Compare ISO N2320 cylindrical roller bearings | ||||||||
---|---|---|---|---|---|---|---|---|
J | C | d | B | D | C0 | Ew | Peso | |
N2320 | - | 73 mm | 100 mm | 73 mm | 215 mm | - | - | - |
N2320 | 140,5 mm | 410 kN | 100 mm | 73 mm | 215 mm | 505 kN | 185,5 mm | - |
N2320 | - | 73 mm | 100 mm | 73 mm | 215 mm | - | - | - |
N2320 | 140,5 mm | 73 mm | 100 mm | 73 mm | 215 mm | - | 185,5 mm | 11,5 Kg |
N2320 | - | 73 mm | 100 mm | 73 mm | 215 mm | - | - | - |
N2320 | 140,5 mm | 73 mm | 100 mm | 73 mm | 215 mm | - | 185,5 mm | 11,5 Kg |
N2320 | - | 73 mm | 100 mm | 73 mm | 215 mm | - | - | - |
N2320 | 140,5 mm | 73 mm | 100 mm | 73 mm | 215 mm | - | 185,5 mm | - |
N2320 | - | 73 mm | 100 mm | 73 mm | 215 mm | - | - | - |
N2320 | 140,5 mm | 73 mm | 100 mm | 73 mm | 215 mm | - | 185,5 mm | - |
ISO N2320 cylindrical roller bearings Video
Ultraform® N 2320 U017 UNC Q600 - BASF Corporation
Ultraform N 2320 U017 UNC Q600 is a rapidly freezing UV stabilized general-purpose injection molding grade. PHYSICAL. ISO Test Method. Property Value
datasheet Ultraform® N2320 008 AT - CAMPUSplastics
Ultraform® N2320 008 AT | POM | BASF. Product Texts. Rapidly solidifying standard grade for injection molding. Abbreviated designation according to ISO 1043:
BASF Ultraform® N 2320 003 UNC Q600 POM - MatWeb
Moisture Absorption at Equilibrium, ISO 62, 23°C/50% R.H.; Melt Flow, ISO 1133; Ball Indentation Hardness, ISO 2039-1, 358/30; Tensile Strength, Hot water
Ultraform® N2320 003 - Product Datasheet - Plastore
Designation according to ISO 9988-1: POM-K, M-GNR, 03-002. Physical form and storage. Ultraform® is supplied in the form of granules having a bulk density of
Ultraform N2320 003 - Nyfast
Rapidly solidifying standard grade for injection molding. Contains a mold release agent. Abbreviated designation according to ISO 1043-1: POM. Designation
Ultraform® N 2320 003 BK120 Q600 - BASF Corporation
PHYSICAL. ISO Test Method. Property Value. Density, g/cm³. 1183. 1.40. Moisture, %. 62. (50% RH). 0.2. (Saturation). 0.8. MECHANICAL. ISO Test Method