrsl. u/’ Metals, Vol 32, No 10, 1994, 1243-1249. (III Korean.)
Keplacement of Fe by Ni and Co enhances corrosion resistance at pH2.7. Ni is shown
MPR February
of
FROM OXIDE BY SELF-PROPAGATING HIGH TEMPERATURE SYNTHESIS
W.D. Schubert et al. (Technical University of Vienna, Vienna, Austria). Znt. J. Refiuc-
40
and
mechanisms
cutting performance. Investigations of mechanical properties and cutting
PREPARATION
ASPECTS AND LIMITS OF ULTRAFINE TUNGSTEN CARBIDE POWDER AND
Ni-Ti) -B magnets had been elucidated with some improvements made. These are attributed to small differences in of pH2.7. is inhibited
chemical
methods
HARDMETAL
solutions corrosion
with the is and
equations
described fracture
powder
matrix in cutting tool materials discussed with respect to physical
structures
It is reported that the mechanism of corrosion resistance of sintered Nd- (Fe-Co-
potential
449-453. (In Japanese.) Bonding of diamond
extrapolation
are
ON
OF
T. Fujimori et al. (Chiba Inst. of Technology, Narashino, Japan). J. Japan Sot. Powder and Powder Metallurgy, Vol 41, No 4, 1994,
nodular cast iron had been achieved by HIP using Ni foil as an interlayer. Interface strength and evaluated.
OF THE MATRIX
CUTTING PROPERTIES DL4MOND TOOLS
ultraline
OF CEMENTED
OF MECHANICAL
J. Japan Inst.
ofMetals, Vol 59, No 2, 1995, 206-212. Japanese.)
corrosion
EFFECT
PROPERTIES
to
bonding
(Kawasaki Steel
to result in
service lives of components.
It is
MAGNETS Y. Fukuda, M. Shimotomai
by a balance
to use is reported
increased
China).
13, No 5,
materials as well as forming tools and in wear resistant applications. Matching
IRON-NEODYMIUM-BORON
0. Tong et al. (Academy
Vol
between hardness and toughness. The materials are used for cutting a wide range of metallic and non-metallic
MICROSTRUCTURE AND HARD MAGNETIC PROPERTIES OF ATOMIZED POWDER
Materials,
by addition of VC. Grain growth in the solid state is considered. Discontinuous grain growth in ultraline materials is noted. It is suggested that there is a lower limit of ZOO-300 nm for the grain size of WC and that finer sizes can only be attained by completely new technology.
Methods reviewed
of and
It is suggested a lower limit to
reduced by increased
reaction
liressrii~(~.
Processes,
Vol 10, No 3, 1995,
473.
An unusual morphology in 200 pm Cu powder, milled for long times is reported. The powders granulated and were 1 mm after 3 hours, 3 mm after 60 and 5 mm after 222 hours. The 3 hour granules were solid with pores and cracks. After 60 hours the granules were hollow with residual porosity in the walls. After 222 hours the hollow shells contained secondary hollow
492. A study of t,urning of carbon and stainless steels with tools with a chamfered main cutting edge is described. A force model for a single point tool is constructed which could be applied to the design of tools made with a built-up edge. Tool holder design is discussed and
granules.
It
experiments
granules
could
is
suggested
form
that
after
tertiary
further
with
are described. force, related
milling.
tools
of differing
Measurements of cutting to cutting speed and tool
Iron and steel
angle were reported to agreement with predictions.
MECHANICAL PROPERTIES OF HIGH VACUUM SINTERED IRON-SILICON ALLOYS
secondary
M.
Seleka
et
Sciences,
al.
Kosice,
kwve Metahrgie, Czech.) An Fe and
of Fe-4.5XSi ferro-Si
700 MPa, llOO-125O’C
the
(In
of powder
made
at
sintering at is described.
characteristics
245
are
reported.
The
results
are
MICROSTRUCTURE
28,
hour
with
l/2,
Academy of Meta/. Prosz-
1995,
0.2 to 0.6!‘#
at 1200°C
in either
21-25.
sintered
(In
effect
for
vacuum,
NHcj or N-25’%H. N is shown the denshying
1
The 12%Cr
investigated.
MADE
nitriding steel
by open 5% open
that
of a were
compact.
Only
treatment
with
the
OF PHOSPHORUS
ADDITION SINTERED
ALLOY
ON PROPERTIES MOLYBDENUM
National
(Yatsushiro
Yatsushiro, Japan). J. Japan and Powder Metallurgy, Vol
College
41, No 4. 1994, 467-461. (In Japanese.) Sintering of MO powder with addition It is reported
enhanced to
Quenching
and
of temperatures,
that
densification.
the
formation
of
powder, the
This of
a
is
liquid
decomposed
on
made are
K.H.
Fuh,
tempering,
were
at a
used. STEEL
CHAMFERED
Japan).
.J, Japan
Metalhrgy,
a range
annealed castings. than for castings
of compacted
Ti alloys have similar to those of
Fatigue limits are higher but inferior to wrought
Porosity is reduced and improved by thermal cycling.
AND
OF TITANIUM
Japanese.) It is reported material, particles,
that
a TiAl
reinforced had been
pressing.
Some
particulates particles
and with
reaction
or R,C by hot between
matrix was reaction
homogeneously
composite
with SIC fabricated
detected. The zones were
dispersed
improvements
in properties
Structure/property
are
and reported.
relationships
are
Chang
TENSILE BEHAVIOUR OF DOPED TUNGSTEN WIRE AT ELEVATED
WITH
MAIN
studied cubic
(Tatung
Taiwan).
Inst. Mater.
of and
(Jniversity,
Fukuoka,
Sot. Powder and Powder
Vol 41, No 4, 1994, 462-467.
with
(In
K.
Fujii
Fukuoka,
et
al.
(Nippon
Tungsten
Co,
Japan),
Nippon
Tungsten
Rev.,
properties
of W
Vol 27, 1995, of Tii (2 to 4)wtWr reference
transformations.
relationships,
Taipeh,
that
TEMPERATURES et al. (Kyushi
Japanese.) Sintering
EDGE C.S.
No 1, 1993, 28. (In Russian.)
Tungsten
Y. Ikeda
treatment, Technology,
Masckin.,
discussed.
University
alloys, powder.
OF STAINLESS
WITH
Moscow,
i Teknol.
Japan). J. .Japan Sot. Powder and Powder Metallurgy, Vol 41, No 5. 1994, 514-517. (In
of Technology, Sot. Powder
of NIP or FeP alloy
(Moscow
ALUMINIDE MATRIX COMPOSITES A. Nakahira et al. (Osaka IJniversity, Osaka,
OF COMPACTS
T. Sakamoto
investigated.
TITANIUM
Inst.,
MICROSTRUCTURES
on properties
of three sintered Fe-Cu-Mo from Fe-1.5% prealloyed
CUTTING
is
of final
Mai’skdya.
,Voic,vyr Mater.
Russia).
Composites
on cooling. Repressing enhances strength.
ALLOYS
TOOLS
E.Y.
Technological
martensitic martensite
Spanish.) Effects
TURNING
Iiazimov,
materials. properties
MICRO-DUPLEX TREATMENT OF SINTERED TITANIUM-CHROMIUM
range
properties
OF POWDER
It is reported
surface
of Madrid. Madrid, Spain). Rehta Metal. Madrid, 1’01 31. No 2, 1995, 71-77. (In
evaluated.
powders
POWDERS
et al. (Polytechnic
of heat
conditions on arc presented.
and vacuum sintered mechanical properties
Titanium J.M. Torralba
OP.
nitriding
pores reaching porosity right
phase. The P compound formation of the liquid.
PREALLOYED
IRON-MOLYBDENUM
process products
of Ti and Ti alloy
Vol
Pressing sintering and post treatments are discussed. of powder characteristics and
Aviation
It is reported
the
addition
OF SINTERED
FROM
Production described. sintering Influences
nitriding occurs if the porosity is closed. N is an austenitr stabilizer and the steel is austenitic at nitriding temperture becoming
was
to counteract
Gorniczo-Ilutnic-
SOC. Powdw
Vol 41, No 4, 1994,
effects of pores on ferritic stainless
P, in the form
cracked
of B.
TREATMENT
STEEL
(Akademia
ALLOYS
lJniversity,
(In Japanese.)
attributed HEAT
(Kyushi
J. fJapan
Japan)
EFFECT
No
S. Szczepanik
za, Krakow, Poland). Metal. Proszkow, 28 No l/2, 1995, 26-38. (In Polish.)
PROPERTIES
An evaluation of B as a sintering enhancer is described for Fe and Fe-B’%Ni0.5%Mo
al.
IN DIFFERENT
M. Seleka et al. (Slovak Sciences, Kosice, Slovakia). kou:, Vol English.)
et
Molybdenum
OF IRON-BORON
OF HIGH DENSITY FROM TITANIUM ALLOY
PROPERTIES N. Nakamura
through
discussed with regard to the effects of surface oxide dissociation during vacuum sintering.
ALLOYS SINTERED ATMOSPHERES
OF
PRODUCTION MATERIALS POWDERS
COMPACTS
is enhanced 0.26wtXN at
and
process conditions were determined. Maximum values of 97.8% density, tensile strength of 718 MPa and Vicker’s hardness of
STEEL
468-473.
from
by compaction
vacuum 1-4 hours,
are considered.
and Powder Metallurgy,
mechanical
alloys,
powders,
and for
effects
of
Fukuoka. of
formation
good and
Prcw
28-46.
1994,
chip
be in Primary
EFFECTS OF PORES ON NITRIDING CHROMIUM FERRITIC STAINLESS
Academy Pokroky
No 4,
investigation
properties
The
(Slovak
Slovakia).
design
annealing in the r’+ p region gives the duplex structure. This is reported to have good mechanical properties.
as are
to
alloys
was
hexagonal
to
Structure/property functions
established.
of
heat
Quenching
from the single p phase condition results in formation of ry’ phase and subsequent
High
l-9.
temperture
tensile
wire, doped with different different grain sizes, were H or N. Fractures brittle to 0 increase
were
in N. The differences content. Strength
‘%;K and with investigated in
ductile
in H and
are attributed increased with
in %K.
MPR February
1996
39
MANUFACTURE
TO NEAR-NET
OF TUNGSTEN-COPPER
SHAPE
COMPOSITES
Y. Kai et al. (Nippon Tungsten Co., Fukouka, Japan). Nippon Tungsten Rev., Vol 27, 1995, 10-17. Production of W- (10 to 40) %Cu parts, to close dimensional tolerances, by liquid phase sintering or Cu infiltration was investigated. It is reported that parts could be made in W-(15 to 27)YKu with minimal shrinkage from a blend of 1 and 8 urn powder and infiltration.
Hard materials and too/ steels A HISTORY OF FINE-GRAINED HARDMETALS G.E. Spriggs (Rusheen, Castlemain, Ireland). Znt. J. Refi-uctory Metals and Hard Muteriuls, Vol 13, No 5, 1995, 241. 255. The scientific and technological development of fine-grained hardmetals historically
reviewed. 1929 is noted as the
year of identification
Electrical and magnetic ma teriak
the particle size which can be produced. The role of milling is discussed with reference to uniformity of compacts and inhibition of grain growth during sintering
of some aspects of WC
grain refinement and by 1939 the beneficial grain relining effects of VC and TaC had been established. Changes in the definition
A TECHNICAL ECONOMIC ANALYSIS OF MAGNETS AND MAGNETIC MATERIALS
of ‘fine’ are considered, going from pm sizes in early years to nm sizes more recently. The author asks if this is the end of the story.
T. Abraham
APPLICATION
(Business Communications
Co,
Norwalk, Connecticut, USA). Int. J. Powder Metullurgy, Vol 31, No 2, 1995, 133-136. The commercial magnetic magnet
CARBIDE BASED CARBIDES
status of hard and soft
materials is reviewed. Permanent alloys
TUNGSTEN CEMENTED
OF FINE-GRAINED
considered
included
hard
L.J. Prakash (PM Pulvermetall GmbH, Rottenburg, Germany). Znt. J. Refructory Me-
ferrites, Sm-Co, Fe-Nd-B and Alnico. Soft materials were Fe-% electrical steels,
tals und Hard
amorphous
It is noted that sub-micron grade cemented carbides account for 10.15% of
feromagnetic
It is considered
alloys and Fe-Ni.
that
with
continuous
further improvements numerous applications will be found.
novel
1995, 257-264.
the market being characterized
properties
of Science, Beijing,
PM Technology, Vol 13, No 1, 1995,
3-7. (In Chinese.) It is reported that Ar atomized Fe-Nd-B powder consisted of a tetragonal NdzFe,,B phase. The compared
magnetic properties with powder made
comminution
of cast material
MECHANISM OF IMPROVEMENT CORROSION RESISTANCE OF TERNARY NEODYMIUM-BORON
are by
OF
Corporation,
Chiba, Japan).
DIFFUSION
BONDING
CARBIDE ON TO NODULAR CAST IRON BY HOT ISOSTATIC PRESSING C. Feixiong,
L. Shikui
(Central
Iron and
Steel Research Inst., Beijing, China). PM Technology, Vol 13, No 1, 1995, S-13. (In Chinese.) reported of
that
direct
cemented
diffusion
carbide
on
to
and
the
characteristics
bond are
(In
between
phases
in
At pH above 5.8 by a passive film.
performance described. modulus
of bonded
diamond
It is reported is a controlling
TERMINOLOGY
Young’s
factor in bonding.
TESTING
IMAGING AND MODELS GRAINED HARDMETALS B. Roebuck Teddington,
tools are
that
PROPERTIES FOR FINE-
(National Physical Laboratory, Middlesex, UK). Znt. J. Kefiac-
tory Metals and Hard Materials, Vol 13, No 5, 1995, 265-279. The hardness of WC hardmetals, particle
for
size
and
powders
of
and
it
relative
availability
is discussed.
standardization
emphasized
the
of
The need
terminology is
noted
is that
improvements in the technology of testing and characterization are required. These issues and models for prediction of hardness and magnetic properties from grain size are considered,
the Hall-Petch
relationship in particular. The use coercivity measurements for estimation
of of
grain
in
size
and
the
are are
caution
mentioned.
critically
needed
Published
reviewed
with
regard to the need for standardization
of
for grain size measurement. OF BORON CARBIDE
MANUFACTURE
S.M. Joo et al. (Chungnam
National
lltri
tory Metals and Hard Materials, Vol 13, No 5, 1995, 281-296. Aspects and liquid
of powder production, milling phase sintering of WC based
Synthesis of B,C was investigated a11(1is shown to be possible by reacting :! 1i;ir.l~
materials
are
BzO:r, 6 to 7 parts Mg and 1 to 1.4 parts 01’ C. The B,C particles are showu IO I),* spherical and pure. ParticI(b si/.cb is
production
to be more effective than Co against pitting.
particle
of
discussed. WC
are
growth considered.
that 50-150 nm represents
1996
bonding
versity, Daejeon, Korea). J. Korean Ztrsl. u/’ Metals, Vol 32, No 10, 1994, 1243-1249. (III Korean.)
Keplacement of Fe by Ni and Co enhances corrosion resistance at pH2.7. Ni is shown
MPR February
of
FROM OXIDE BY SELF-PROPAGATING HIGH TEMPERATURE SYNTHESIS
W.D. Schubert et al. (Technical University of Vienna, Vienna, Austria). Znt. J. Refiuc-
40
and
mechanisms
cutting performance. Investigations of mechanical properties and cutting
PREPARATION
ASPECTS AND LIMITS OF ULTRAFINE TUNGSTEN CARBIDE POWDER AND
Ni-Ti) -B magnets had been elucidated with some improvements made. These are attributed to small differences in of pH2.7. is inhibited
chemical
methods
HARDMETAL
solutions corrosion
with the is and
equations
described fracture
powder
matrix in cutting tool materials discussed with respect to physical
structures
It is reported that the mechanism of corrosion resistance of sintered Nd- (Fe-Co-
potential
449-453. (In Japanese.) Bonding of diamond
extrapolation
are
ON
OF
T. Fujimori et al. (Chiba Inst. of Technology, Narashino, Japan). J. Japan Sot. Powder and Powder Metallurgy, Vol 41, No 4, 1994,
nodular cast iron had been achieved by HIP using Ni foil as an interlayer. Interface strength and evaluated.
OF THE MATRIX
CUTTING PROPERTIES DL4MOND TOOLS
ultraline
OF CEMENTED
OF MECHANICAL
J. Japan Inst.
ofMetals, Vol 59, No 2, 1995, 206-212. Japanese.)
corrosion
EFFECT
PROPERTIES
to
bonding
(Kawasaki Steel
to result in
service lives of components.
It is
MAGNETS Y. Fukuda, M. Shimotomai
by a balance
to use is reported
increased
China).
13, No 5,
materials as well as forming tools and in wear resistant applications. Matching
IRON-NEODYMIUM-BORON
0. Tong et al. (Academy
Vol
between hardness and toughness. The materials are used for cutting a wide range of metallic and non-metallic
MICROSTRUCTURE AND HARD MAGNETIC PROPERTIES OF ATOMIZED POWDER
Materials,
by addition of VC. Grain growth in the solid state is considered. Discontinuous grain growth in ultraline materials is noted. It is suggested that there is a lower limit of ZOO-300 nm for the grain size of WC and that finer sizes can only be attained by completely new technology.
Methods reviewed
of and
It is suggested a lower limit to
reduced by increased
reaction
liressrii~(~.