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UNIQUE
CHARACTERISTICS
- Exceptionally
clean steel with uniform microstructure - no
pin holes, inclusions or hard spots.
- 30-33
HRc hardness.
- Uniform
hardness throughout, even in heavy sections.
- 75%
tougher than typical chrome-moly steels.
- Patented
chemistry suppresses weld cracking and
hardness elevation in the
heat affected zone, eliminating the need for
pre-heating and post-heating in
most welding situations.
- Machines
30-50% faster than any other P20-type steel.
- Never
needs stress relieving, even after heavy
machining.
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BENEFITS
- Welding
Superior mold
quality after welding. Low hardness of heat
affected zone eases post-weld cutting and
grinding operations and minimizes mold
distortion, etch unevenness, and differences
in luster upon mirror finishing. Unique
composition eliminates weld cracking.
- Machining
Rough machines up to
50% faster than P20 (30% overall) to a
superior surface with negligible dimensional
change. Use of PX5 assures the longest
cutting tool life of any 30 HRc, P20-type
material. Consistent hardness and
microstructure allow dependable, unattended
machining.
- EDM
EDM surface hardness
is about 70% of that produced by typical
P20-type steels. Post EDM grinding and
polishing operations are simpler and more
consistent, and problems such as surface
layer cracking or peeling are reduced.
- Stability
Uniform hardness and
refined grain structure assure the highest
level of dimensional stability (after
machining) of any P20-type mold steel.
- Surface
Enhancements
Can be ion-nitrided to produce a surface
hardness over 60 HRc with negligible
distortion or dimensional change.
- Texturing
and Polishing
Uniform
microstructure and hardness give PX5 the
best surface-finish characteristics of any
P20-type material. Low chemical segregation
eliminates the occurrence of photo etch
unevenness.
- Toughness
Exceptional
toughness reduces cracking problems in
molds.
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MECHANICAL
PROPERTIES
- Isotropy
and Uniform Strength
PX5's strength is
approximately the same at the center and
surface of the material, and that isotropy
(T/L) is at least 0.05.
Tensile
Properties
When
designing deep cavities in molds, PX5's
consistent toughness assures the mold center
will have sufficient strength, and cracking
problems are dramatically reduced.
Toughness
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PHYSICAL
PROPERTIES
Coefficient of
thermal expansion (x10-6/F°)
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|
86-212°F
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86-392°F
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86-572°F
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86-752°F
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86-1112°F
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PX5
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6.6
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7.1
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7.3
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7.5
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7.8
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Thermal
conductivity (btu/ft.·hr.·F°)
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68°F
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212°F
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392°F
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572°F
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752°F
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PX5
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24.53
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24.48
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24.31
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22.67
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22.42
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Specific heat (btu/lb.·F°)
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68°F
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212°F
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392°F
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572°F
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752°F
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PX5
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0.027
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0.028
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0.031
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0.032
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0.036
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Young's modulus
(lbs./in²)
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68°F
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212°F
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392°F
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572°F
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752°F
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PX5
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30269
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29768
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28909
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28051
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26977
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GENERAL
DESIGN GUIDELINES
- Compressive
Strength
Uniform hardness
(approximately 32 HRc) from surface to core
assures that strength and hardness at the
mold center are the same as at the surface.
Exceptional toughness reduces cracking
problems while increasing flexibility in
mold design.
- Stability
PX5 is substantially more stable than common
P20-type steels. Since it has a unique heat
treating process, it does not have the
stresses inherent in typical quenched and
tempered steels. PX5 never needs stress
relieving, even after heavy machining. It
has excellent dimensional stability and
consistency during the machining process,
and during the heating and cooling cycles of
injection or compression molding.
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PROCESSING
GUIDELINES
- Machinability
A recent machining
test was performed on PX5 material at a mold
base manufacturer. Listed below are the tool
settings for P20 and the results achieved
with PX5.
Tool No. 1
1.250 Diameter DIJET Ballnose Endmill
| |
P20 |
PX5 |
| RPM |
986 |
1600 |
| Feed
(in/min) |
11.83 |
27.60 |
| Depth |
.120 |
.120 |
Program
time was reduced from 38 minutes to 15.2
minutes
Tool No. 2
1.000 Diameter Waukesha Ballnose Endmill
| |
P20 |
PX5 |
| RPM |
1600 |
3000 |
| Feed
(in/min) |
16.6 |
33.0 |
| Depth
(Contour) |
.160-.180 |
.160-.180 |
Program
time was reduced from 5.7 minutes to
2.85minutes
Tool No. 3
.750 Sandvik Ballnose Endmill
| |
P20 |
PX5 |
| RPM |
2660 |
3000 |
| Feed
(in/min) |
18.2 |
36.0 |
| Depth
(Step Over) |
.160 |
.160 |
Program
time was reduced from 4.91 minutes to 2.5
minutes
Tool No. 4
(Finish cutter) 1.000 Diameter Iscar
Ballnose Endmill
| |
P20 |
PX5 |
| RPM |
2419 |
3000 |
| Feed
(in/min) |
19.35 |
40.00 |
| Depth |
.060 |
.060 |
Program
time was reduced from 10 minutes to 4.85
minutes
Note:
There was no noticeable wear in any of the
cutting tools using PX5.
- Manufacturing
Process
A 40" x
41" x 87" block of PX5 was forged
and heat treated. The piece was cut through
61" into the 87" length. The
following hardness readings were taken
across the face of the test piece.
- Inspection
Result
Sectional Hardness
Rockwell C Scale:
- EDM
The recast layer
from EDM for PX5 is soft, approximately 70%
of that produced with typical chrome-moly
steels. Because the EDM white layer must be
removed, the subsequent stoning or grinding
of PX5 is much easier than with other
steels. There is also a significant
reduction in the incidence of problems
involving the hardened layer, such as
surface layer cracking or peeling.
Consequently, no post EDM stress relieving
is needed.
Hardness
of EDM Affected Area
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- Polishing
PX5's exceptional cleanliness, uniform
microstructure, and uniform through hardness
facilitate excellent and consistent surface
finishing characteristics. PX5 polishes
faster and easier to a superior mirror
finish than common P20-type steels. PX5 will
polish to a 6000-7000 grit finish, while P20
polishes to only a 5000 grit finish.
Mirror
Surface
- Photo
Etchability
PX5 is an excellent
steel for photo etching. Low chemical
segregation of the alloying elements results
in a clean, homogenous steel. Absolutely no
etch unevenness will occur due to chemical
segregation. PX5's uniform hardness and
refined grain structure also provide a
consistent surface condition for texturing.
A reduction in work time and cost can be
anticipated due to the elimination of etch
unevenness problems.
- Ion-Nitriding
Ion-nitriding
increases wear resistance and creates a hard
surface ideal for slides or molds which will
be molding abrasive or mineral-filled
thermoplastics. PX5 can be ion-nitrided to
produce a surface hardness over 60 HRc
without distortion or dimensional changes.
This ion-nitrided surface also improves part
release and corrosion resistance.
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Welding
It is essential that
no rod other than PX5 should be used
in all welding situations. All other rods
are incompatible with the base metal
chemistry of PX5 and will produce
unacceptable results.
In most cases, PX5 can be welded with no
pre- or post-heating procedures. However,
this is not true in all situations. We
suggest that in the event a polished surface
must be welded (such as a lens or
chrome-plated parts), pre-heat the block to
between 650-900°F. Weld with PX5 rod, then
post-heat to between 1040-1050°F. Final
draw temperature for PX5 mold steel is 1117°F.
DO NOT,
under any circumstances, exceed final draw
temperature.
On a textured
surface, the need to pre- and post-heat is
determined by the etching method used by the
grain source. If the selected grainer uses
the immersion process with a nitric
acid-based solution, then there is generally
no need for pre- or post-heating procedures.
If the grainer uses a ferric chloride flow
technique, it is recommended that a full
pre- and post-heating procedure be performed
prior to texturing as outlined above.
We recognize that many mold welders apply
heat locally with torches as a means of
pre-heating the welded area. While this is a
commonly used procedure, and generally
produces acceptable results on non-polished
surfaces, it is not recommended for
post-heating welded blocks. The result of
localized heat of this type is an actual
flame-hardening of the weld that will
produce an inconsistent increase in hardness
by as much as 10-12 points (Rockwell C).
1) Weld Cracking
Sensitivity
The compositional
balance of PX5 was designed to suppress
crack sensitivity. The weld will not shrink
and crack at the marriage line, even without
pre- and post-heating, as long as basic
welding conditions are observed.
Y-Split Cracking Test
(determines cracking susceptibility)
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Welding
method
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MAG
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Filler
rod
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PX5
Weld Rod
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Filler
rod Diameter
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0.047"
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Welding
Current
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280
A
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Gas
flow rate
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25
 /min
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Pre/post
heating
|
None
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Results
 PX5
 P20
PX5 exhibits no
cracking in either the weld surface or
interior.
Weld cracking will not occur as long as
basic welding conditions and procedures are
observed.
2) Weld
Hardness
PX5 has the lowest
level of hardness in the heat-affected zone
of any P20-type mold steel. This relatively
low increase in hardness reduces post-weld
cutting and grinding times (i.e., high-speed
steel end mills can be used).
Hardness
Distribution Around Weld
3) Photo
Etchability
After weld repair,
typical P20 will have etch unevenness due to
its increased hardness. This requires many
hours to correct. PX5's relatively small
increase in hardness in the heat affected
zone reduces the incidence of etch
unevenness and requires minimal correction
work.
Photo Etch Quality
Around Weld
4) Distortion
Post-weld distortion
is the lowest for any P20-type material, due
to the relatively small increase in hardness in the weld area.
Post-repair dimensional correction work is simplified.
Test
Conditions
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Welding
method
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TIG
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Filler
rod
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PX5
Weld Rod
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Filler
rod diameter
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0.094"
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Welding
current
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125
A
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Gas
flow rate
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7
/min
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Pre/post
heating
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None
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Test
Method
Results
5) Undercut Characteristics
While undercutting
or "sink" surrounding the weld
will always occur to some degree, PX5 has
only a small degree of undercutting,
dramatically reducing the amount of repair
time.
Weld Sink
Test Conditions
TIG: 160A, no filler
Test piece: 10 degree slant
Weld Sink
at Heat Affected Zone
PX5
P20
4140
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All
technical and engineering data and suggested
procedures, specifications and
applications contained in this publication are
for general information only. Daido Steel, International Mold Steel and/or their
distributors disclaim any and all express or
implied warranties of merchantability, suitability for
any particular purpose or use, or freedom from infringement of any patent, trademark or
copyright. PX5® is a registered
trademark of International Mold Steel, Inc. and
Daido Steel Limited.
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International Mold Steel, Inc.