EN
NL
DE
CALCULATOR
Bar
Square
Rectangle
Rectangle
Tube
Hexagon
RESULT
Calculator version 1.1
Copyright © 2008 Elcas
No rights may be derived from the results of calculations
TUBES CAST IRON
EN-GJL-250 | EN-GJS-400-15 | EN-GJS-500-7 | EN-GJS-600-3
We machine all your tubes according to your specifications
✔ standard | ✚ non standard, stock availble
Inside diameters for Cast Iron tubes
|
This list shows most common insidfe diameters, however our production is not limited to this list Is your size/dimension not in the list, please contact us so we can quote you accordingly |
||||
| 28 | 103 | 208 | 308 | 408 |
| 33 | 108 | 217 | 318 | 417 |
| 38 | 113 | 228 | 328 | 428 |
| 43 | 118 | 237 | 338 | 438 |
| 48 | 122 | 248 | 348 | 447 |
| 53 | 128 | 252 | 358 | 467 |
| 58 | 133 | 258 | 368 | 497 |
| 63 | 138 | 268 | 378 | 518 |
| 68 | 142 | 278 | 388 | 522 |
| 73 | 148 | 288 | 398 | 547 |
| 78 | 152 | 298 | 573 | |
| 83 | 158 | 597 | ||
| 88 | 162 | |||
| 93 | 168 | |||
| 98 | 172 | |||
| 177 | ||||
| 182 | ||||
| 188 | ||||
| 193 | ||||
| 197 | ||||
Tubes
We supply tubes in the qualities EN-GJL-250 (GG25), EN-GJS-400-15 (GGG40), EN-GJS-500-7 (GGG50) en EN-GJS-600-3 (GGG60)
| Tubes | minimum | maximum |
|---|---|---|
| Outside diameter | 50 mm | 703 mm |
| inside diameter | 30 mm | 597 mm |
|
For an indication of the weight of the tube you can calculate: Weight of the outside diameter -/- weight of the inside diameter
Tubes with a larger diameter can be offered from centrifugal or static casting |
||
EN-GJL-250 | GG25
| EN | DIN | ||||
| Grade | EN-GJL-250 | GG25 | |||
| Similar to | Meehanite GD250 | ||||
| Standard | EN 16482 | DIN 1691 | |||
| Alloy number | 5.1203 | 0.6025 | |||
| Chemical composition | Mechanical properties | ||||
| C | 2,90 - 3,65 | Rm | 155 - 275 | ||
| Si | 1,80 - 2,90 | HB | 160 - 250 | ||
| Mn | 0,50 - 0,70 | ||||
| S | 0,10 max. | ||||
| P | 0,30 max. | ||||
| kg/dm³ | ca. 7,3 | ||||
| Characteristics | EN-GJL-250 is a pearlitic-ferritic cast iron with a good combination of strength and wear resistance, while still providing good machinability and excellent surface finish. Due to the graphite structure, sound and vibration damping and thermal conductivity are excellent in this quality | ||||
EN-GJL-300 | GG30
| EN | DIN | ||||
| Grade | EN-GJL-300 | GG30 | |||
| Similar to | Meehanite GB300 | ||||
| Standard | EN 16482 | DIN 1691 | |||
| Alloy number | 5.1308 | 0.6030 | |||
| Chemical composition | Mechanical properties | ||||
| C | 2,90 - 3,65 | Rm | 170 - 325 | ||
| Si | 1,80 - 2,90 | HB | 190 - 260 | ||
| Mn | 0,10 - 0,30 | ||||
| S | 0,10 max. | ||||
| P | 0,30 max. | ||||
| kg/dm³ | ca. 7,3 | ||||
| Characteristics | EN-GJL-300 is alloyed to achieve specific properties, which gives higher wear resistance compared to EN-GJL-250, while still giving reasonable machinability and excellent surface finish | ||||
EN-GJS-400-15 | GGG40
| EN | DIN | ||||
| Grade | EN-GJS-400-15 | GGG40 | |||
| Similar to | Meehanite SF400 | ||||
| Standard | EN 16482 | DIN 1693 | |||
| Alloy number | 5.3126 | 0.7040 | |||
| Chemical composition | Mechanical properties | ||||
| C | 3,40 - 3,85 | Rm | 400 | ||
| Si | 2,30 - 3,10 | Rp 0,2 | 250 | ||
| Mn | 0,10 - 0,30 | A5 | 15 | ||
| S | 0,02 max. | HB | 130 -180 | ||
| P | 0,10 max. | ||||
| kg/dm³ | ca. 7,3 | ||||
| Characteristics | This is the most common alloy of nodular cast iron, it is supplied in an annealed state and has a predominantly ferritic structure. EN-GJS-400-15 offers superior machinability and surface finish combined with good elongation, electrical conductivity and magnetic permeability. Noise and vibration damping are good in this alloy | ||||
EN-GJS-500-7 | GGG50
| EN | DIN | ||||
| Grade | EN-GJS-500-7 | GGG50 | |||
| Similar to | Meehanite SFP500 | ||||
| Standard | EN 16482 | DIN 1693 | |||
| Alloy number | 5.3203 | 0.7050 | |||
| Chemical composition | Mechanical properties | ||||
| C | 3,40 - 3,85 | Rm | 500 | ||
| Si | 2,30 - 3,10 | Rp 0,2 | 320 | ||
| Mn | 0,10 - 0,30 | A5 | 7 | ||
| S | 0,02 max. | HB | 170 - 240 | ||
| P | 0,10 max. | ||||
| kg/dm³ | ca. 7,3 | ||||
| Characteristics | EN-GJS-500-7 is a material with a predominantly ferritic / pearlitic structure. This grade offers good tensile strength and a sufficiently high yield point in combination with good toughness. Compared to EN-GJS-400-15 (GGG40), this material is more wear resistant. It has excellent machinability and can be used up to approximately 450 °C | ||||
EN-GJS-600-3 | GGG60
| EN | DIN | ||||
| Grade | EN-GJS-600-3 | GGG60 | |||
| Similar to | Meehanite SP600 | ||||
| Standard | EN 16482 | DIN 1693 | |||
| Alloy number | 5.3204 | 0.7060 | |||
| Chemical composition | Mechanical properties | ||||
| C | 3,40 - 3,85 | Rm | 600 | ||
| Si | 2,30 - 3,10 | Rp 0,2 | 360 | ||
| Mn | 0,10 - 0,30 | A5 | 3 | ||
| S | 0,02 max. | HB | 200-260 | ||
| P | 0,10 max. | ||||
| kg/dm³ | ca. 7,3 | ||||
| Characteristics | EN-GJS-600-3 has a predominantly pearlitic structure and is reasonably workable, combined with high wear resistance and strength | ||||
EN-GJS-700-2 | GGG70
| EN | DIN | ||||
| Grade | EN-GJS-700-2 | GGG70 | |||
| Similar to | Meehanite SP700 | ||||
| Standard | EN 16482 | DIN 1693 | |||
| Alloy number | 5.3303 | 0.7070 | |||
| Chemical composition | Mechanical properties | ||||
| C | 3,40 - 3,85 | Rm | 700 | ||
| Si | 2,30 - 3,10 | Rp 0,2 | 400 | ||
| Mn | 0,10 - 0,30 | A5 | 2 | ||
| S | 0,02 max. | HB | 240 - 300 | ||
| P | 0,10 max. | ||||
| kg/dm³ | ca. 7,3 | ||||
| Characteristics | EN-GJS-700-2 has a pearlitic structure with higher mechanical values than the other nodular alloys. The material is less workable and has a low elongation | ||||
Internationale referentietabel Gietijzer
| Lamellair Gietijzer | Nodulair Gietijzer | |||||||
| Land | Norm | GG20 | GG25 | GG30 | Norm | GGG40 | GGG50 | GGG60 |
| Australië | AS 1830:2002 | T-220 | T-260 | T-300 | AS 1831:2002 | 400-15 | 500-7 | 600-3 |
| Oostenrijk | Onorm 16482:2014 | EN-GJL-200C | EN-GJL-250C | EN-GJL-300C | Onorm 16482:2014 | EN-GJS-400-15C | EN-GJS-500-7C | EN-GJS-600-3C |
| België | NBN EN 16482:2014 | EN-GJL-200C | EN-GJL-250C | EN-GJL-300C | NBN EN 16482:2014 | EN-GJS-400-15C | EN-GJS-500-7C | EN-GJS-600-3C |
| Groot Brittanië | BS EN 16482:2014 | EN-GJL-200C | EN-GJL-250C | EN-GJL-300C | BS EN 16482:2014 | EN-GJS-400-15C | EN-GJS-500-7C | EN-GJS-600-3C |
| Denemarken | DS EN 16482:2014 | EN-GJL-200C | EN-GJL-250C | EN-GJL-300C | DS EN 16482:2014 | EN-GJS-400-15C | EN-GJS-500-7C | EN-GJS-600-3C |
| Finland | SFS 4855 | GRS 200 | GRS 250 | GRS 300 | SFS 2113 | GRP 400 | GRP 500 | GRP 600 |
| Frankrijk | NF EN 16482:2014 | EN-GJL-200C | EN-GJL-250C | EN-GJL-300C | NF EN 16482:2014 | EN-GJS-400-15C | EN-GJS-500-7C | EN-GJS-600-3C |
| Duitsland | DIN EN 16482:2014 | EN-GJL-200C | EN-GJL-250C | EN-GJL-300C | DIN EN 16482:2014 | EN-GJS-400-15C | EN-GJS-500-7C | EN-GJS-600-3C |
| Hongarije | MSZ 8280 | öv 200 | öv 250 | öv 300 | MSZ 8277 | Göv 400 | Göv 500 | Göv 600 |
| ISO 1961 | R 185 | Gr. 20 | Gr. 25 | Gr. 30 | R 1083 | Gr. 400-12 | Gr. 500-7 | Gr. 600-3 |
| Italië | UNI EN 16482:2014 | EN-GJL-200C | EN-GJL-250C | EN-GJL-300C | UNI EN 16482:2014 | EN-GJS-400-15C | EN-GJS-500-7C | EN-GJS-600-3C |
| Japan | JIS G 5501:1995 | FC 200 | FC 250 | FC 300 | JIS G 5502:2001 | FCD 400-15 | FCD 500-7 | FCD 600-3 |
| Joegoslavië | JuscC.J2020 | SL 20 | SL 25 | SL 30 | Jusc.C2022 | NL 42 | NL 50 | NL 60 |
| Nederland | NEN EN 16482:2014 | EN-GJL-200C | EN-GJL-250C | EN-GJL-300C | NEN EN 16482:2014 | EN-GJS-400-15C | EN-GJS-500-7C | EN-GJS-600-3C |
| Noorwegen | NS EN 16482:2014 | EN-GJL-200C | EN-GJL-250C | EN-GJL-300C | NS EN 16482:2014 | EN-GJS-400-15C | EN-GJS-500-7C | EN-GJS-600-3C |
| Polen | PNH-83101 | Zl 200 | Zl 250 | Zl 300 | PNH-82123 | Zs40012 | Zs50007 | Zs60003 |
| Portugal | NP 1758 | FGL 200 | FGL 250 | FGL 300 | NP 17959 | FGE400/12 | FGE500/7 | FGE600/3 |
| Roemenië | S T A S 568 | FC 200 | FC 250 | FC 300 | S T A S 6071 | FGN-400-15 | FGN 500-7 | FGN 600-3 |
| Rusland | GOST 1412 | SC 20 | SC 25 | SC 30 | GOST 7295 | Vch40 | Vch50 | Vch60 |
| Spanje | UNE EN 16482:2014 | EN-GJL-200C | EN-GJL-250C | EN-GJL-300C | UNE EN 16482:2014 | EN-GJS-400-15C | EN-GJS-500-7C | EN-GJS-600-3C |
| Verenigde Staten | ASTM A48:2003 | Class 25 | Class 40 | Class 50 | ASTM A536:1999 | 65-45-12 | 70-50-05 | 80-60-03 |
| Zweden | SS EN 16482:2014 | EN-GJL-200C | EN-GJL-250C | EN-GJL-300C | SS EN 16482:2014 | EN-GJS-400-15C | EN-GJS-500-7C | EN-GJS-600-3C |
| Zwitserland | VSM 10691 | VSM 10693 | ||||||
| Meehanite | GE 200 | GD 250 | GB 300 | SF400 | SFP500 | SPF600 | ||
Downloads
Click the link below for an overview of available downloads. Eg. our ISO 9001:2015 certificaet, declaration of conformity for the food processing industry for Concast 954, our brochures and our general terms-and-conditions
Downloads >Links
Disclaimer >Privacy >
Contact
Elcas BVLinschotenstraat 59
3044AV Rotterdam
the Netherlands
| tel | +31 (0)10 462 77 99 |
| fax | +31 (0)10 262 36 11 |
| elcas@elcas.nl |
