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Polymer Property : Density = 3.80 g/cc Product List
Physical PropertiesTips: 30 items are displayed at most. For the rest of the results, please contact customer service.
| Physical Properties | Metric | English | Comments |
|---|---|---|---|
| Density | 3.80 g/cc | 0.137 lb/in³ | |
| Nabaltec NABALOX® NO 102 Calcined Aluminum Oxide NABALOX® aluminum oxide has a number of advantages including low sintering temperaturewide sintering rangeflexible processinghigh sintered densities high wear and impact resistanceelectrical insula.. |
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| Density | 3.80 - 4.00 g/cc | 0.137 - 0.145 lb/in³ | ASTM D792 |
| Polikim EFALON® B-60 PTFE, 60% Bronze Filled Bronze-filled Efalon® (PTFE) has better heat insulation, less thermal expansion, higher wear resistance properties and less deformation under load compared to virgin Efalon®. Applications: bearing.. |
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| Density | 3.80 g/cc | 0.137 lb/in³ | ISO 1183 |
| Nilit FRIANYL A63 BR80 Nylon 6.6 for injection molding, 80% bronze filled Nylon 6.6 for injection moldingInformation provided by Frisetta Polymer, which merged into Nilit Plastics |
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| Density | 3.80 g/cc | 0.137 lb/in³ | |
| Parker Chomerics CHO-FLEX 4430 Conductive Ink CHO-FLEX polyester inks were developed for the membrane keyboard and sensor industries. The ink bond to Mylar films, and can be creased, heat-formed or scratched without affecting their performance... |
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| Density | 3.80 g/cc | 0.137 lb/in³ | |
| Parker Chomerics CHO-FLEX 4432 Conductive Ink CHO-FLEX polyester inks were developed for the membrane keyboard and sensor industries. The ink bond to Mylar films, and can be creased, heat-formed or scratched without affecting their performance... |
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| Density | 3.80 g/cc | 0.137 lb/in³ | |
| GBC Grade 98 Alumina Data provided by the manufacturer, GBC Materials Corporation. |
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| Density | 3.80 g/cc | 0.137 lb/in³ | |
| Microplasmic Anodizing [Ceramic Coating] for Aluminum, Magnesium, Titanium, Zirconium & Composites Microplasmic Process is for all types of aluminum, magnesium, titanium and zirconium alloys and composite materials. It is an electrochemical micro arc oxidation process for which a U.S. pat.. |
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| Density | 3.80 - 4.60 g/cc | 0.137 - 0.166 lb/in³ | ASTM B417 |
| H.C. Starck Amperit® 512.059 Agglomerated Sintered Tungsten Carbide - Cobalt (WC-Co) 88-12 |
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| Density | 3.80 - 4.50 g/cc | 0.137 - 0.163 lb/in³ | ASTM B212 |
| H.C. Starck Amperit® 512.074 Agglomerated Sintered Tungsten Carbide - Cobalt (WC-Co) 88-12 |
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| Density | 3.80 - 4.40 g/cc | 0.137 - 0.159 lb/in³ | ASTM B212 |
| H.C. Starck Amperit® 518.001 Agglomerated, Sintered Tungsten Carbide-Cobalt 88-12 (WC-CO) |
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| Density | 3.80 - 4.40 g/cc | 0.137 - 0.159 lb/in³ | ASTM B212 |
| H.C. Starck Amperit® 518.088 Agglomerated, Sintered Tungsten Carbide-Cobalt 88-12 (WC-CO) |
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| Density | 3.80 - 4.40 g/cc | 0.137 - 0.159 lb/in³ | ASTM B212 |
| H.C. Starck Amperit® 526.062 Agglomerated, Sintered Tungsten Carbide-Cobalt (WC-Co) 83-17 |
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| Density | 3.80 - 4.40 g/cc | 0.137 - 0.159 lb/in³ | ASTM B212 |
| H.C. Starck Amperit® 526.077 Agglomerated, Sintered Tungsten Carbide-Cobalt (WC-Co) 83-17 |
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| Density | 3.80 - 4.40 g/cc | 0.137 - 0.159 lb/in³ | ASTM B212 |
| H.C. Starck Amperit® 526.088 Agglomerated, Sintered Tungsten Carbide-Cobalt (WC-Co) 83-17 |
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| Density | 3.80 - 4.80 g/cc | 0.137 - 0.173 lb/in³ | ASTM B417 |
| H.C. Starck Amperit® 544.059 Dense Coated Tungsten Carbide-Nickel 83-17 (WC-Ni) |
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| Density | 3.80 - 4.40 g/cc | 0.137 - 0.159 lb/in³ | ASTM B212 |
| H.C. Starck Amperit® 560.062 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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| Density | 3.80 - 4.40 g/cc | 0.137 - 0.159 lb/in³ | ASTM B212 |
| 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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| Density | 3.80 g/cc | 0.137 lb/in³ | |
| Ferro IP 770 Passivation Glasses (Pb-B-Si-Al; Pb-Si-Al; Si-Pb-Al Silicates) Glass Type: Pb-Si-Al Typical Powder Form: TF, REG, RWG, SRRG Ferro's passivation glasses are designed for use on transistors, thyristors, and diodes. These products are formulated and produced to a.. |
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| Density | 3.80 g/cc | 0.137 lb/in³ | ISO 1183 |
| SABIC Innovative Plastics LNP Thermocomp PH0390A PA 6 LNP THERMOCOMP* PH0390A is a compound based on Nylon 6 resin. Added features of this material include: High Specific Gravity.This data was supplied by SABIC-IP for the Americas region. |
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| Density | 3.80 g/cc | 0.137 lb/in³ | |
| CeramTec Ziralit Zirconia Toughened Alumina (ZTA), Al2O3•ZrO2 CeramTec's Zirconia Toughened Alumina (Ziralit) provides excellent strength, excellent temperature performance, and superior toughness. It has enhanced performance for high quantity volume productio.. |
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| Density | 3.80 g/cc | 0.137 lb/in³ | ASTM-C 20 |
| CoorsTek FG-98 98% Alumina Ceramic Armor Material CoorsTek CeraShield™ ceramics provide: low weight, high hardness, controlled, uniform microstructure, dimensional stability over wide temperature range, compatibility for use in finished armor sys.. |
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| Density | 3.80 g/cc | 0.137 lb/in³ | ASTM C20 |
| CoorsTek FG-995 Alumina (nom. 98.5% Al2O3) Thermal Shock Delta Tc = 200°C - Thermal shock tests are performed by quenching samples in water from different elevated temperatures. Delta Tc is the change in temperature which results in a shar.. |
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| Density | 3.80 g/cc | 0.137 lb/in³ | |
| Cotronics Duralco™ 120 500°F Silver Filled Epoxy, Electrically Conductive Contains over 70% ultra fine silver to provide excellent electrical conductivity. Cures at room temperature.>Applications: ideal for use where maximum conductivity is required. |
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| Density | 3.80 g/cc | 0.137 lb/in³ | |
| Arkema Group Rilsan® BMN Y BZ TL Nylon 11, Bronze Bead Filled (Conditioned) Designation ISO 1874-PA11,MHLS,16-020,(Z+M)(B+D)(80BZ+05)Rigid grade with bronze beads (85%) and molybdenum fillers for injection molding. Available color: steel brown. Light and heat stabilized.No .. |
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| Density | 3.80 g/cc | 0.137 lb/in³ | Side 2, Silicone Property; Arlon SQA-TMS-024 |
| Arlon R36386C035 0.035" (0.889 mm) Uncured/Cured Silicone Rubber with Fiberglass Substrate Design/Construction: Interleave: Polyethylene Side 1: Cured Silicone Rubber Side 2: Uncured Silicone Rubber (Ferromagnetic Filler) Substrate: Style 7628 Fiberglass This data represents typical value.. |
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| Density | 3.80 - 4.60 g/cc | 0.137 - 0.166 lb/in³ | ASTM B417 |
| H.C. Starck Amperit® 529.053 Tungsten Carbide - Hastalloy C 85-15 (NiMoCrFeCo) |
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| Density | 3.80 g/cc | 0.137 lb/in³ | |
| CeramTec Rubalit® A 1898 Alumina, 98% Rubalit® A 1898 (98%) was specifically developed in response to electrical and electronic engineering needs. In conjunction with CeramTec's complementary metallization systems, a vacuum-tight bond .. |
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| Density | 3.80 - 3.90 g/cc | 0.137 - 0.141 lb/in³ | molded; ASTM D792 |
| Guarniflon PTFE G458 Polytetrafluoroethylene 60% Bronze, 2% Carbon PTFE G Standard Compound with bronzeProperties: Enhanced compressive strength. Good wear resistance and high thermal conductivity.Application: Unlubricated bearings for high speed excluding hard .. |
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| Density | 3.80 - 4.40 g/cc | 0.137 - 0.159 lb/in³ | ASTM B212 |
| H.C. Starck Amperit® 518.054 Agglomerated, Sintered Tungsten Carbide-Cobalt 88-12 (WC-CO) |
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| Density | 3.80 - 4.60 g/cc | 0.137 - 0.166 lb/in³ | ASTM B212 |
| H.C. Starck Amperit® 529.074 Tungsten Carbide - Hastalloy C 85-15 (NiMoCrFeCo) |
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