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Odlewnia Peiron

Odlewnia Peiron

Odlewanie żeliwa
Peiron Oy to odlewnia produkująca odlewy w zależności od wymagań klientów. Zakład specjalizuje się w różnych odmianach stali i żeliwa sferoidalnego, produkuje również żeliwo szare.
Odlewnia dostosowana jest do produkcji krótkich i średnich serii od jednego do tysiąca odlewów. Rozmiar odlewów waha się od 500 g do 5 ton, a możliwości przerobowe zakładu wynoszą ok 5500 ton rocznie. Wykorzystywana metoda formowania to formowanie ręczne przy użyciu alkalicznego piasku fenolowego.
Peiron Oy posiada certyfikowany system zarządzania jakością ISO 9001: 2008 nadzorowany przez DNV, a polityka środowiskowa firmy spełnia wymogi norm ISO 14001. Odlewnia jest również zatwierdzona przez towarzystwa kwalifikacyjne DNV-GL, Lloyd’s Register, American Bureau of Shipping, Registro Italiano Navale, Bureau Veritas oraz Russian Register of Maritime.
Odlewy staliwne
- Stale konstrukcyjne: budowa maszyn, urządzeń okrętowych i zaworów
- Stale odpuszczane i narzędziowe: budowa maszyn, narzędzi i podzespołów o podwyższonej odporności
- Stale nierdzewne: Przemysł papierniczy i celulozowy, zawory, pompy i układy napędowe
- Stale żaroodporne: Ruszty do spiekania, urządzenia do stapiania, elektrownie, obróbka termiczna i ciepłownie
- Stale o podwyższonej odporności: Obróbka i kruszenie surowców, pompowanie materiałów ściernych i elektrownie
Odlewy żeliwne
- Żeliwo szare
- Żeliwo sferoidalne
- ADI (hartowane izotermicznie żeliwo sferoidalne): szczególna odmiana żeliwa sferoidalnego o niezwykłej twardości, wytrzymałości i odporności.
- Wysokostopowe żeliwa do zastosowań w stali nierdzewnej, żaroodpornej i o podwyższonej odporności – żeliwa białe, żeliwa chromowe, niklowe twarde i austenityczne
Peiron Oy Construction steel |
Standard |
Alloy symbol |
C % |
Si % |
Mn % |
P % |
S % |
Cr % |
Cu % |
|
SFS 365 |
G-20Mn5 |
min max |
0.20 |
0.60 |
1.5 |
0.035 |
0.035 |
0.30 |
0.40 |
SFS 357 |
G-26-52 |
min max |
Keskim. 0.25 |
(0.5)
|
(0.7)
|
0.040 |
0.040 |
||
SFS 356 |
G-23-45 |
min max |
0.25 |
(0.5)
|
(0.7)
|
0.040 |
0.040 |
Guaranteed mechanical characteristics
Standard |
The condition of delivery |
Yield point Rel min. N/mm² |
Tensile strength Rm min. N/mm² |
Elongation A5 min % |
Reduction of area Z N/mm² |
Impact strength kV |
Hardness HB |
|
min J |
°C |
|||||||
SFS 365 |
01 04 |
290 290 |
490 490 |
18 18 |
35 35 |
(28) (28) |
(-40) (-40) |
140-180 140-180 |
SFS 357 |
260 |
520 - 670 |
18 |
25 |
22 |
20 |
(150) |
|
SFS 356 |
230 |
450 - 600 |
22 |
31 |
25 |
20 |
(130) |
Condition of delivery 01 is normalized.
Condition of delivery 04 is tempered to balance. Figures in brackets are not binding. Mechanical characteristics will be defined from separate samples or from samples that are cast together. The form of samples is according to SFS 351 and measures according to SFS 3077. Welding The welding of SFS-365 requires a 100°C pre-heating. As an ingredient a non-blended or an Mn-blended ingredient is to be used. After welding a heat-treatment of 500-650°C is required. Welding of SFS 357 requires a pre-heating of 200-300°C. After welding SFS 357 requires a tension removing and normalization tempering. SFS 356 can be welded by common welding methods. After large-scale welding a tension removing and normalization tempering is required. |
Equivalence of standards
G-20Mn5
Country |
Standard |
Alloy symbol |
Sweden |
SIS 14 21 72 |
SS 21 72 |
Germany |
DIN 17245 |
GS-C25 |
USA |
ASTM A 352 |
LCC |
Russia |
COST 21357-75 |
20 GLS |
G-23-45
Country |
Standard |
Alloy symbol |
Sweden |
SIS 14 13 05 |
SS 13 05 |
Germany |
DIN 1681-1967 |
GS-45 |
USA |
ASTM A 27 |
65-35 |
Russia |
COST 977-75 |
20 L |
G-26-52
Country |
Standard |
Alloy symbol |
Sweden |
SIS 14 15 05 |
SS 15 05 |
Germany |
DIN 1681-1967 |
GS-52 |
USA |
ASTM A 27 |
70-36 |
Russia |
COST 977-75 |
35 L |
Peiron Oy grey cast iron |
Characteristics
All figures are for the Ø 30 mm bar.
Strength |
Tensile strength min. N/mm² |
Bending strength N/mm² |
Compression strength N/mm² |
Shear strength = n xTensile strength |
Hardness HB |
Modulus of elasticity kN/mm² |
GJL 150 |
150 |
230 - 370 |
550 - 700 |
n - 1.5 |
140 - 190 |
80 - 105 |
GJL 200 |
200 |
290 - 430 |
600 - 830 |
170 - 210 |
90 - 115 |
|
GJL 250 |
250 |
350 - 490 |
700 - 1000 |
180 - 240 |
105 - 120 |
|
GJL 300 |
300 |
410 - 550 |
820 - 1200 |
200 - 260 |
110 - 140 |
|
GJL 350 |
350 |
470 - 610 |
950 - 1400 |
n - 1.1 |
210 - 280 |
125 - 145 |
![]() |
Country | Strength |
Standard | Year | |||
Finland Germany | GJL 200 GG 20 | GJL 250 GG 25 | GJL 300 GG 30 | GJL 350 GG 35 | SFS 4855 DIN 1961 | 19821964 |
Sweden Norway | SIS 0120 SjG 20 | SIS 0125 SjG 25 | SIS 0130 SjG 30 | SIS 0135 SjG 35 | SS 14 XX XX NS 722 | 1976 1963 |
Denmark UK | GG 20 Gr. 180 | GG 25 | GG 30 Gr. 300 | GG 35 Gr. 350 | DS 11301 BS 1452 | 1969 1977 |
France Russia | Ft 20D SC 18-36 | Ft 25D SC 24-44 | Ft 30D SC 32-35 | Ft 35D SC 36-56 | NFA-32-101 GOST 1412 | 1965 1970 |
USA | Class 25B | Class 35B | Class 50B ____ 45B | Class 55B | ASTM A48 | 1974 |
Japan I.S.O. | FC 20 Gr. 20 | FC 25 Gr. 25 | FC 30 Gr. 30 | FC 30 Gr. 35 | JLS.G. 550 R 185 | 1976 1962 |
Peiron Oy Heat resistant steel |
Standard |
Alloy symbol |
C % |
Si % |
Mn |
P % |
S % |
Cr % |
Ni % |
Mo % |
|
DIN 17465 |
G-X40CrNiSi 291.4776 |
min max |
0.30 0.50 |
1.00 2.50 |
1.00 2.50 |
- 0.035 |
- 0.030 |
27.0 30.0 |
- - |
- - |
DIN 17465 |
G-X25CrNiSi 20 14 1.4832 |
min max |
0.15 0.35 |
1.00 2.50 |
1.00 2.50 |
- 0.035 |
- 0.030 |
19.0 21.0 |
13.0 15.0 |
- - |
SFS 393 |
G-X40CrNi 25 20 1.4848 |
min max |
0.20 0.60 |
- 2.00 |
- 2.00 |
- 0.040 |
- 0.040 |
24.0 28.0 |
18.0 22.0 |
- 0.50 |
Guaranteed mechanical characteristics
Standard |
The condition of delivery |
Yield point Rel min. N/mm² |
Tensile strength Rm min. N/mm² |
Elongation A5 min % |
Reduction of areaZ N/mm² |
Impact strength kV |
Hardness HB |
|
min J |
°C |
|||||||
DIN 17465 |
00 |
- |
(~500) |
(~8) |
- |
- |
- |
200 - 300 |
DIN 17465 |
00 |
230 |
440 |
10 |
- |
- |
- |
(150 - 220) |
SFS 393 |
00 |
240 |
450 |
10 |
- |
- |
- |
(150 - 220) |
The condition of delivery 00 = as cast.
The figures in brackets are suggestive. Mechanical characteristics will be defined from separate samples or from samples that are cast together. The form of samples is according to SFS 351 and measures according to SFS 3077. Welding G-X40CrNiSi 29 is extremely difficult to weld. The welding must be carried out in 700-800 °C. After the welding it must be slowly cooled down in the furnace. G-X25CrNisi 20 14 is highly weldable. It does not require before or after heat treatment. G-X40CrNi 25 20 welding abilities are moderate. |
Equivalence of standards
G-X40CrNiSi 29
Country |
Standard |
Alloy symbol |
Sweden |
- |
- |
USA |
ASTM A 297 |
HC |
Russia |
- |
- |
G-X25CrNiSi 20 14
Country |
Standard |
Alloy symbol |
Sweden |
- |
- |
USA |
(AiSi 309) |
- |
Russia |
- |
20Ch20N14S2L |
X40CrNi 25 20
Country |
Standard |
Alloy symbol |
Sweden |
- |
- |
Germany |
DIN 17465 |
X40CrNi 25 20 |
USA |
ASTM A 295 |
HK |
Russia |
- |
- |
Peiron Oy Nodular graphite cast iron |
Characteristics
Strength |
Tensile strength Rm min. N/mm² |
Yield point Rel min. N/mm² |
Reduction of area A % min. N/mm² |
Hardness HB |
Modulus of elasticity E kN/mm² |
EN-GJS-400-15 (GRP 400) |
400 |
250 |
15 |
(130 - 180) |
165 |
EN-GJS-400-18 (GRP 400) |
400 |
250 |
18 |
(130 - 180) |
165 |
EN-GJS-500-7 (GRP 500) |
500 |
330 |
7 |
(170 - 230) |
|
EN-GJS-600-3 (GRP 600) |
600 |
390 |
3 |
(200 - 260) |
|
EN-GJS-700-2 (GRP 700) |
700 |
440 |
2 |
(230 - 300) |
|
EN-GJS-800-2 (GRP 800) |
800 |
500 |
2 |
(250 - 320) |
185 |
EN-GJS-1000-5 ADI |
1000 |
700 |
5 |
(270 - 350) |
185 |
Special categories for nodular graphite cast iron are according the SFS2113 quality system
Strength |
Tensile strength Rm min. N/mm² |
Yield point Rel min. N/mm² |
Reduction of area A % min. N/mm² |
Impact strength KV J |
Hardness HB |
|
-20°C |
-40°C |
|||||
GRP 340 |
340 |
220 |
22 |
- |
14 |
150 |
GRP 370 |
370 |
250 |
20 |
14 |
- |
160 |
Country |
Strength |
Standard |
Year |
||||
FinlandGermany |
GRP 400 GGG 40 |
GRP 500 GGG 50 |
GRP 600 GGG 60 |
GRP 700 GGG 70 |
GRP 800GGG 80 |
SFS 2113 DIN 1693 |
19751973 |
Sweden Norway |
SIS 0717-20 NS 11342 |
SIS 0727-02 NS 11350 |
SIS 0732-03 NS 11360 |
SIS 0737-01 NS 11370 |
SS 14 XX XX NS 11301 |
1977 1971 |
|
Denmark UK |
0715, 0716 Gr. 370-17 |
0727 Gr. 500-7 |
0707 Gr. 600-3 |
0708 Gr. 200-2 |
Gr. 800-2 |
DS 11303 BS 2789 |
1971 1973 |
France Russia |
FGS 370-17 Vch 38-17 |
FGS 500-7 Vch 45-5. 50.2 |
FGS 600-3 Vch 60.2 |
FGS 700-2 Vch 70-3 |
FGS 800-2 Vch 80-3 |
NFA 32-201 GOST 7293 |
1976 1970 |
USA Japan |
60-40-18 FCD |
80-55-06 FCD 45 |
FCD 60 |
100-70-03 FCD 70 |
120-90-02 |
ASTM A536 JIM.G 5502 |
1972 1975 |
I.S.O. |
Gr. 370-17 |
Gr. 500-7 |
Gr. 600-3 |
Gr. 700-2 |
Gr. 8000-2 |
1083 |
1976 |
Peiron Oy Stainless steel |
Standard |
Alloy symbol |
C % |
Si % |
Mn % |
P % |
S % |
Cr % |
Cu % |
Mo % |
Ni % |
|
SFS 388 |
G-X8CrNiMo 19 10 2 |
min max |
0.08 |
2.00 |
1.50 |
0.04 |
0.04 |
18.0 21.0 |
- - |
2 3 |
9.00 12.00 |
SFS 387 |
G-X8CrNi 19 9 |
min max |
0.08 |
2.00 |
1.50 |
0.04 |
0.04 |
18.0 21.0 |
- - |
- - |
8.00 11.00 |
Guaranteed mechanical characteristics
Standard |
The condition of delivery |
Yield point Rel min. N/mm² |
Tensile strength Rm min. N/mm² |
Elongation A5 min % |
Reduction of area Z N/mm² |
Impact strength kV |
Hardness HB |
|
min J |
°C |
|||||||
SFS 388 |
06 |
205 |
485 |
30 |
- |
- |
- |
- |
SFS 387 |
06 |
195 |
450 |
35 |
- |
- |
- |
- |
Phase 06 is austenation. Mechanical characteristics will be defined from separate samples or from samples that are cast together. The form of samples is according to SFS 351 and measures according to SFS 3077. Welding SFS 388 and SFS 387 are easily weldable. |
Equivalence of standards
G-X8CrNiMo 19 10 2
Country |
Standard |
Alloy symbol |
Sweden |
SIS 14 23 43 |
SS 23 43 |
Germany |
17445 |
G-X6CrNiMo 18 10 |
USA |
A 743 |
CF-8M |
Russia |
- |
- |
G-X8CrNi 19 9
Country |
Standard |
Alloy symbol |
Sweden |
SIS 14 23 33 |
SS 23 33 + 23 24 |
Germany |
17445 |
G-X6CrNi 18 9 |
USA |
A 743 |
CF-8 |
Russia |
2176-77 |
07Cr 18Ni 9L |
Peiron Oy Tempering steel |
Standard |
Alloy symbol |
C % |
Si % |
Mn % |
P % |
S % |
Cr % |
Mo % |
Ni % |
|
SFS 367 |
G-25CrMo4 |
min
max |
0.22
0.29 |
-
0.60 |
0.50
0.80 |
-
0.035 |
-
0.035 |
0.90
1.20 |
0.15
0.25 |
-
0.30 |
SFS 368 |
G-34CrMo4 |
min
max |
0.30
0.37 |
-
0.60 |
0.50
0.80 |
-
0.035 |
-
0.035 |
0.90
1.20 |
0.15
0.25 |
-
- |
Guaranteed mechanical characteristics
Standard |
The condition of delivery |
Yield point Rel min. N/mm² |
Tensile strength Rm min. N/mm² |
Elongation A5 min % |
Reduction of areaZ N/mm² |
Impact strength kV |
Hardness HB |
|
min J |
°C |
|||||||
SFS 367 |
07
08 |
490
590 |
680 - 830
780 - 930 |
12
10 |
30
25 |
(28)
(28) |
(-20)
(-20) |
(210 - 260)
(240 - 290) |
SFS 368 |
08
09 |
596
690 |
780 - 930
880 - 1080 |
10
8 |
25
20 |
-
- |
-
- |
(240 - 290)
(280 - 330) |
G42CrMo4 |
08
09 |
596
690 |
780 - 930
880 - 1080 |
10
8 |
25
20 |
-
- |
-
- |
(240 - 290)
(280 - 330) |
G17CrMo5-5 |
08
09 |
596
690 |
780 - 930
880 - 1080 |
10
8 |
25
20 |
-
- |
-
- |
(240 - 290)
(280 - 330) |
Phase 07 is tempered to hardness HB 210-260.
Phase 08 is tempered to hardness HB 240 – 290. Phase 09 is tempered to hardness HB 280 – 330. Figures in brackets are not binding. Mechanical characteristics are defined from separate parts or from parts that are welded together. The form of these samples must be according to SFS 351 and measures according to SFS 3077. Welding The welding of G-25CrMo4 demands pre-heating. After welding a post-heating treatment must be carried out in a temperature of 550-670°C. Welding of G-34CrMo4 is more demanding than G-25CrMo4. In both materials the same welding procedure is valid. |
Equivalence of standards
G-25CrMo4
Country |
Standard |
Alloy symbol |
Sweden |
SIS 14 22 25 |
SS 22 25 |
Germany |
Werkstoffblatt 510 |
GS-25CrMo4 |
USA |
ASTM A 487 |
Class 9Q |
Russia |
21357-75 |
30 HMLS |
G-34CrMo4
Country |
Standard |
Alloy symbol |
Sweden |
SIS 14 22 34 |
SS 22 34 |
Germany |
Werkstoffblatt 510 |
GS-34CrMo4 |
USA |
_ |
_ |
Russia |
21357-75 |
35 HGSMLS |
Peiron Oy Wear resistant steel and cast iron |
Foundry quality |
Equal foreign standard |
C % |
Si % |
Mn % |
P % |
S % |
Cr % |
Ni % |
Mo % |
|
CrMo 131 |
(W1.2378) (x220 CrVMo 122) |
min max |
1.80 2.50 |
- 1.00 |
- 0.06 |
- 0.035 |
- 0.035 |
11.0 13.0 |
- - |
- 1.00 |
Chromium iron |
ASTM A532 IIIA 25% Cr |
min max |
2.30 3.00 |
- 1.00 |
- 1.50 |
- 0.10 |
- 0.06 |
24.0 30.0 |
- 1.50 |
- 1.50 |
NiHard 2 |
ASTM A532 I B Ni-Cr-LC |
min max |
2.50 3.00 |
- 0.80 |
- 1.30 |
- 0.30 |
- 0.15 |
1.40 4.00 |
3.30 5.00 |
- 1.00 |
NiHard 4 |
ASTM A532 I D Ni-Hi-Cr |
min max |
2.50 3.60 |
1.00 2.20 |
- 1.30 |
- 0.10 |
- 0.15 |
7.00 10.0 |
4.50 7.00 |
- 1.00 |
Guaranteed mechanical characteristics
Foundry quality |
The condition of delivery |
Thickness max mm |
Tensile strength Rm min. N/mm² |
HardnessHB |
Normative microstructure |
CrMo 131 |
Soft annealing
Hardening
Tempering |
- |
- |
n.300
n.800
n.700 |
Martensite + Carbide |
EN-GJN-HV600(XCr14) G-X300CrMo 15 1 |
Hardening as cast
Soft annealing |
200 |
(340 - 390) |
n.450
n.600
max 400 |
Martensite + Residual austenite + Carbide |
Chromium iron |
Hardening as cast
Soft annealing |
200 |
(340 - 390) |
n.450
n.600
max 400 |
Martensite + Residual austenite + Carbide |
NiHard 2 |
Soft annealingas cast |
200 |
(320 - 390) |
n.550
n.600 |
Martensite + Carbide |
NiHard 4 |
Hardening as cast |
300 |
(500 - 600) |
n.550
n.600 |
Martensite + Carbide |
CrMo 131
Country |
Standard |
Alloy symbol |
Sweden |
- |
- |
Germany |
- |
(X222CrVMo 12 2) |
USA |
- |
- |
Chromium Iron
Country |
Standard |
Alloy symbol |
Sweden |
SIS 14 04 66 |
SS 04 66 |
Germany |
DIN 1695 |
G-X260Cr27 |
USA |
ASTM A532 |
IIIA 25% Cr |
NiHard 2
Country |
Standard |
Alloy symbol |
Sweden |
SIS 14 05 12 |
SS 05 12 |
Germany |
DIN 1695 |
G-X260NiCr 42 |
USA |
ASTM A532 |
I B Ni-Cr-LC |
NiHard 4
Country |
Standard |
Alloy symbol |
Sweden |
- |
- |
Germany |
DIN 1695 |
G-X300CrNiSi 952 |
USA |
ASTM A532 |
I D Ni-Hi Cr |
Zalety:
- Krótkie serie
- Szeroki asortyment materiałów,
w tym wszystkie żelazostopy - Elastyczność
- Aktywny udział
w projektach R&D klientów - Wysokostopowe żeliwa do zastosowań w stali nierdzewnej, żaroodpornej i o podwyższonej odporności – żeliwa białe, żeliwa chromowe, niklowe twarde i austenityczne