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Rochling Sustaplast Sustarin H

Material Properties and Machining Guidelines for Sustarin H, Sustarin H AF and Sustarin AF - DE588.

SheetsSheets
extruded 3/8" – 6" x 24" x 48"
5/8" – 2" x 48" x 96"
5/8" – 2" x 48" x 120"
calandered 1/8" – 1/2" x 48" x 96"
1/8" – 1/2" x 48" x 120"
cast 1/4" – 4" x 24" x 48"
1/4" – 4" x 48" x 96"
RodsRods
extruded 1/4" – 6" dia, 10 ft lengths
7" – 12" dia, 3 ft lengths
cast 2" – 4–1/2" dia, 10 ft lengths
5" – 12–1/4" dia, 4 ft lengths
13" – 23–1/2" dia, 2 ft lengths
TubesTubes
extruded 3/4" OD x 7/16" ID up to
20–1/2" OD x 13–1/2" ID
cast 4" OD x 2" ID up to
42" OD x 37" ID

Material Selection pdf

Sustarin H Sustarin H AF Sustarin H AF - DE588
Common Name Acetal Homopolymer “Delrin” Delrin AF Blend Delrin AF –DE588
Chemical Reference POM H POM H + 13% PTFE Fiber POM H + PTFE
Specific Gravity D792 - 1.42 1.50 1.54
Tensile Strength D638 PSI 10,500 8,000 6,630
Tensile Modulus D638 PSI 420,000 410,000 540,000
Tensile Elongation D638 % 40 20 30
Flexural Strength D790 PSI 12,000 12,500 12,500
Flexural Modulus D790 PSI 400,000 450,000 405,000
Shear Strength D732 PSI 9,000
Compressive Strength D695 PSI 16,000 15,000 12,600
Rockwell Hardness D785 M M89 M85 M50
Rockwell Hardness D785 R R121 R115 R110
Durometer Shore D D2240 - D83 D85 D76
Izod Impact Notched D256 ft. lb/in 1.2 .7
Coefficient of Friction (dry vs. steel) Dynamic 0.12
Coefficient of Linear Thermal Expansion D696 in/in/°F 6.7 x 10-5 5.1 x 10-5 4.4 x 10-5
Heat Deflection
Temperature @ 66 psi
D648 °F 290 334 334
Heat Deflection
Temperature @ 264 psi
D648 °F 242 248 244
Melting Point °F 347 347 350
Continuous Use °F 185 185 185
Thermal Conductivity BTU
in/hr/ft2/°F
2 2 2
Volume Resistivity D257 ohm–cm 1016 1016 1016
Dieletric Strength D149 volts/mil 400 450 400
Dieletric Constant D150 1 MHz 3.1 3.7 3.1
Flammability UL 94 HB HB HB
Dissipation Factor D150 1 MHz 0.009 0.009
Water Absorption 24 hours D570 % by weight 0.2 0.2 0.2
Water Absorption Saturation D570 % by weight 0.7 0.8 0.8
FDA Compliance Yes No No

Test state: Dry. The specified electrical characteristic values were measured on the natural–colored, dry material. In the case of other colorings (particularly black) or moist material, significant changes in the electrical characteristic values can occur.

The short–term max. service temperature applies only to applications with extremely low loading over a few hours. The long–term max. service temperature is based on the thermal aging of the plastics due to oxidation, which results in a decrease in the mechanical properties.

Temperatures are specified which, after a minimum period of 5000 hours, cause a decrease in the tensile strength (measured at room temperature) by 50% compared with the initial value. This value does not provide any information about the mechanical strength of the material at high application temperatures. In the case of thick–walled parts, oxidation at high temperatures only affects the surface layer, which can be better protected by adding antioxidants. The core area of the parts always remains intact. The minimum service temperature is determined decisively by a possible shock or impact load during use.

The specified values refer to low impact loading. The specified values have been calculated as average values on the basis of numerous individual measurements and correspond to our present state of knowledge. They merely serve as information about our products and as guidance values when choosing materials. They are by no means to be construed as a legally binding promise of any specific properties or suitability for specific purposes.

Since the properties are also governed by the dimensions of the semi–finished products and the degree of crystallization (e.g. nucleation through pigments), the actual values of the properties of a specific product can differ slightly from the information specified.

The following applies for polyamides: As a result of the absorption of moisture, the mechanical properties change, the material becomes tougher, more shock–resistant, the modulus of elasticity diminishes. Depending on the ambient atmosphere, temperature and time for the moisture to be absorbed, only one specific surface layer is however affected by the changes in properties. In the case of thick–walled parts, the core area remains unchanged.

The mechanical properties of fiber–reinforced materials have been calculated on injection–molded test specimens in grain direction. For the design of structures and the definition of material specifications, we are happy to supply you with appropriate information for your application upon request.

FDA Compliance based upon unfilled resins. Any special colors or additives can affect the compliance.

Machining Guidelines pdf

Sustarin H Sustarin H AF Sustarin H AF Sustarin H AF - DE588
SAWING
a
clearance angle (°)
min 20 20 20 20
max 30 30 30 30
b
rake angle (°)
min 0 0 0 0
max 5 5 5 5
cutting speed (ft/min) min 131 131 131 131
max 328 328 328 328
c
tooth pitch (in)
min .079 .079 .079 .079
max .197 .197 .197 .197
TURNING
a
clearance angle (°)
min 6 6 6 6
max 8 8 8 8
b
rake angle (°)
min 0 0 0 0
max 5 5 5 5
d
setting angle (°)
min 45 45 45 45
max 60 60 60 60
cutting speed (ft/min) min 984 984 984 984
max 1969 1969 1969 1969
feed (in/rev) min .004 .004 .004 .004
max .157 .157 .157 .157
DRILLING
a
clearance angle (°)
min 5 5 5 5
max 10 10 10 10
b
rake angle (°)
min 15 15 15 15
max 30 30 30 30
d
acute angle (°)
min 90 90 90 90
cutting speed (ft/min) min 164 164 164 164
max 656 656 656 656
feed (in/rev) min .004 .004 .004 .004
max .012 .012 .012 .012
MILLING
a
clearance angle (°)
min 5 5 5 5
max 15 15 15 15
b
rake angle (°)
min 5 5 5 5
max 15 15 15 15
cutting speed (ft/min) min 820 820 820 820
max 1640 1640 1640 1640
SawingTurning Drilling Milling