Fie că este vorba despre sarma sudură plina sau cu miez flux, baghete Tig sau sarma sub arc și pulberi și sau aliaje de lipire sau chiar sarma pentru pulverizare termică, ați ajuns la locul potrivit. Cu nu mai puțin de 2.000 de tone de stoc și peste 500 de aliaje diferite, suntem gata să vă servim.
Certilas urmărește îmbunătățirea calității în fiecare zi cu ajutorul CEWELD® produse, cu cea mai modernă unitate de fabricație din întreaga lume CEWELD®
Oferim o mare varietate de sudare, lipire și pulverizare de metal consumabile, inclusiv facilităţi de testare foarte moderne, un modern depozit automat, înregistrarea lotului cu trasabilitate completă și capacitatea de a livra toate metalele de adaos cu un certifica de calitate. Conform EN 10204.
Toate consumabilele noastre în totalitate respectă EN ISO și AWS standardele.
Verificati catalog produse in Tab-ul Specificatii
- 1. METAL CORED WIRE FOR NON-ALLOYED AND FINE GRAIN STEEL
| CEWELD AA M400 | 9606–1: FM1 Sect IX QW–432: F-No. 6 | T 500-640 MPa Y > 420 MPa | C Mn | < 0,08 -1.,3 | AA M400 is a seamless metal cored wire for high productivity welding, offering excel- lent properties for both short- and spray arc range. Excellent arc re-start even with cold |
| 17632–A: T424 M M211 H5 A 5.18: | E>24% I -70J(-40°C) | Si p s | – 0,5 <0,015 <0,015 | wire tip, particularly well-suited for robotic applications with high deposition efficiency. Excellent gap bridging during root welding. Wide range of voltage setting from 14 to 32 Volts. Excellent Impact values. CTOD tested to -20 °C. Low hydrogen content | |
| E 70C-6M H4 | HD<3 ml/1 00g even after long storage. | ||||
| A5.36: | |||||
| E71T15-M21A8-CS1-H4 | |||||
| CEWELD | 9606–1: FM1 | T 550-680 MPa | C | < 0,05 | AA M460 is a seamless metal cored wire with remarkable stable arc and no spatters. |
| AA M460 | Sect IX QW–432: F-No. 6 | Y > 460 MPa | Mn | – 1,5 | Excellent for use in automated welding applications such as orbital Mag or robotic |
| 17632–A: T46 6 M M211 H5 A 5.18: | E>24% I -70J(-60°C) | Si p s | – 0,7 <0,015 <0,015 | welding. This wire offers a unique approval class at most third parties that enables you to use only one wire to cover more procedures up to 460MPa yield strength steels. AA M460 can also be used for constructions that needs post weld heat treatment after | |
| E 70C-6M H4 | welding and still offers mechanical properties confirming 5Y46 class. Low hydrogen | ||||
| A5.36: | content HD<3 ml/100g even after long storage. CTOD tested at –20 °C. | ||||
| E81T15-M21A8-CS1-H4 | |||||
| CEWELD | 9606–1: FM1 | T 550-720 MPa | C | <0,05 | AA M500 is a seamless metal cored wire with remarkable stable arc and no spatters. |
| AA M500 | Sect IX QW–432: F-No. 6 | Y > 500 MPa | Mn | -1,5 | Excellent for use in automated welding applications such as orbital MAG or robotic |
| 17632–A: T 50 6 Ni1 M M21 1 H5 A5.28: | E>24% I – 70J(-60C) | Si p s | – 0,7 <0,015 <0,015 | welding. This wire offers a unique welding deposit with less than 1% nickel to fulfill NACE requirements and cover more procedures up to 500 MPa yield strength steels. AA M500 can also be used for constructions that needs post weld heat treatment after | |
| E80C-Ni1 H4 | Ni | – 0,9 | welding and still offers mechanical properties confirming 5Y46 class. Low hydrogen | ||
| A5.36: | content HD<3 ml/100g even after long storage. | ||||
| E81T15-M21A8-Ni1-H4 | |||||
| CEWELD | 9606–1: FM2 | T 640-820 MPa | C | <0,05 | AA M550 is a seamless metal cored wire with remarkable stable arc and no spatters. |
| AA M550 | Sect IX QW–432: F-No. 6 | Y > 550 MPa | Mn | -1,5 | Excellent for use in automated welding applications such as orbital MAG or robotic |
| 18276–A: T 55 6 Mn2,5Ni M M21 1 H5 A5.36: | E>24% I -70J(-60°C) | Si p s | – 0,7 <0,015 <0,015 | welding. This wire offers a unique welding deposit with more than 2% nickel to offer reliable impact properties down to –60°C. Ceweld AA M550 is used for welding 550 MPa yield strength steels. Low hydrogen content HD<3 ml/100g even after long | |
| E91T15-M21A8-K7-H4 | Ni | – 2,2 | unconditioned storage. | ||
| CEWELD | 9606–1: FM2 | T 640-820 MPa | C | <0,05 | AA M550SR is a seamless metal cored wire with remarkable stable arc and no |
| AA M550 SR | Sect IX QW–432: F-No. 6 | Y > 550 MPa | Mn | -1,3 | spatters. Excellent for use in automated welding applications such as orbital MAG or |
| 18276–A: | E-20% | Si | – 0,5 | robotic welding. This wire offers a unique welding deposit with less than 1 % nickel to | |
| T 55 6 1 Ni Mo M M 1 H5 | I -60J(-60 °C) | p | <0,015 | offer reliable impact properties down to 60C. AA M550 SR is used for welding 550 | |
| A5.28: | after PWHT | s | <0,015 | MPa yield strength steels also after PWHT. Low hydrogen content <3 ml/100g even | |
| E90C-K3M H4 | T 620-720 MPa | Ni | – 0,9 | after long storage. | |
| A5.36: | Y > 540 MPa | Mo | <0,45 | ||
| E90C-K3M H4 | E>20% | ||||
| I- 50J(-60°C) |
| CEWELD AA M690 | 9606-1: FM2 Sect IX QW–432: F-No. 6 | T 770-940 MPa Y> 690 MPa | C Mn | <0,05 -1,6 | AA M690 is a seamless metal cored wire with remarkable crack resistant weld metal with very low hydrogen content HD<3 ml/1 00g Therefore, suitable for the economic |
| 18276–A: | E> 18% | Si | – 0,4 | processing of high–strength and low temperature fine grained structural steels. | |
| T 69 6 Mn2NiCrMo | I – 80J(-60C) | p | <0,015 | Excellent welding properties for both short- and spray arc. High deposition rate and no | |
| M M211 H5 | s | <0,015 | intermediate cleaning required with very low spatter loss. Excellent wetting properties | ||
| A5.28: | Cr | – 0,5 | compare to solid wires that results in a bigger parameter range and improved duty | ||
| E 110 C-K4M H4 | Ni | – 2,2 | cycle for the welder. | ||
| A5.36: | Mo | – 0,5 | |||
| E111T15-M21A8-K4-H4 | |||||
| CEWELD | 9606-1: FM2 | T 940-1040 MPa | C | <0,05 | AA M960 is a seamless metal cored wire that offers excellent re-starting properties |
| AA M960 | Sect IX QW-432: F-No. 6 | Y- 960 MPa | Mn | -1,6 | even with cold wire tip. Suitable for robot applications. Applicable for both short- as |
| 18276–A: | E> 17% | Si | – 0,4 | spray arc. Excellent gap bridging for root welding. High-efficiency type for economic | |
| T 89 4 Mn2NiCrMo M M21 | I – 554(40C) | p | <0,01 | production of high-strength fine-grain structural steels up to 1100 MPa Yield | |
| 1 H5 | s | <0,01 | Strength. Stable mechanical properties up to heat input of 10 kJ/cm. Low hydrogen | ||
| A5.28: | Cr | – 0,5 | content HD<3 ml/100g even after long storage. | ||
| -E 120 C-K4 H4 | Ni | -2,6 | |||
| A5.36 | Mo | – 0,6 | |||
| E131T15-M21A4-K4-H4 |
METAL CORED WIRE FOR CREEP RESISTANT STEEL
| CEWELD AA MMo | 9606–1: FM3 Sect IX QW-432: F-No. 6 | T 550-690 MPa Y>470MPa | C Mn | < 0,05 -1.,3 | AA MMo is a seamless metal cored wire that offers excellent re-starting properties even with cold wire tip. Suitable for robot applications. Applicable for both short- and |
| 17634–A: | E>24% | Si | – 0,7 | spray arc. Excellent gap bridging properties for root welding. High-efficiency type | |
| T Mo M M211 H5 | I -50J(-40°C) | p | <0,015 | for economic production on Heat resistant Mo–steels up to 500 °C. Low hydrogen | |
| A5.28: | s | <0,015 | content HD<3 ml/100g even after long storage. | ||
| E80C-G H4 | Mo | – 0,5 | Typical: 15Mo3, 16Mo3, A 204 Gr. A– C, | ||
| A5.36: | ASTM A106 gr. A-B-C. | ||||
| E81T15-M21 P4-A1-H4 | |||||
| CEWELD | 9606–1: FM3 | T 550-740 MPa | C | < 0,05 | AA MCrMo1 is a seamless metal cored wire that offers excellent re-starting proper- |
| AA M CrMot | Sect IX QW-432: F-No. 6 | Y>470MPa | Mn | -1,4 | ties even with cold wire tip. Suitable for robot applications. Applicable for both short- |
| 17634–A: | E>20% | Si | -0.,3 | and spray arc. Excellent gap bridging properties for root welding. High-efficiency type | |
| T CrMo1 M M21 1 H5 | I -50J(-40°C) | p | <0,015 | for economic production of CrMo-steels up to 550 °C. Low hydrogen content HD<3 | |
| A5.28: | s | <0,015 | ml/1 00g even after long unconditioned storage. | ||
| E 80C-B2 H4 | Cr | – 1,1 | Typical: 13CrMo44, 13CrMo4–5, A 387 Gr. 11–12, 24CrMo5, GS 17CrMo55, | ||
| A5.36: | Mo | – 0,5 | GS 22CrMo54,G 17CrMo5–5, G22CrMo5–4 | ||
| E81T15-M21 P4-B2-H4 |
| CEWELD | 9606–1: FM1 | T 550-680 MPa | C | – 0,05 | AA M Corten is a seamless metal cored wire with remarkable stable arc and no |
| AA M Corten | Sect IX QW-432: F-No. 6 | Y>470MPa | Mn | -1,2 | spatters. Excellent for use in automated welding applications such as orbital MAG or |
| 17632–A: | E>22% | Si | – 0,7 | robotic welding. This wire offers a unique welding deposit with ± 0,7% Ni and 0,5% Cu. | |
| T46 5 Z M M21 1 H5 I -70J(-50°C) p <0,01 Low hydrogen content HD<3 ml/100g even after long unconditioned storage. | |||||
| A5.28: | s | <0,01 | Typical: S235JRW–S460JRW, WTSt 37, WTSt 52, Corten A, B, C, Patinax 37, RBH | ||
| EBO C-W2-H4 | Cr | – 0,5 | 35, Acor 37, Acor 50, HSB 51, HSB 55 C, 1.8962, 1.8963, 1.8965, 1.8960 | ||
| A5.36: | Ni | – 0,7 | |||
| E81T15-M21A4-W2-H4 | Cu | – 0,5 | |||
| 4. RUTILE FLUXCORED WIRE FOR NON-ALLOYED AND FINE GRAIN STEEL | |||||
| CEWELD | 9606–1: FM1 | T 500-640 MPa | C | < 0,08 | AA R400 is a seamless rutile flux cored wire with remarkable stable arc and no |
| AA R400 | Sect IX QW-432: F-No. 6 | Y-460 MPa | Mn | -1.,3 | spatters. Excellent weld puddle manipulation with fast freezing slag, superior out- |
| 17632–A: | E>22% | Si | – 0,5 | of-position welding also at higher current, recommended for shipbuilding. Particularly | |
| T42 4 P M211 H5 | I -50J(-40°C) | p | <0,015 | suited for all-position welding on ceramic backing. Extreme low spatter loss, easy slag | |
| A5.20: | s | <0,015 | removal. Low hydrogen content HD<3 ml/1 00g even after long storage. | ||
| E 71T-1M -J H4 | |||||
| A5.36: | |||||
| E 71T1-M21 A4-H4 | |||||
| CEWELD | 9606–1: FM1 | M21 | C | < 0,08 | AA R460 is a seamless rutile flux cored wire with remarkable stable arc and no |
| AA R460 | Sect IX QW-432: F-No. 6 | T 530-680 MPa | Mn | -1.,3 | spatters. Excellent weld puddle manipulation with fast freezing slag, superior out-of-po- |
| 17632–A: | Y-480 MPa | Si | – 0,5 | sition welding also at higher current. Using temperature down to -40 °C. Particularly | |
| T46 4 P M211 H5 | E>22% | p | <0,015 | suited for MAG–orbital welding(< 355MPa) and all–position welding on ceramic | |
| T46 2 PC11 H5 | I- 70J(-40·C) | s | <0,015 | backing. Extreme low spatter loss, easy slag removal. Low hydrogen content HD<3 | |
| A5.20: | CO2 | ml/1 00g even after long storage. | |||
| E71T-1 M /1 C-J H4 | T 500-640 MPa | ||||
| A5.36: | Y > 420 MPa | ||||
| E71T1-M21 A4-CS1-H4 | E>22% | ||||
| E71T1-C-AO-CS 1-H4 | I -70J(-20 C) | ||||
| CEWELD | 9606–1: FM1 | M21 | C | < 0,08 | AA R460 LT is a seamless rutile flux cored wire with remarkable stable arc and |
| AA R460 LT | Sect IX QW-432: F-No. 6 | T 530-680 MPa | Mn | -1.,3 | no spatters. Excellent weld puddle manipulation with fast freezing slag, superior |
| 17632–A: | Y-460 MPa | Si | – 0,5 | out-of–position welding also at higher currents. Using temperature down to -60 °C | |
| T46 6 P M211 H5 | E>22% | p | <0,015 | . Particularly suited for MAG–orbital welding (< 355MPa) and all-position welding on | |
| T464 PC11 H5 | I -70J(-60°C) | s | <0,015 | ceramic backing. Extreme low spatter loss, easy slag removal. Low hydrogen content | |
| A5.20: | CO2 | Ni | <0,5 | HD<3 ml/1 00g even after long storage. | |
| E71T-1 M /1 C-J H4 | T 530-680 MPa | ||||
| A5.36: | Y > 460 MPa | ||||
| E71T1-M21 A8-CS1-H4 | E>22% | ||||
| E71T1-C-AO-CS 1-H4 | I -70J (-40 °C) | ||||
| CEWELD | 9606–1: FM1 | M21 | C | < 0,08 | AA R500 is a seamless rutile flux cored wire that offers excellent modelling ability, |
| AA R500 | Sect IX QW-432: F-No. 6 | T 560-720 MPa | Mn | -1,4 | therefore excellently suitable for positional welding at high currents. The weld deposit |
| 17632–A: | Y > 500 MPa | Si | – 0,5 | shows reliable impact properties down to –60C. Particularly suitable for MAG–orbital | |
| T 50 6 1Ni P M21 1H5 | E>22% | p | <0,015 | welding(< 420MPa) and for welding on ceramics in all positions. Low spatter losses, | |
| T46 4 1Ni P C1 1 H5 | I- 70J(-60″C) | s | <0,015 | easily removable slag. CTOD tested at -20 °C. Extreme low spatter loss, easy slag | |
| A5.29: | CO2 | Ni | – 0,9 | removal. Low hydrogen content HD<3 ml/1 00g even after long storage. | |
| E81T1-Ni1M-J H4 | T 530-680 MPa | ||||
| A5.36: | Y > 460 MPa | ||||
| E81T1-M21A8-Ni1-H4 | E>22% | ||||
| 51 | CEWELD 4370 HLS | 3581-A: E 18 8 Mn R 53 | A 5.4: E 307-26 | FM5 | F-No. 1 | 1/11 |
| 52 | CEWELD Croni 29/9 S | 3581-A: E 29 9 R 12 | A5.4:E312-16 | FM5 | F-No. 5 | 1/11 |
| 53 | CEWELD Croni 29/9 HLS | 3581-A E 29 9 R 53 | A5.4:E312-16 | FM5 | F-No. 5 | 1/11 |
| 54 | CEWELD Cronimo Ti | 3581-A:E 20 10 3 RB 32 | A 5.4: E 308Mo-16 | FM5 | F-No. 5 | 1/11 |
| 55 | CEWELD Cronimo HLS | 3581-A:E 20 10 3 RB 53 | A 5.4: E 308Mo-26 | FM5 | F-No. 1 | 1/11 |
| 56 | CEWELD E NiTi3 | 14172: E Ni 2061 (NiTi3) | A5.11: E Ni-1 | FM6 | F-No. 41 | 1/12 |
| 57 | CEWELD E NiCu30Mn | 14172: E Ni 4060 (NiCu30Mn3Ti) | A5.11: E NiCu-7 | FM6 | F-No. 42 | 1/12 |
| 58 | CEWELD E NiCro HLS | 14172: -E Ni 6082 (NiCr20Mn3Nb) | A 5.11: -E NiCrFe-3 | FM6 | F-No. (-43) | 1/12 |
| 59 | CEWELD E NiCro A | 14172: E Ni 6133 (NiCr16Fe12NbMo) | A 5.11: E NiCrFe-2 | FM6 | F-No. 43 | 1/12 |
| 60 | CEWELD E NiCro 600 | 14172: E Ni 6182 (NiCr15Fe6Mn) | A 5.11: E NiCrFe-3 | FM6 | F-No. 43 | 1/12 |
| 61 | CEWELD E NiCro 825 | 14172: E Ni 8165 (NiCr25Fe30Mo) | A5.11:- | FM6 | F-No.• | 1/12 |
| 62 | CEWELD E NiCrMo 622 | 14172 E Ni 6022 (NiCr21Mo13W3) | A5.11: E NiCrMo-10 | FM6 | F-No. 43 | 1/12 |
| 63 | CEWELD E Alloy C-276 | 14172 E Ni 6276 (NiCr15Mo15Fe6W4) | A 5.11: E NiCrMo-4 | FM6 | F-No. 43 | 1/13 |
| 64 | CEWELD E Alloy B3 | 14172 E Ni 1067 (NiMo30Cr) | A5.11: E NiMo-10 | FM6 | F-No. 43 | 1/13 |
| 65 | CEWELD E Alloy HX | 14172: E Ni 6002 (NiCr22Fe18Mo) | A5.11: E NiCrMo-2 | FM6 | F-No. 43 | 1/13 |
| 66 | CEWELD E NiCro 625 HLS | 14172 E Ni 6625 (NiCr22Mo9Nb) | A5.11: E NiCrMo-3 | FM6 | F-No. 43 | 1/13 |
| 67 | CEWELD E NiCro 625 | 14172 E Ni 6625 (NiCr22Mo9Nb) | A5.11: E NiCrMo-3 | FM6 | F-No. 43 | 1/13 |
| 68 | CEWELD E NiCrMo 686 CPT | 14172: E Ni 6686 (NiCr21Mo16W4) | A5.11: E NiCrMo-14 | FM6 | F-No. 43 | 1/13 |
| 69 | CEWELD E NiCrCo 617 | 14172: E Ni 6117 (NiCr22Co12Mo) | A5.11: E NiCrCoMo-1 | FM6 | F-No. 43 | 1/13 |
| 70 | CEWELD E DUR 300 Kb | 14700: E Fe1 (DIN 8555 E 1-UM-300-P) | 1/14 | |||
| 71 | CEWELD E DUR 350 Kb | 14700: E Fe1 (DIN 8555 E 1-UM-400-P) | 1/14 | |||
| 72 | CEWELD E DUR 400 Kb | 14700 E Fe3 (DIN 8555 E 3-UM-400-P) | 1/14 | |||
| 73 | CEWELD E DUR 400 CrMo | 14700 E Fe3 (DIN 8555 E 3-UM-40-PT) | 1/14 | |||
| 74 | CEWELD E DUR 600 Kb | 14700 E Fe8 (DIN 8555 E 6-UM-60) | 1/14 | |||
| 75 | CEWELD E DUR 600 AC | 14700 E Fe8 (DIN 8555 E6-UM-60-GP) | 1/14 | |||
| 76 | CEWELD E DUR 55 | 14700: E Fe? (DIN 8555 E3-UM-50-CKRTZ) | A5.13: E FeCr-A1 | F-No. 71 | 1/14 | |
| 77 | CEWELD E DUR 60 | 14700: E Fe14 (DIN 8555:E10-UM-60) | A5.13: -E FeCr-A1A | F-No. 71 | 1/15 | |
| 78 | CEWELD E DUR 60 Kb | 14700 E Fe8 (DIN 8555 E6-UM-60) | A5.13: -E Fe3 | F-No. 71 | 1/15 | |
| 79 | CEWELD E DUR 62 S | 14700 E Fe15 (DIN 8555 E 10-UM-65-GRZ) | A5.13: -E FeCr-A8 | F-No. 71 | 1/15 | |
| 80 | CEWELD E DUR 63 Nb | 14700 E Fe15 (DIN 8555: E 10-UM-65-GRZ) | A5.13: -E FeCr-E4 | F-No. 71 | 1/15 | |
| 81 | CEWELD E DUR CE-Tube 62 | 14700: -E Fe15 (DIN 8555: E 10-UM-60-GZ) | A5.13: -E FeCr-A7 | F-No. 71 | 1/15 | |
| 82 | CEWELD E DUR 64 | 14700 E Fe16 (DIN 8555: E 10-UM-65-GTZ) | A5.13: E FeCr-E4 | F-No. 71 | 1/15 | |
| 83 | CEWELD E DUR 68 T | 14700: -E Fe14 (DIN 8555: E 10-UM-70-GTRZ) | A5.13: -E FeCr-A8 | F-No. 71 | 1/15 | |
| 14. FOR FERRITIC & MARTENSITIC STAINLESS STEEL | ||||||
| E CEWELD 4015 HL-Kb | 3581-A E 17 B 42 | A 5 4: E 430-26 | ||||
| 15. STELLITE ( COBALT BASED ALLOYS) | ||||||
| 86 | CEWELD E DUR 1 U | 14700: E Co3 (DIN 8555 E 20-UM-55-CTZ) | A 5.13: E CoCr-C | F-No. 71 | 1/16 | |
| 87 | CEWELD E DUR 6U | 14700: E Co2 (DIN 8555 E 20-UM-40-CTZ) | A 5.13: E CoCr-A | F-No. 71 | 1/16 | |
| 88 | CEWELD E DUR 12U | 14700 E Co3 (DIN 8555 E20-UM-50-CSTZ) | A 5.13: E CoCr-B | F-No. 71 | 1/16 | |
| 89 | CEWELD E DUR 21 U | 14700 E Co1 (DIN 8555 E 20-UM-350-CTZ) | A 5.13: E CoCr-E | F-No. 71 | 1/16 | |
| 90 | CEWELD E DUR 25U | 14700: -E Co1 (DIN 8555 E 20-UM-300-CTZ) | A5.13:• | 1/16 | ||
| 16. FOR CUTTING EDGES – TOOL STEEL E CEWELD E DUR SS 60T 14700: E Fe4 (DIN 8555: E4-UM-60-ST) A5.13: -E Fe6 | ||||||
| CEWELD AA M 410 NiMo | ISO 17633: T13 4/T410NiMo A5.22: E 410 NiMoT0-4 | T> 750 MPa Y > 500 MPa E> 15% I- 65/(-20°C) | C Mn Si Cr | < 0,06 < 1,5 <1,0 11-14,5 | MM 410NiMo is a Cr-Ni-Mo- alloyed, gas-shielded metal-cored wire electrode for cladding. The corrosion resistant deposit offers a medium hardness and is resistant against metal-metal wear and high surface pressure. He is steel mill rollers, thermos- hock resistant and suitable for Francis and Pelton turbines. Used in steam power plants | |
| I- 55/(-20°C) | Ni | 3,0- 5,0 | for its excelent resistance to cavitation and stress corrosion cracking Water and steam | |||
| Mo | 0,4-1,0 | turbine parts of the same kind, thermoshock and high heat resistant. 1.4313, | ||||
| 38-42 HRc | Nb | 1.4002, (G)X5CrNi(Mo) 13 4, X6CrAI 13, Grade CA 6 NM. | ||||
| Cu | <0,5 | |||||
| CEWELD | 9606–1: FM5 | T > 500 MPa | C | <0,20 | AA 307 is rutile flux cored wire applicable for welding stainless steel to low alloyed | |
| AA 307 | Sect IX QW-432: F-No. 6 | Y > 350 MPa | Mn | 4,5- 7,5 | steels (dissimilar welds), buffer layers before hard facing, rails crossings, Armor | |
| 17633–A: | E > 25% | Si | <1,2 | plate, austenilic manganese steels and other difficult to weld steels. | ||
| T188MnRM213 | I- 40J(-100°C) | Cr | 17-20 | |||
| A5.22: | Ni | 7,0-10 | ||||
| – E307 T0-4 | Mo | 0,3 | ||||
| Cu | 0,5 | |||||
| CEWELD | 9606-1: FM5 | T> 500 MPa | C | <0,20 | AA 307P is a rutile flux cored wire with fast freezing slag, suitable for positional | |
| AA 307P | Sect IX QW-432: F-No. 6 | Y > 475 MPa | Mn | 4,5- 7,5 | welding. Applicable for stainless steel dissimilar welding and buffer layers before hard | |
| 17633–A: | E > 25% | Si | <1,2 | facing, rails crossings, Armor plate, austenitic manganese steels, exhaust systems | ||
| T 18 8 Mn P M21/C11 | I – 40(-100·C) | Cr | 17-20 | (type 409, 304) and difficult to weld steels such as: | ||
| A5.22: | Ni | 7,0-10 | 42CrMo4, C45, 42MnV7, tool steels etc. | |||
| -E 307 11-4 | 180 HB | Mo | 0,3 | |||
| -E 307 T1-4 | Strain hardening | Cu | 0,5 | |||
| 400 HB | ||||||
| CEWELD | 9606-1: FM5 | T> | 510 MPa | C | <0,04 | AA 308L is a rutile flux cored wire for welding stainless steel types with an alloy |
| AA 308L | Sect IX QW-432: F-No. 6 | Y > | 320 MPa | Mn | <2,0 | content between 16 to 21% Cr and 8 to 13 % Ni, for both stabilized and un-stabilized |
| 17633–A: | E> | 30% | Si | <1,2 | types. High weld metal quality and an attractive bead appearance. | |
| T 19 9 LR M21/C1 3 | I – | 40J(-100°C) | Cr | 18-21 | W.no: 1.4306, 1.4301, 1.4541, 1.4550, 1.4311, 1.4546, 1.4312, 1.4300, 1.4312, 1.4371, | |
| A5.22: | Ni | 9,0-11 | 1.4541, 1.4543, 1.4550, 1.4452; AISI 202,302, 304L, 304,305,321,347,304 LN | |||
| E 308 LT0-4 | Mo | 0,3 | ASTM A320 Grade B8C/D, 302 | |||
| E 308 LT0-1 | Cu | 0,5 | ||||
| CEWELD | 9606-1: FM5 | T> | 510 MPa | C | <0,04 | AA 308LP is a rutile flux cored wire with fast freezing slag, suitable for positional |
| AA 308LP | Sect IX QW-432: F-No. 6 | Y > | 320 MPa | Mn | <2,0 | welding. Stainless steel types with an alloy content between 16 to 21% Cr and 8 to |
| 17633–A: | E> | 30% | Si | <1,2 | 13 % Ni, for both stabilized and un-stabilized types. High weld metal quality and an | |
| T199LP M211 | I – | 40J(-100°C) | Cr | 18-21 | attractive bead appearance. | |
| A5.22: | Ni | 9,0-11 | W.no: 1.4306, 1.4301, 1.4541, 1.4550, 1.4311, 1.4546, 1.4312, 1.4300, 1.4312, | |||
| E 308 LT1-4 | Mo | 0,3 | 1.4371, 1.4541, 1.4543, 1.4550, 1.4452 | |||
| E308LT1-1 | Cu | 0,5 | ||||
| CEWELD | 9606-1: FM5 | T> | 550 MPa | C | 0,04-0,08 | AA 308H is a rutile flux cored wire with high carbon content for welding stainless |
| AA 308H | Sect IX QW-432: F-No. 6 | Y > | 350 MPa | Mn | < 1,0 | steel types with an alloy content between 16 to 21% Cr and 8 to 13 % Ni, for both |
| 17633–A: | E> | 30% | Si | 1,0-25 | stabilized and un-stabilized types. High weld metal quality and an attractive bead | |
| T 19 9 HR M21 3 | I – | 804(20 ·C) | Cr | 18-21 | appearance. | |
| A5.22: | Ni | 9,0-11 | W.no: 1.4306, 1.4301, 1.4541, 1.4550, 1.4311, 1.4546, 1.4312, 1.4300, 1.4312, | |||
| E 308 HT0-4 | Mo | 0,3 | 1.4371, 1.4541, 1.4543, 1.4550, 1.4452 | |||
| E 308 HT0-1 | Cu | 0,5 | ||||
| CEWELD | 9606-1: FM5 | T> | 510 MPa | C | <0,04 | AA 309L is a rutile flux cored wire for welding dissimilar steels and 13 to 18%Cr |
| AA 309L | Sect IX QW-432: F-No. 6 | Y > | 320 MPa | Mn | <2,5 | stainless steels. Also suitable for welding the first layer on low carbon steel to obtain |
| 17633–A: | E> | 25% | Si | <1,2 | a AISI 304 clad layer. Buffer layers before hard facing, dissimilar joints between ferrilic | |
| T2312LRM213 | I – | 55J(20°C) | Cr | 22-25 | and austenitic steels and or difficult to weld steels such as: 42CrMo4, C45, 42MnV7, | |
| A5.22: | Ni | 11-14 | tool steels, heat resistant steels etc. | |||
| E 309 LT0-1 | Mo | 0,3 | ||||
| E 309 LT0-4 | Cu | 0,5 | ||||
| CEWELD | 9606-1: FM5 | T > | 510 MPa | C | <0,04 | AA 309LP is a rutile flux cored wire with fast freezing slag for positional welding of |
| AA 309LP | Sect IX QW–432: F-No. 6 | Y> | 320 MPa | Mn | <2,5 | dissimilar steels and 13 to 18%Cr stainless steels. Also suitable for welding the first |
| 17633–A: | E > | 25% | Si | <1,2 | layer on low carbon steel to obtain a AISI 304 clad layer. Buffer layers before hard fa- | |
| T2312LPM211 | I- | 55J(20 ·C) | Cr | 22-25 | cing, dissimilar joints between ferrilic and austenilic steels and or difficult to weld steels | |
| A5.22: | Ni | 11-14 | such as: 42CrMo4, C45, 42MnV7, tool steels, heat resistant steels etc. | |||
| E309LT1-1 | Mo | 0,3 | ||||
| E 309 LT1-4 | Cu | 0,5 | ||||
| CEWELD | 9606-1: FM5 | T > | 550 MPa | C | < 0,08 | AA 309LNb is a rutile flux cored wire for positional welding of dissimilar steels and |
| AA 309LNb | Sect IX QW–432: F-No. 6 | Y> | 350 MPa | Mn | 1,5-2,5 | 13 to 18%Cr stainless steels. |
| 17633–A: | E > | 25% | Si | < 1,0 | Cladding mild and low alloyed steels in offshore and or chemical plants in case AISI | |
| TZ 23 12 LNb R M211 | I- | 50J (20 ·C) | Cr | 22-25 | 347 or AISI 321 are required as clad layer. | |
| A5.22: | Ni | 11-14 | ||||
| E 309LCb T0-1 | Mo | 0,3 | ||||
| E 309LCb T0-4 | Nb+Ta• | 10xC | ||||
| Cu | <0,5 | |||||
| CEWELD 2209 Duplex Tig | 9606-1: FM5 Sect IX QW–432: F-No. 6 14343–A: W 22 9 3 NL | T> 550 MPa Y > 450 MPa E> 20% I -40J (-60 °C) | C Mn Si Cr | < 0,03 0,5-2,0 <0,9 21,5-23.5 | 2209 Duplex Tig is a solid wire rod for TIG, suitable for welding duplex stainless steels grades 2205 and 2304. Weld metal exhibits corrosion resistance similar to grade 904L in most applications. 2209 Duplex Tig is also suitable to weld grade 2205 or grade 2304 to mild steel. |
| A 5.9: | Ni | 7,5-9,5 | W.no: 1.4162, 1.4462, X2CrNiMoN 22 5 3, 1.4362, X2CrNiN 23 4, 1.4463, 1.4460, | ||
| ER 2209 | Mo | 2,5-35 | 1.4583 | ||
| N | 0,08-0.2 | ||||
| Cu | < 1,5 | ||||
| CEWELD | 9606-1: FM5 | T> 620 MPa | C | < 0,03 | 2594 Tig Super Duplex s a solid wire for TIG welding the so called Super Duplex |
| 2594 Tig | Sect IX QW–432: F-No. 6 | Y > 550 MPa | Mn | <2,5 | types of stainless steels. Used for pipe work and general fabrication in the offshore oil |
| Super | 14343–A: | E> 28% | Si | < 1,0 | and gas and chemical process industries for welding SAF 2507, ASTM S32760 (ZERON |
| Duplex | W25 94 NL | I -55J (-40 °C) | Cr | 24-27 | 100),S32550 and S31260. Also suitable for cladding on standard steels. 2507 grade is |
| A 5.9: | Ni | 8,0-10,5 | characterized by excellent resistance to stress corrosion in chloride-bearing environ- | ||
| ER 2594 | Mo w | 2,5-4,5 < 1,0 | ments and excellent resistance to pitting and crevice corrosion. UNS S32550 :UR 52 N, Ferralium 255, UNS S32520 :UR 52 N+, UNS S32750 :SAF | ||
| N | 0,2- 0,3 | 2507, UR 47 N+, UNS S32760 :ZERON 100, UNS 32760, UR 76 N, SM22Cr, SAF | |||
| Cu | < 1,5 | 2507, ASTM S32760 (ZERON 100), S32550 and S31260 | |||
| CEWELD | 9606-1: FM5 | T> 510 MPa | C | < 0,025 | 904L Tig is used for Tig–welding materials of similar chemical composition which are |
| 904L Tig | Sect IX QW–432: F-No. 6 | Y > 320 MPa | Mn | 1,0-25 | used for fabrication of equipment and vessels for handling of sulfuric acid and many |
| 14343–A: | E> 25% | Si | <0,5 | chloride containing media. This filler metal may also find applications for joining Type | |
| W 20 25 5 Cu L | I -55J (-40 °C) | Cr | 19-21,5 | 317L material where improved corrosion resistance in specific media is needed. In order | |
| A5.9: | Ni | 24,0-26,0 | to reduce the tendency for fissuring and hot cracking, the low melting constituents such | ||
| ER385 | Mo | 4,2-5,2 | as carbon, silicon, and phosphorus are controlled to lower levels in this alloy. | ||
| Cu | 1,2-20 | W.no: 1.4500, 1.4505, 1.4506, 1.4519, 1.4531, 1.4536, 1.4539, 1.4573, 1.4585, 1.4586 | |||
| CEWELD | 9606-1: FM5 | T> 600 MPa | C | 0,3-0,5 | 25–35Nb is solid wire for TIG welding of heat resistant stainless steel with similar |
| 25–35Nb Tig | Sect IX QW–432: F-No. 6 | Y>400 MPa | Mn | -1,7 | composition and high carbon content. |
| 14343–A: | E>8% | Si | <1,1 | W.no: 1.4852 GX40NiCrSiNb35-25Alloy HP10Cb Paralloy CR39W Lloyds T57 | |
| WZ25 35Nb | Cr | 25-27 | Centralloy H101 | ||
| A5.9: | Ni | 34-36 | |||
| Nb | 1,2-1.5 | ||||
| Ti | <0,15 | ||||
| CEWELD | 9606-1: FM5 | T> 930 MPa | C | <0,05 | ER 630 s a solid wire for TIG welding , precipitation hardening stainless steel used for |
| ER 630 Tig | Sect IX QW–432: F-No. 6 | Y > 725 MPa | Mn | 0,25- 0,75 | welding materials of similar chemical composition such as 17–4 and 17–7. |
| (17-4 PH) | 14343–B: | E> 5% | Si | <0,75 | |
| W630 | Cr | 16-16,75 | |||
| A5.9: | Ni | 4-5 | |||
| ER630 | Mo | <0,75 | |||
| Cu | 3,25-4,0 | ||||
| Nb | 0,15-0,3 | ||||
| 12. GMA/GTA (MIG/TIG) WIRE AND ROD FOR NICKEL BASED ALLOYS | |||||
| CEWELD | 9606-1: FM6 | T> 650 MPa | C | <0,1 | Nicro 600 filler metal is used for welding nickel-chromium-iron (lnconel 600, 601 |
| NiCro 600 | Sect IX QW–432: F-No. 43 | Y>400 MPa | Mn | 2,5-35 | and 690) alloys to themselves, and for dissimilar welding between nickel-chromium- |
| 18274: | E> 35% | Fe | <3,0 | iron (Monel, lnconel and lncoloy) alloys and steels or stainless steels. The applications | |
| S Ni 6082 | I -1504(20 ·C) | Si | <0,5 | include surfacing as well as clad-side welding. | |
| CEWELD | (NiCr20Mn3Nb) | I -60J (-196 °C) | Cu | <0,5 | Alloy type: lnconel 600, 2.4816, 1.4876, 2.4817, 2.4851, 1.6901, NiCr15Fe, X10Ni– |
| NiCro 600 | A5.14: | Ni | > 67,0 | CrAITi 32 20, LC-NiCr15Fe, NiCr23Fe, X3CrNiN 1810, alloy 600/B168, alloy 800 / | |
| Tig | ER NICr-3 | Ti | <0,7 | 800H(T), N 10665, N 06601, kiln tyre, difficult to Weld steels, cock wheel | |
| Cr | 18,0-22.0 | ||||
| Nb | 2,0- 3,0 | ||||
| CEWELD | 9606-1: FM6 | T> 650 MPa | C | <0,1 | Nicro 601 filler metal is used for severe applications where the exposure tempera– |
| NiCro 601 | Sect IX QW–432: F-No. 43 | E>42 % | Mn | < 1,0 | ture can exceed 1150 °C Excellent resistance against corrosion and oxidation and sui• |
| 18274: | I -60J (20 °C) | Fe | < 20,0 | table for applications when exposed to hydrogen sulfide or sulfur dioxide. The nominal | |
| S Ni 6601 | Si | <0,5 | composition (wt.-%) of filler metal of this classification is: | ||
| CEWELD | (NiCr23Fe15AI) | Cu | < 1,0 | 61 Ni, 23 Cr, 14 Fe, and 1.4AI. | |
| NiCro 601 | A5.14: | Ni | 58,0-63,0 | ||
| Tig | ER NiCrFe-11 | Al | 1,0-1,7 | ||
| Cr | 21,0- 25,0 | ||||
| CEWELD | 9606-1: FM6 | T> 650 MPa | C | 0,15-0,25 | NiCro 602 filler metal is used for welding similar alloys that have to resist extreme |
| NiCro 602 | Sect IX QW–432: F-No. 43 | Y > 300 MPa | Mn | <0,5 | high temperature and for cladding steels or stainless steels to obtain a high tern- |
| CA | 18274: | E > 25 % | Fe | 8,0-11,0 | perature resistant surface against oxidation. Cladding against high temperature, radiant |
| S Ni 6025 (NiCr25Fe10AIY) | I > 50 J (20 °C) | Si | <0,5 | heater tubes, furnace rolls, muffles in bright annealing furnaces (H2 atmosphere), | |
| A5.14: | Cu | <0,1 | rotary kilns, pipe hangers, waste gas components, hydrogen production, methanol and | ||
| CEWELD | ER NCrFe-12 | Ni | > 59,0 | ammonia synthesis, | |
| NiCro 602 | Al | 1,8-2,4 | 2.4633, 2.4649, NiCr25FeAIY, Nicrofer 6025 HT, Alloy 602CA, UNS N06025 | ||
| CATig | Ti | 0,1-0,2 | |||
| Cr | 24-26 | ||||
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