Printer friendly version of 05.02.2012
print
http://www.wieland.de/internet/content/wieland/en/werkstoffe.jsp
Materials and Properties
| Wieland | K10 | K12 | K20 | K21 | K30 | K65 | ||
|---|---|---|---|---|---|---|---|---|
| EN-Symbol | Cu-OFE | Cu-HCP | Cu-DHP | Cu-DHP | Cu-OF | CuFe2P | ||
| Material No. | EN CW009A | EN CW021A | EN CW024A | EN CW024A | EN CW008A | EN CW107C | ||
| Composition als per | EN 13604 | EN 13600 | EN 12452 | EN 12452 | EN 13600 | EN 12449 | ||
| Comparable UNS No. | C10100 | C10300 | C12200 | C12200 | C11000 | C19400 | ||
| Mechanical properties of the plain tube sections (indicative values) |
Material condition | R200 H035 |
R200 H035 |
R220 H040 |
R220 H040 |
R200 H035 |
R300 | |
| Proof stress Rp0.2 |
(N/mm2) | max. 120 | max. 120 | min. 40 | min. 40 | max. 120 | > 140 | |
| Tensile strength Rm |
(N/mm2) | 200-250 | 200-250 | min. 220 | min. 220 | 200-250 | > 300 | |
| Elongation at rupture A5 |
(%) | min. 40 | min. 40 | min. 40 | min. 40 | min. 40 | > 30 | |
| Hardness |
HV 35-65 |
HV 35-65 |
HV min. 40 |
HV min. 40 |
HV 35-65 |
HB 25 |
||
| Physical properties (indicative values) |
Density | (kg/dm3) | 8.94 | 8.94 | 8.94 | 8.94 | 8.94 | 8.91 |
| Melting range | (°C) | 1083 | 1083 | 1083 | 1083 | 1083 | 1080-1090 | |
| Mean thermal expansion coefficient between 20 and 300°C |
(10-6/K) | 17.7 | 17.7 | 17.7 | 17.7 | 17.7 | 17.6 | |
| Thermal conductivity at 20°C | (W/(mK)) | > 394 | > 385 | > 310 | > 310 | > 394 | 260 | |
| Wieland | L10 | L30 | S28 | S76 | A22 | A05 | ||
|---|---|---|---|---|---|---|---|---|
| EN-Symbol | CuNi10Fe1Mn | CuNi30Mn1Fe | CuZn28Sn1As | CuZn20Al2As | AW-AlMgSi | Al99.5 | ||
| Material No. | EN CW352H | EN CW354H | EN CW706R | EN CW702R | EN AW 6060 | EN AW-1050A | ||
| Composition as per | EN 12452 | EN 12452 | EN 12452 | EN 12452 | EN 573-3 | EN 573-3 | ||
| Comparable UNS No. | C70600 | C71500 | C44300 | C68700 | ||||
| Mechanical properties of the plain tube sections (indicative values) |
Material condition | R290 H070 |
R370 H085 |
R320S H060S |
R340S H060S |
T4 (EN 755-2) | H 112 | |
| Proof stress Rp0.2 |
(N/mm2) | min. 90 | min. 120 | min. 100 | min. 120 | min. 60 | min. 20 | |
| Tensile strength Rm |
(N/mm2) | min. 290 | min. 370 | min. 320 | min. 340 | min. 120 | min. 60 | |
| Elongation at rupture A5 |
(%) | min. 30 | min. 35 | min. 55 | min. 55 | min. 14 | min. 25 | |
| Hardness | HV min. 70 |
HV min. 85 |
HV min. 60 |
HV min. 60 |
HBW 50 |
|||
| Physical properties (indicative values) |
Density | (kg/dm3) | 8.9 | 8.93 | 8.56 | 8.35 | 2.70 | 2.70 |
| Melting range | (°C) | 1100-1145 | 1175-1240 | 890-945 | 930-970 | 585-650 | 646-657 | |
| Mean thermal expansion coefficient between 20 and 300°C |
(10-6/K) | 17 | 16 | 20 | 19 | 23.4 | 23.5 | |
| Thermal conductivity at 20°C | (W/(mK)) | 45 | 30 | 110 | 100 | 200-220 | 210-220 | |
| EN-Symbol | P235GH | P255QL | 13CrMo4-5 | X12CrMo5+I | ||
|---|---|---|---|---|---|---|
| Material No. | 1.0345 | 1.0452 | 1.7335 | 1.7362+I | ||
| Composition as per | EN 10216-2 | EN 10216-4 | EN 10216-2 | EN 10216-2 | ||
| Comparable standards | USA | UNS |
ASTM A179 | ASTM A334 grade 1 | ASTM A-213 T11 | ASTM A-213 T5 |
| France | NF | P235GH | P255QL | EN 10216-2 | EN 10216-2 | |
| Mechanical properties of the plain tube sections (indicative values) |
Proof stress Rp0.2 |
(N/mm2) | min. 235 | min. 255 | min. 290 | min. 175 |
| Tensile strength Rm |
(N/mm2) | 360-500 | 360-490 | 430-580 | 440-590 | |
| Elongation at rupture A5 |
(%) | min. 25 | min. 23 | 22 | 20 | |
| Physical properties (indicative values) |
Density | (kg/dm3) | 7.85 | 7.85 | 7.85 | 7.80 |
| Melting range | (°C) | 1460 | 1460 | |||
| Mean thermal expansion coefficient between 20 and 300°C |
(10-6/K) | 13 | 13 | 18.5 | 19 | |
| Thermal conductivity at 20°C | (W/(mK)) | 57 | 57 | 42 | 28.2 | |
| EN-Symbol | X2CrNi19-11 | X2CrNiMo17-12-2 | X6CrNiTi18-10 | X6CrNiMoTi17-12-2 | Titan Grade 2 (Ti 2) | ||
|---|---|---|---|---|---|---|---|
| Material No. | 1.4306 | 1.4404 | 1.4541 | 1.4571 | 3.7035 | ||
| Composition as per | EN 10216-6 | EN 10216-5 | EN 10216-5 | EN 10216-5 | DIN 17850 | ||
| Comparable standards | USA | UNS | TP 304L | TP 316L | TP 321 | TP 316Ti | R50400 (ASTM B 338) |
| France | NF | EN 10216-5 | EN 10216-5 | EN 10216-5 | EN 10216-5 | ||
| Mechanical properties of the plain tube sections (indicative values) |
Proof stress Rp0.2 |
(N/mm2) | min. 180 | min. 190 | min. 200 | min. 190 | 275-450 |
| Tensile strength Rm |
(N/mm2) | 460-680 | 490-690 | 500-730 | 490-690 | min. 345 | |
| Elongation at rupture A5 |
(%) | min. 40 | min. 40 | min. 35 | 35 | min. 20 | |
| Physical properties (indicative values) |
Density | (kg/dm3) | 7.90 | 7.98 | 7.90 | 8 | 4.51 |
| Mean thermal expansion coefficient between 20 and 300°C |
(10-6/K) | 17 | 17.5 | 17 | 18 | 9.2 | |
| Thermal conductivity at 20°C | (W/(mK)) | 15 | 15 | 15 | 15 | 17 |
All rights reserved
The web sites of wieland.de, their structure with all their functionalities, information, data, text, image and sound materials as well as all necessary components for the functionality of these web sites are subject to the copyright of Wieland-Werke AG. The user is entitled to use the contents only for his personal use and in the context of the functionality of the web sites and does not acquire any rights to the contents or programmes.
The copying or modification in whole or in part is prohibited unless express written permission is obtained from Wieland-Werke AG. This prohibition refers in particular to the production of copies for commercial purposes, the entering of contents and programmes into electronic data bases and the copying on CD-Rom.
© of Wieland-Werke AG, 2002