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We’re ISO 9002 certified. When you partner with HOBART, you can feel good knowing we meet ISO 9002 standards — the most rigorous standards for production and distribution around. It’s your guarantee that the highest levels of quality, satisfaction and efficiency go into everything bearing the HOBART name. We’re on the web. Our Web site is a resource on welding, with detailed explanations of process applications and HOBART products. New products are featured regularly, so bookmark our address and visit often! Within the website, you can download data sheets and MSDS sheets in pdf format. Also for your convenience, we have posted our Distributor Locator on the site. You can find us at http://www.hobartbrothers.com. Notice: The foregoing values represent test results under controlled laboratory conditions, not guarantees for use in the field. Actual use of the product may produce varying results due to conditions and welding techniques over which HOBART has no control, including but not limited to plate chemistry, weldment design, fabrication methods, wire size, welding procedure, service requirements and the environment. The purchaser is solely responsible for determining the suitability of HOBART products for the purchaser’s own use. Any prior representation shall not be binding. HOBART DISCLAIMS ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE WITH RESPECT TO ITS PRODUCTS. Caution: Consumers should be thoroughly familiar with the safety precautions shown in the Warning Label posted on each shipment and American National Standard Z49.1 “Safety in Welding and Cutting” published by the American Welding Society, 550 NW LeJeune Road, Miami, Florida 33135: OSHA Safety and Health Standards, 29 CFT 1910 available from the U.S. Department of Labor, Washington, D.C. 20210. Hobart Brothers Company 101 Trade Square East Troy, OH 45373 USA www.hobartbrothers.com To place an order, contact the distributor nearest you. Hobart Brothers Company Printed in U.S.A.
TABLE OF CONTENTS L O W A L L OY History. 2 General Information. 3 AWS Classification Stick Electrodes. 4 AWS Classification Solid Wires. 5 AWS Classification Flux Cored Wires. 6 AWS Classification Metal Cored Wires. 7 Master List of Products. 8 Applications A1. 9 Applications K2/K3/K4. 10 Product Classifications K2/K3/K4.10-15 Applications M. 16 Product Classifications M.16-17 Applications B. 18 Product Classifications B.18-23 Applications C1/C2/C3. 24 Product Classifications C1/C2/C3.24-25 Applications N. 26 Product Classifications N.26-29 Applications D2. 30 Product Classifications D2.30-31 Applications W. 32 Product Classifications W. 32 Stick Electrode Approvals & Comparisons. 33 Product Information. 34 Tubular Product Characteristics. 35 Product Conformances and Approvals.36-37 Product Packaging Information.38-42 REV. 6/09 1
HISTORY OF After 90 years in the business, Hobart Brothers is Welding. And Welding is Hobart Brothers. Much has changed in industry since 1920; Hobart was there every step of the way. You might even say the company did more than simply keep up with new technologies and processes. It helped forge them. Hobart has become a world leader in the field. Today you can find the broadest selection of filler metals well in the United States. & are known brands of Hobart Brothers. Training and expertise are key products of Hobart as well. Such a respectable past can only be built by knowledgeable people. That’s why, whether you have a question on technique, materials or applications, you know who to call. 1-800-532-2618 The company who touched off that first spark over 90 years ago. Hobart Brothers has served major metal fabrication markets as a top-quality manufacturer of flux-cored and metal-cored wires for over 25 years. Throughout that time, we’ve consistently focused our efforts on welding research and product development and, as a result, now one of the most complete offer product lines in the industry today. Recognized worldwide as the “specialists in flux-cored and metal-cored wires,” Hobart Brothers features over 52 different products for welding carbon and low alloy steels, in addition to special formulations for applications in the shipbuilding, infrastructure construction, offshore oil, and heavy equipment industries. 2
WHAT IS LOW ALLOY? Typically: 80,000 psi ultimate tensile strength and greater Addition of certain alloying elements such as Nickel, Molybdenum, Manganese, Chromium, etc. for specific applications and performance WHY & WHERE TO USE LOW ALLOY Higher strength based materials Chemistry/chemical requirements Chrome-Moly, Nickel, etc. Application requirements High strength Heat/Corrosion Applications Heat treating cycles – PWHT Weathering Steels 3
LOW ALLOY AW S C L A S S I F I C AT I O N - S T I C K E L E C T R O D E S How AWS classifies low alloy covered electrodes (AWS A5.5) E8018-B2 Electrode Tensile in ksi Position Type of coating and current Chemical composition of weld metal deposit Types of Coating & Current AWS DIGIT TYPE OF COATING 6010 0 cellulose sodium 6011 1 cellulose potassium 6022 2 titania sodium 6013 3 titania potassium 7014 4 iron powder titania 7018 8 iron powder low hydrogen WELDING CURRENT DCEP AC or DCEP AC or DCEN AC or DCEP or DCEN AC or DCEP or DCEN AC or DCEP DCEP-Direct Current Electrode Positive DCEN-Direct Current Electrode Negative AC-Alternating Current L O W A L L O Y L O W A L L O Y L O W A L L O Y L O W A L L O Y L O W A L L O Y L O W Chemical Composition of Weld Metal Deposit AWS E7018 E8018 E8018 E9018 E9018 E8018 E8018 E9015 E8018 E8018 E8018 E10018 EXXXX E9018 E10018M E11018M E12018 E7010 E8010 Suffix A1 B2L B2 B3L B3 B6 B8 B9 C1 C2 C3 D2 G** M M M M P1 P1 C .12 .05 .05-.12 .05 .05-.12 .05-.10 .05-.10 .08-.13 .12 .12 .12 .15 — .10 .10 .10 .10 .20 .20 Mn .90* .90 .90 .90 .90 1.0 1.0 1.20 1.25 1.25 .40-1.25 1.65-2.00 1.00 Min .60-1.25 .60-1.25 1.30-1.80 1.30-2.25 1.20 1.20 Si .80 .80 .80 .80* .80* .90 .90 .30 .80* .80* .80 .80* .80 Min .80 .80 .60 .60 .60 .60 Ni — — — — — .40 .40 8.0 2.00-2.75 3.00-3.75 .80-1.10 .90 .50 Min 1.40-1.80 1.40-1.80 1.25-2.50 1.75-2.50 1.00 1.00 * Amount depends on electrode classification. Single values indicate maximum ** All G classifications have the same chemical minimum requirements 4 Cr — 1.00-1.50 1.00-1.50 2.00-2.50 2.00-2.50 4.0-6.0 8.0-10.5 8.0-10.5 — — .15 — .20 Min .15 .15 .40 .30-1.50 .30 .30 Mo .40-.65 .40-.65 .40-.65 .90-1.20 .90-1.20 .45-.65 .85-1.20 .85-1.20 — — .35 .25-.45 .20 Min .35 .35 .25-.50 .30-.55 .50 .50 V — — — — — — — .15-.30 — — .05 — .10 Min .05 .05 .05 .05 .10 .10 P .03 .03 .03 .03 .03 .03 .03 .01 .03 .03 .03 .03 .03 .030 .030 .030 .030 .030 .030 S .03 .03 .03 .03 .03 .03 .03 .01 .03 .03 .03 .03 .03 .030 .030 .030 .030 .030 .030 Cu Al Nb N .25 .04 .02-.10 .02-.07 .20 A L L O Y
AW S C L A S S I F I C AT I O N - S O L I D W I R E S LOW ALLOY How AWS classifies low alloy solid electrodes, GMAW, GTAW and PAW (AWS A5.28) ER80S-D2 Electrode or rod Tensile in ksi Solid Chemical composition A L L O Y L O W A L L O Y L O W A L L O Y L O W A L L O Y L O W A L L O Y L O W A L L O Y Chemical Composition of Solid Wires Using CO2 Shielding Gas AWS Shielding classification gas ER80S-D2 CO2 C Mn .07 - .12 1.60 - 2.10 Tensile Strength ksi (MPa) Yield Strength ksi (MPa) % Elongation Min. in 2" (50 mm) Impact strength Min. ft-lbs at F (J at C) 80 (550) 68 (470) 17 20 at -20 (27 at -29 ) CHEMICAL COMPOSITION Si P S Ni Cr Mo Cu Other .50 - .80 .025 .025 .15 — .40 - .60 .50 — 5 L O W
LOW ALLOY AW S C L A S S I F I C AT I O N - F L U X C O R E D W I R E S HOW AWS CLASSIFIES LOW ALLOY FLUX CORED (TUBULAR) WIRES, FCAW PROCESS (AWS A5.29) E 8 1 T 1-XC/MJ H8 Hydrogen: H4 less than 4 ml/100g, H8 less than 8 ml/100g Impacts: 20 F lower than the temperature shown for that classification C 100% CO2 M Mixed Gas: 75%-80% Ar, balance CO2 Deposit composition designator. Two, three or four digits are used to designate the chemical composition of the deposited weld metal. The letter “G” indicates that the chemical composition is not specified. Electrode Tensile X 10 ksi Position: “0” flat/horizontal, “1” all position Flux-cored (tubular) electrode Gas type, usability and performance capabilities Low Alloy Flux Cored Designator Chart Carbon-Molybdenum Weld Metal E81T1-A1C .12% Max Carbon, .40 - .65% Molybdenum, 80ksi Chromium-Molybdenum Weld Metal E80T1-B2C E81T1-B2C/M E90T1-B3C E90T5-B3M E91T1-B3C/M E81T1-B6C/M E91T1-B9M 1.00 - 1.50% Chromium, .40 - .65% Molybdenum 1.00 - 1.50% Chromium, .40 - .65% Molybdenum 2.00 - 2.50% Chromium, .90 - 1.20% Molybdenum 2.00 - 2.50% Chromium, .90 - 1.20% Molybdenum 2.00 - 2.50% Chromium, .90 - 1.20% Molybdenum 4.00 - 6.00% Chromium, .45 - .65% Molybdenum 8.00 - 10.50% Chromium, .85 - 1.20% Molybdenum, .15 - .30% Vanadium Nickel Weld Metal E80T1-Ni1C/M .80 - 1.20% Nickel, 80ksi E81T1-Ni1C/M .80 - 1.20% Nickel, 80ksi E81T1-Ni2C/M 1.75 - 2.25% Nickel, 80ksi E91T1-Ni2C 1.75 - 2.25% Nickel, 90ksi Manganese-Molybdenum Weld Metal E100T5-D2C 1.60 - 2.25% Manganese, .25 - .55% Molybdenum, 100ksi Manganese-Nickel-Molybdenum Weld Metal E81T1-K2C/M E90T1-K2C E90T5-K2C E91T1-K2C/M E100T1-K3C E110T1-K3C E110T5-K3M E111T1-K3C E120T5-K4C .50 - 1.75% Manganese, 1.00 - 2.00% Nickel, .35% Max. Molybdenum, 80ksi .50 - 1.75% Manganese, 1.00 - 2.00% Nickel, .35% Max. Molybdenum, 90ksi .50 - 1.75% Manganese, 1.00 - 2.00% Nickel, .35% Max. Molybdenum, 90ksi .50 - 1.75% Manganese, 1.00 - 2.00% Nickel, .35% Max. Molybdenum, 90ksi .75 - 2.25% Manganese, 1.20 - 2.60% Nickel, .25 - .65% Molybdenum, 100ksi .75 - 2.25% Manganese, 1.20 - 2.60% Nickel, .25 - .65% Molybdenum, 110ksi .75 - 2.25% Manganese, 1.20 - 2.60% Nickel, .25 - .65% Molybdenum, 110ksi .75 - 2.25% Manganese, 1.20 - 2.60% Nickel, .25 - .65% Molybdenum, 110ksi 1.20 - 2.25% Manganese, 1.75 - 2.60% Nickel, .20 - .65% Molybdenum, .20 - .60% Chromium, 120ksi Weld Metal for Weathering Steels E81T1-W2C Addition of Copper for Weathering Steels General Classification E101T1-GM 6 .50 - 1.75% Manganese, 1.00 - 2.00% Nickel, .35% Max. Molybdenum, 100ksi
AW S C L A S S I F I C AT I O N - M E TA L C O R E D W I R E S LOW ALLOY Tri-Mark’s metal-cored low alloy wires are uniquely formulated for specific metal types like nickel, chrome-moly, high-strength and T1-type steels. Much like their carbon steel counterparts, metal-cored wires for low alloys possess outstanding characteristics and deliver many benefits to enhance the “total welding solution.” HOW AWS CLASSIFIES LOW ALLOY METAL-CORED (COMPOSITE) WIRES, GMAW PROCESS (AWS A5.28) E 80 C-X Electrode Indicated the chemical compositioin of a solid electrode or the chemical composition of the weld metal produced by a composite electrode (see below) Tensile X 10 ksi Composite metal-cored electrode A L L O Y L O W A L L O Y L O W A L L O Y L O W A L L O Y L O W A L L O Y L O W A L L O Y Composite Electrode Alloy Designator Chart Chromium-Molybdenum Weld Metal E80C-B2 1.00 - 1.50% Chromium, .50% Molybdenum Nickel Steel Weld Metal E80C-Ni1 1.00% Nickel, 80ksi E80C-Ni2 2.00% Nickel, 80ksi Manganese-Molybdenum Steel Weld Metal E90C-D2 1.00 - 1.90% Manganese, .50% Molybdenum, 90ksi Manganese-Nickel-Molybdenum Steel Weld Metal E90C-K3 .75 - 2.25% Manganese, .50 - 2.50% Nickel, .25 - .65% Molybdenum, 90ksi E100C-K3 .75 - 2.25% Manganese, .50 - 2.50% Nickel, .25 - .65% Molybdenum, 100ksi E110C-K4 .75 - 2.25% Manganese, .50 - 2.50% Nickel, .25 - .65% Molybdenum, .15 - .65% Chromium, 110ksi 7 L O W
LOW ALLOY MASTER LIST MASTER LIST OF PRODUCTS Product Class Description Stick Electrode Flux Cored A1 Carbon-Molybenum filler metal with .5% Moly to increase the strength of the weld metal, especially at elevated temperature. This filler metal keeps it’s tensile strength after post weld heat treatment (PWHT) Hobart Hoballoy 7018A1 Tri-Mark TM-811A1 B2 1.25% Chrome - .5% Molybdenum for high temperature service. Typically used for welding P11 Chrome-Moly pipe. Hobart Hoballoy 8018B2 Hobart Hoballoy 8018B2L Tri-Mark TM-81B2 Tri-Mark TM 811B2 B3 2.25% Chrome - 1.0% Molybdenum for high temperature service applications. Typically used for welding P21 and P22 Chrome-Moly pipe Hobart Hoballoy 9018B3 Hobart Hoballoy 9018B3L Tri-Mark TM-91B3 Tri-Mark TM-911B3 Tri-Mark TM-95B3 B6 4 - 6% Chrome - .50% Molybdenum for high temperature service applications. Typically used for welding 5% Chrome - .50% Moly pipe and steels. Hobart Hoballoy 8018B6 Tri-Mark TM-B6 B8 8 - 10.50% Chrome - 1.0% Molybdenum for high temperature service applications. Typically used for welding P91 and P92 Chrome-Moly Pipe. Hobart Hoballoy 8018B8 B9 8 - 10.50% Chrome - 1.0% Molybdenum for high temperature service applications. Typically used for welding P91 and P92 Chrome-Moly Pipe. Hobart Hoballoy 9015B9 D2 Manganese-Molybdenum filler metal used for welding a wide variety of steels including HSLA, A514 (T1), and HY80 - HY100. Hobart Hoballoy 10018D2 K2 Manganese-Nickel-Molybdenum with 1.5% Nickel and up to .35% Molybdenum to weld higher strength steels such as HY80, HY100. K3 Manganese-Nickel-Molybdenum with 1.2 - 2.6% Nickel and up to .65% Molybdenum to weld higher strength steels such as HY80, HY100, ASTM A514 (T1) K4 Manganese-Nickel-Molybdenum with 1.75 - 2.60% Nickel and up to .65% Molybdenum with the addition of .20 - .60% chrome to weld higher strength steels such as HY80, HY100 and ASTM A514 (T1) M Military similar electrodes designed for welding high strength steels such as HY80, HY100, A514 (T1) Metal Cored Tri-Mark Metalloy 80B2 Tri-Mark TM-B9 Tri-Mark TM-105D2 Hobart FabCO 81K2-C Tri-Mark TM-881K2 Tri-Mark TM-91K2 Tri-Mark TM-991K2 Tri-Mark TM-95K2 Tri-Mark TM-101 Tri-Mark TM-101K3 Tri-Mark TM-111K3 Tri-Mark TM-1101K3-C Tri-Mark TM-1101K3-M Hobart FabCO 110K3-M Tri-Mark TM-115 Tri-Mark Metalloy 80D2 Tri-Mark Metalloy Vantage D2 Tri-Mark Metalloy 90 Tri-Mark Metalloy 100 Tri-Mark TM-125K4 Hobart FabCO 115 Tri-Mark Metalloy 110 Hobart Hoballoy 9018M Hobart Hoballoy 10018M Hobart Hoballoy 11018M Hobart Hoballoy 12018M Ni1 1% Nickel alloyed to increase strength and improved impact notch toughness. Can also be used to weld weathering steels but will not immediately color match. Tri-Mark TM-81N1 Tri-Mark TM-811N1 Hobart Formula XL-8Ni1 Tri-Mark Metalloy 80N1 Tri-Mark Metalloy Vantage Ni1 Ni2 Addition of 2% Nickel to improve impact notch toughness. Tri-Mark TM-811N2 Tri-Mark TM-911N2 Tri-Mark Metalloy 80N2 C1 Addition of 2 - 2.75% Nickel to improve impact notch toughness. Hobart Hoballoy 8018C1 C2 Addition of 3 - 3.75% Nickel to improve impact notch toughness. Hobart Hoballoy 8018C2 C3 Addition of .8 - 1.10% Nickel to improve impact notch toughness. Hobart Hoballoy 8018C3 W Addition of .5% copper to weld weathering steels and where rapid color matching is required. Tri-Mark TM-811W For further chemistry and mechanical properties, please refer to the chart on page 38 and the datasheets available on hobartbrothers.com 8
A1 LOW ALLOY A1 A P P L I C AT I O N S Description Carbon-Molybdenum filler metal with .5% Moly to increase the strength of the weld metal, especially at elevated temperatures. This filler metal keeps it’s tensile strength after post-weld heat treatment (PWHT) applications. Typical Applications Boiler and Pressure Vessel, Piping, Power Plant, Carbon-Molybdenum base materials such as A161, A204, A302 Gr. A, and A335-P1 Pipe. Key of Symbols Stick L O W A L L O Y L O W FC A L L O Y HOBALLOY 7018A1 / AWS E7018-A1 H4R For pressure vessel applications, the Hoballoy 7018A1 is an outstanding choice. When welding .50% molybdenum steel and other low alloy steels, the Hoballoy 7018A1 offers resistance to moisture reabsorption. This important feature helps prevent hydrogen cracking and aids in the elimination of starting porosity. Typical applications: construction and maintenance of boilers piping tubing L O W FC A L L O Y L O W A L L O Y TM-811A1 / TM-811A1 deposits weld metal with .50% molybdenum, which prevents deterioration in tensile strength after stress relief under specified conditions. It is intended for the welding of parts of similar composition, such as those found in power plant pipe systems. It is used for the repair as well as the fabrication of .50% molybdenum steel castings. TM-811A1 offers good weldability in all positions, with a fast-freezing slag that removes very easily. The wire is recommended for single and multiple pass welding in all positions using 100% CO2 shielding gas. FCAW - Flux Cored Arc Welding Product - Gas Shielded (“Flux-Cored”) L O W A L L O Y MC L O W GMAW - Gas Metal Arc Welding - Metal Cored Product, Gas Shielded (“Metal-Cored”) A L L O Y Typical weld metal properties (Chem Pad): C Mn Si P S Mo .03 .83 .32 .01 .01 .49 Typical mechanical properties (stress relieve 1 hour @ 1150 F): Tensile Strength (psi) 87,000 (599 MPa) Yield Strength (psi) 72,000 (496 MPa) Elongation % in 2" 26% Typical Charpy V-notch impact values Not required L O W A L L O Y L O W L O W Shielding Gas: 100% CO2, 35-50 cfh L O W A L L O Y Available diameter and recommended operating ranges: 3/32" (2.4 mm) 70-110 amps 1/8" (3.2 mm) 90-160 amps 5/32" (4.0 mm) 130-220 amps Type of current: DCEP or AC Approvals and conformances: AWS A5.5, E7018-A1 H4R ASME SFA 5.5, F-4, A-2, E7018-A1 ABS E7018-A1 A L L O Y Specifications: E81T1-A1C per AWS A5.29, ASME SFA 5.29 A L L O Y L O W A L L O Y L O W Undiluted Weld Metal Chemistry: 100% CO2 C Mn Si P S Mo .04 .83 .26 .014 .016 .48 Standard Diameters: .045", 1/16" Mechanical Properties: Tensile Strength: 94,000 psi Yield Strength: 83,000 psi Elongation: 26% CVN: not required Characteristics: Good weldability in all positions. The above properties were determined with 100% CO2 shielding gas. Fast-freezing slag removes easily. Stress Relieved Welding Positions: All positions A L L O Y 1 hr. @ 1150 F Recommended for single and multiple pass welding using CO2 shielding gas. 9 Stick SMAW (“Stick”) FC FCAW (“Flux-Cored”) MC GMAW (“Metal-Cored”) Stick SMAW - Shielded Metal Arc Welding (“Stick”) Product
LOW ALLOY A P P L I C AT I O N S K2 K2 K3 K4 Description Manganese-Nickel-Molybdenum filler metals designed to weld higher strength steels such as HY80, HY100. K3 increasing amounts of Nickel and Manganese K4 Addition of .20- .60 Chrome Typical Applications Crane manufacturing, Heavy Equipment, Earthmoving, Offshore Oil Structures, Shipbuilding Fabrication, Steels including HY80, HY100, ASTM A710, and A514. L O W FC A L L O Y L O W A L L O Y TM-881K2 / TM-881K2 was developed in .045" (1.2 mm) diameter to be used primarily in the offshore market because of outstanding impact resistance at low temperatures. Shipbuilding applications will likely benefit from the all-position capabilities of TM-881K2. The wire has a stable soft spray transfer with almost no spatter when using 75-85% Ar/20-15% CO2. 100% CO2 gas shielding may be used with some sacrifice in fume, spatter, and impact resistance. Excellent all-position characteristics give this product the advantage over competitive products. L O W A L L O Y L O W A L L O Y Specifications: E81T1-K2CJ H8; E81T1-K2MJ H8 per AWS A5.29, ASME SFA 5.29 ABS to AWS E81T1-K2M DNV Grade VY42MS H10 Lloyds Register of Shipping Grade 4Y42S H10 Bureau Veritas S5Y42M Shielding Gas: 100% CO2, 75-85% Ar/bal CO2, 35-50 cfh Welding Positions: All positions Standard Diameter: .045" L O W A L L O Y L O W A L L O Y Characteristics: Designed for offshore applications. Argon/CO2 shielding gas for lower spatter and fume. CTOD exceeds .25 mm at -10 C. Good impacts at -60 C (-76 F) both as welded and stress relieved. Hydrogen levels below 5 ml/100 g. Undiluted Weld Metal Chemistry: C Mn Si P S Mo Ni 80% Ar/20% CO2 .08 1.11 .26 .009 .019 .01 1.46 100% CO2 .05 .81 .14 .008 .015 .02 1.64 Mechanical Properties: 80% Ar/20% CO2 Tensile Strength: 95,000 psi 100% CO2 85,000 psi (Aged 48hrs. @200 F) Yield Strength: Elongation: CVN @ -40 F: L O W L O W A L L O Y FabCO 81K2-C / FabCO 81K2-C is an all-position low alloy flux-cored wire. This high performance 100% CO2 electrode is characterized by a flat bead profile, smooth stable arc and low spatter even when welded out of position. The exceptional mechanical properties and low diffusible hydrogen makes this product well suited for the shipbuilding and offshore oil construction market. L O W A L L O Y L O W A L L O Y A L L O Y L O W A L L O Y Typical Mechanical Properties(As Welded): Tensile Strength 87,000 psi (600 MPa) Yield Strength 78,000 psi (538 MPa) Elongation % in 2" 27% Shielding Gas: 100% CO2 Typical Charpy V-notch impact values (SR): CVN @ -40 F: 91 ft-lbs Welding Positions: Vertical, Overhead, Flat, Horizontal Typical Applications: Offshore & Shipbuilding Standard Diameter: .045", 1/16" 100% CO2 10 L O W 75,000 psi 27% 70 ft-lbs Specifications: E81T1-K2CJ H8 per AWS A5.29/A5.29M, ASME SFA 5.29, E81T1-K2CJ H8, ABS 100% CO2 3Y, 3YSA Undiluted Weld Metal Chemistry: FC A L L O Y 85,000 psi 24% 78 ft-lbs C Mn Si P S Ni .07 1.13 .27 .015 .014 1.67
P R O D U C T C L A S S I F I C AT I O N S TM-91K2 / TM-91K2 offers good weldability together with excellent properties for the semi-automatic and automatic welding of many higher strength steels. Several features combine to reduce the tendency for cracking in highly restrained joints. As compared to most EXXT-1 wire deposits, weld metal diffusible hydrogen content is low. The moderately high strength level is such that the tendency to overmatch many base metal yield strengths is minimized. TM-91K2 is thus a good choice for fillet welds on T-1, HY-80, and other quenched and tempered steels. It is also recommended for other high strength steel applications where weld metal with 90,000-110,000 psi tensile strength is appropriate. L O W FC L O W A L L O Y TM-991K2 / TM-991K2 offers an exceptional combination of properties for an all-position wire, good low temperature toughness combined with tensile strength in the 90,000-110,000 psi range. TM-991K2 is designed for welder appeal, with smooth, stable arc action and low spatter levels. The quick-freezing slag is easily removed and bead geometry in all positions is excellent. TM-991K2 is a superior choice for all-position work with many high-strength low alloy steels, such as A514, A710, and HY-80. It is recommended for single and multiple pass welding in all positions with 100% CO2 or 75% argon/25% CO2 shielding gases. L O W FC A L L O Y A L L O Y L O W A L L O Y TM-95K2 / TM-95K2 is excellent where higher tensile strengths and outstanding impact properties are of importance. It is produced with a basic slag formulation which promotes superior deposit quality. The weld metal is low in diffusible hydrogen and less sensitive to high base metal sulfur content than are acid slag (EXXT-1) welds. These characteristics make TM-95K2 a good choice for applications where cracking might be a problem, or where good impact values down to -60 F are needed. TM-95K2 is used for welding such HSLA steels as ASTM A710 and many high strength quenched and tempered steels, such as A514 and HY-80. The wire is recommended for single and multiple pass welding in the flat and horizontal positions using 100% CO2 or 75-80% Ar/bal CO2 shielding gas. Specifications: E90T1-K2C per AWS A5.29, ASME SFA 5.29 Shielding Gas: 100% CO2, 35 - 50 cfh LOW ALLOY Undiluted Weld Metal Chemistry: 100% CO2 C Mn Si P S Mo Cr Ni .05 1.00 .34 .008 .015 .13 .031 1.41 Mechanical Properties: Tensile Strength: 96,000 psi Yield Strength: 86,000 psi Elongation: 24% CVN @ 0 F: 32 ft-lbs Welding Positions: Flat and horizontal Standard Diameter: 1/16", 5/64", 3/32" Characteristics: Good welder appeal. For use on higher strength steels such as A710, HY-80, and A514. Lower weld metal hydrogen than most EXXT-1 slag systems. Intermediate tensile range helps minimize “overmatching” base plate yield strengths. L O W A L L O Y L O W A L L O Y Specifications: E91T1-K2C H8, E91T1-K2M H8 per AWS A5.29, ASME SFA 5.29 ABS to AWS E91T1-K2; E91T1-K2M Welding Positions: All positions Standard Diameters: .045", .052", 1/16" Characteristics: Superior impact toughness combined with tensile strength in the range of 90,000-110,000 psi. A L L O Y L O W A L L O Y L O W A L L O Y Ideal for welding steels such as A514, A710, and other HSLA or Q T grades. Excellent all-position performance. Shielding Gas: 100% CO2, 75% Ar/25% CO2,35-50 cfh L O W L O W A L L O Y Specifications: E90T5-K2C H4 per AWS A5.29, ASME SFA 5.29 Shielding Gas: 100% CO2, 75 - 80% Ar/bal CO2, 35 - 50 cfh Welding Positions: Flat and horizontal Standard Diameter: 1/16", 3/32" Characteristics: Excellent low temperature toughness. Low hydrogen weld metal. Less sensitive to higher sulfur contents in base material than acid slag filler metals. Can be used for welding several HSLA steels, such as ASTM A710, A514 and HY-80. Undiluted Weld Metal Chemistry: C Mn Si P S Mo Ni 100% CO2 .05 1.04 .19 .009 .014 .01 1.92 75% Ar/25% CO2 .06 1.57 .35 .009 .015 .01 1.69 Mechanical Properties: 100% CO2 Tensile Strength: 92,000 psi Yield Strength: 80,000 psi Elongation: 27% CVN @ 0 F: 85 ft-lbs L O W A L L O Y 75% Ar/25% CO2 101,800 psi 93,400 psi 24% 70 ft-lbs L O W A L L O Y Undiluted Weld Metal Chemistry: 100% CO2 C Mn Si P S Mo Ni .05 .83 .33 .009 .016 .22 1.65 Mechanical Properties: Tensile Strength: 91,000 psi Yield Strength: 79,000 psi Elongation: 26% CVN @ -60 F: 49 ft-lbs The above properties were determined with 100% CO2 shielding gas. 11 Stick SMAW (“Stick”) FC FCAW (“Flux-Cored”) MC GMAW (“Metal-Cored”) FC K2
LOW ALLOY FC TM-101 / TM-101 is an all-position gas-shielded flux-cored wire designed for welding of high strength steels such as A514, A710, and similar HSLA and Q&T steels. TM-101 offers exceptional low temperature impact toughness with tensile strength in the 105,000-115,000 psi range. TM-101 provides excellent welder appeal by offering a smooth stable arc, low spatter, low smoke generation, and smooth bead profile. The quick freezing slag is ideal for high deposition welding while maintaining a flat bead profile. It is recommended for single and multiple pass welding in all positions with 75% Ar/25% CO2 shielding gas. Specifications: E101T1-GM per AWS A5.29, ASME SFA 5.29 L O W FC A L L O Y L O W A L L O Y TM-101K3 / TM-101K3 provides 100,000 psi tensile strength with good impact values. It is intended for both HSLA and quenched and tempered steels on certain applications. TM-101K3 deposits weld metal with low diffusible hydrogen levels, approaching that of the T-5 (basic) wires, making it more resistant to hydrogeninduced cracking. Welder appeal exceeds that of the basic slag wires. It is used for single and multiple pass welding in the flat and horizontal positions using 100% CO2 shielding gas. Specifications: E100T1-K3C per AWS A5.29, ASME SFA 5.29 L O W L O W A L L O Y TM-111K3 / TM-111K3 is intended for welding those steels where a minimum tensile strength of 110,000 psi is required. These would encompass several of the quench and tempered low alloy steels, such as ASTM A514. Welder appeal is excellent and spatter is low for this type product. Advancements in acid slag technology provide low diffusible hydrogen levels and mechanical properties approaching those of basic slag wires. These are important criteria in minimizing crack sensitivity with such high strength wires. 12 FC A L L O Y P R O D U C T C L A S S I F I C AT I O N S 75% Ar/25% CO2 Welding Positions: All positions Standard Diameter: .045", 1/16" Characteristics: Superior impact toughness combined with tensile strength in the range of 105,000-115,000 psi. Ideal for welding steels such as A514 (T1), A710, RIVERS A 610, Weldten 610, EQ56, and other HSLA or Q&T grades. Excellent all-position performance. Low spatter. Low diffusible hydrogen. A L L O Y L O W Mn Si P S Mo Ni 1.60 .38 .011 .011 .01 1.95 The above properties were determined with 75%Ar /25% CO2 shielding gas. L O W A L L O Y L O W A L L O Y Undiluted Weld Metal Chemistry: 100% CO2 Welding Positions: Flat and horizontal Standard Diameter: 1/16", 3/32" Characteristics: Can be used to weld steels where a 100,000 psi minimum tensile strength is required. Intended for both HSLA and Q T steels in certain applications. Weld metal diffusible hydrogen levels are nearly as low as an EXXT-5 wire. A L L O Y C .06 Mechanical Properties: Tensile Strength: 110,000 psi Yield Strength: 102,000 psi Elongation: 20% CVN @ 0 F: 78 ft-lbs CVN @
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ISO 8402 was published in 1986, with ISO 9000, ISO 9001, ISO 9002, ISO 9003 and ISO 9004 being published in 1987. Further feedback indicated that there was a need to provide users with application guidance for implementing ISO 9001, ISO 9002 and ISO 9003. It was then agreed to re-number ISO 9000 as ISO 9000-1, and to develop ISO 9000-2 as the .
ISO 10381-1:2002 da ISO 10381-2:2002 da ISO 10381-3:2001 da ISO 10381-4:2003 da ISO 10381-5:2001 da ISO 10381-6:1993 da ISO 10381-7:2005 ne ISO 10381-8:2006 ne ISO/DIS 18512:2006 ne ISO 5667-13 da ISO 5667-15 da Priprema uzoraka za laboratorijske analize u skladu s normama: HRN ISO 11464:2004 ne ISO 14507:2003 ne ISO/DIS 16720:2005 ne
ISO 10771-1 ISO 16860 ISO 16889 ISO 18413 ISO 23181 ISO 2941 ISO 2942 ISO 2943 ISO 3724 ISO 3968 ISO 4405 ISO 4406 ISO 4407 ISO 16232-7 DIN 51777 PASSION TO PERFORM PASSION TO PERFORM www.mp ltri.com HEADQUARTERS MP Filtri S.p.A. Via 1 Maggio, 3 20060 Pessano con Bornago (MI) Italy 39 02 957
towards quality as well as ISO 9002, (2) to evaluate programs and effort carried out or done by the government, (3) to investigate the impact of implementing the ISO 9002 in SMF in three aspects, profit will increased, cost will reduced and efficiency will be ensured. A total of 30 respondents were involved in the study. Therefore, the
ISO 18400-107, ISO 18400-202, ISO 18400-203 and ISO 18400-206, cancels and replaces the first editions of ISO 10381-1:2002, ISO 10381-4:2003, ISO 10381-5:2005, ISO 10381-6:2009 and ISO 10381-8:2006, which have been structurally and technically revised. The new ISO 18400 series is based on a modular structure and cannot be compared to the ISO 10381
The DIN Standards corresponding to the International Standards referred to in clause 2 and in the bibliog-raphy of the EN are as follows: ISO Standard DIN Standard ISO 225 DIN EN 20225 ISO 724 DIN ISO 724 ISO 898-1 DIN EN ISO 898-1 ISO 3269 DIN EN ISO 3269 ISO 3506-1 DIN EN ISO 3506-1 ISO 4042 DIN
ISO 9001, ISO 9002, ISO 9003, - what, if anything, do these international standards tell us about laboratory competency? Very little if the truth be known! Since the introduction of these international quality management standards in 1987 and the hype that followed, it has become fashionable to seek certifi
ASTM E84 Flame Spread for FRP Consult data sheets for specific information. Asbestos/Cement Halogenated-FRP Halogenated/ w/Antimony-FRP Red Oak Non-Halogenated 0 100 200 300 400 X X Plywood 25 75. Surge and Water Hammer-Surge wave celerity 0 200 400 600 800 1000 1200 1400 1600 CONC DI CS FRP PVC PE50 Wave Celerity-m . Usage of FRP World Wide- Literature Survey. Usage of FRP World Wide .
