Physical Properties | Metric | English | Comments |
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Particle Size | 38 µm | 38 µm | median; Microtrac |
Nyco NYGLOS® M30 Wollastonite Wollastonite is a naturally occurring white mineral with an acicular (needle-shaped) particle structure. This distinctive particle morphology makes wollastonite an ideal performance mineral for a br.. |
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Particle Size | 38 µm | 38 µm | median; Microtrac |
Nyco ULTRAFIBRE® M30 Wollastonite Wollastonite is a naturally occurring white mineral with an acicular (needle-shaped) particle structure. This distinctive particle morphology makes wollastonite an ideal performance mineral for a br.. |
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Particle Size | 38 µm | 38 µm | Average Size |
Inhance Fluoro-Seal INHANCE® UH-1700 Ultra High Molecular Weight Polyethylene Product Description: INHANCE UH-1000 series particles are surface-activated Ultra High Molecular Weight Polyethylene (UHMWPE) in powder form. Surface activation makes the particles easy to disperse.. |
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Particle Size | 38 µm | 38 µm | Finer than |
Inhance Fluoro-Seal INHANCE® UH-1900 Ultra High Molecular Weight Polyethylene Product Description: INHANCE UH-1000 series particles are surface-activated Ultra High Molecular Weight Polyethylene (UHMWPE) in powder form. Surface activation makes the particles easy to disperse.. |
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Particle Size | 38 µm | 38 µm | Maximum of 12% less than |
H.C. Starck Amperit® 110.074 Agglomerated Sintered (Mo-Mo2C) |
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Particle Size | 38 µm | 38 µm | Maximum of 7% greater than |
H.C. Starck Amperit® 421.087 NiCoCrAlTaReY (MCrAlY) |
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Particle Size | 38 µm | 38 µm | Maximum of 5% less than |
H.C. Starck Amperit® 518.002 Agglomerated, Sintered Tungsten Carbide-Cobalt 88-12 (WC-CO) |
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Particle Size | 38 µm | 38 µm | Maximum of 20% less than |
H.C. Starck Amperit® 526.077 Agglomerated, Sintered Tungsten Carbide-Cobalt (WC-Co) 83-17 |
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Particle Size | 38 µm | 38 µm | Maximum 20% less than, for WC-Co 83-17 |
H.C. Starck Amperit® 560.077 Tungsten Carbide-Cobalt(83-17)-Nickel-SF RC 60 50-50 (Wc-Co / NiSF RC 60) Composition is of NiSF RC 60 only |
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Particle Size | 38 µm | 38 µm | Maximum of 5% less than, Ni-SF RC 60 |
H.C. Starck Amperit® 568.005 Tungsten Carbide-Nickel 92-8 - Nickel SF RC 60 65-35 Composition is of NiSF RC 60 only |
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Particle Size | 38 µm | 38 µm | maximum of 5% greater than |
H.C. Starck Amperit® 582.072 Chromium Carbide-Nickel Chromium 80-20 (Cr3C2-NiCr) |
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Particle Size | 38 µm | 38 µm | maximum of 5% |
H.C. Starck Amperit® 584.072 Chromium Carbide-Nickel-Chromium 75-25 (Cr3C2-NiCr) |
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Particle Size | 38 - 50 µm | 38 - 50 µm | 90% |
H.C. Starck Amperit® 584.072 Chromium Carbide-Nickel-Chromium 75-25 (Cr3C2-NiCr) |
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Particle Size | 38 µm | 38 µm | Maximum of 5% less than |
H.C. Starck Amperit® 847.6 Agglomerated Yttria (Y2O3) |
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Particle Size | <= 38 µm | <= 38 µm | Fine Powder |
H.C. Starck Grade P1 Crystalline Boron Neutron shields and absorbers in nuclear reactorsThermistorsFilamentsPreparation of high-purity metal boridesMetallurgy (deoxidizing agent) |
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Particle Size | 38 µm | 38 µm | Laser Method (Dry) |
Daikin POLYFLON M-18 PTFE Molding Powder, Fine Cut Fine cut powder.Processing Methods: Compression molding.Features: Suited to molding of large billets, has nearly the same molding characteristics of M-12. Also allows uniform mixing of inorganic fi.. |
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Particle Size | 38 - 42 µm | 38 - 42 µm | Average; ATO 40-41-0 (Coulter Counter) |
Arkema Group ORGASOL® 2002 ES 4 Nat 3 Polyamide 12 Information provided by Arkema Group |
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Particle Size | 38 - 78 µm | 38 - 78 µm | Range (D10 to D90); Laser Diffraction |
ALM PA 850 Black Nylon 11 SLS Prototyping Polymer Information provided by Advanced Laser Materials (ALM). |
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Particle Size | 38 - 78 µm | 38 - 78 µm | Range (D10 to D90); Laser Diffraction |
ALM PA 850-Nat Nylon 11 SLS Prototyping Polymer Unfilled PA 11 formulated for easy processing. Can be run as a drop-in replacement for other commercially available PA 11 laser sintering powders. Parts produced from PA 850 exhibit outstanding mech.. |
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Particle Size | 38 - 78 µm | 38 - 78 µm | D10-D90 |
ALM PA-840-GSL Filled Nylon 12 Prototyping Polymer Engineered for excellent mechanical properties, part definition and surface finish.Stabilized against thermal degradation resulting in little or no scrap material, with typical virgin refresh rates .. |
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Particle Size | 38 - 78 µm | 38 - 78 µm | Range (D10 to D90); Laser Diffraction |
ALM PA 860 White Nylon 11 SLS Prototyping Polymer Unfilled White PA 11 that is formulated for easy processing across all LS platforms. Tightly controlled particle distribution creates a smooth surface finish and excellent feature detail. Parts prod.. |
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Particle Size | 38 - 46 µm | 38 - 46 µm | 50% |
H.C. Starck Amperit® 588.088 Chromium Carbide-Nickel Chromium 75-25 (Cr3C2-NiCr) 53/20 µm |
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Particle Size | 38 µm | 38 µm | Maximum of 5% less than |
H.C. Starck Amperit® 821.6 Zirconia-Yttria 80-20 (ZrO2-Y2O3) |
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Particle Size | 38 µm | 38 µm | VW-10200RSFP; D90 Particle sizes by sieve measurement |
Solvay Specialty Polymers Virantage® VW-10200 RP, RFP, RSFP Polyethersulfone (PESU)
(Unverified Data**)&l Virantage® VW-series functionalized polyethersulfones (r-PESU) are amorphous, high-temperature sulfone polymers featuring reactive end groups to enhance solubility and improve interfacial propertie.. |
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Particle Size | 38 µm | 38 µm | Maximum of 7% greater than |
H.C. Starck Amperit® 415.072 CoNiCrAlY (MCrAlY) |
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Particle Size | 38 µm | 38 µm | Maximum of 5% less than |
H.C. Starck Amperit® 547.002 Tungsten Carbide-Nickel 88-12 (WC-Ni) |
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Particle Size | 38 - 48 µm | 38 - 48 µm | 90% |
H.C. Starck Amperit® 552.072 Tungsten Carbide - Chromium Carbide-Nickel 73-20-7 (WC-CrC-Ni) |