et al. CONSTITUENT CONTENT, WT% ELECTROSLAG WELDING, MET. FABR., WELD. MET. FABR., MET. PROGR., ET AL., AVTOM. SVARKA, ELECTROSLAG WELDING FOR MARINE APPLICATIONS, FWP J., WELDING RESEARCH RELATED TO POWER PLANT, MET. MATER., WELD. J., TRANS. JAP. WELD. SOC., AVTOM. SVARKA, AUTOM. WELD., AVTOM. SVARKA, ET AL., SVAR. PROIZVOD., SVAR. PROIZVOD., ZVRACSKE SPRAVY/WELDING NEWS, WELD. INST. RES. BULL., ET AL., SVAR. PROIZVOD., WELD. J., ELECTROSLAG WELDING FOR MARINE APPLICATIONS, X PSbSnAs X +++ = (EQ 16) X X J, J J (EQ 17) INTRODUCTION TO THE PHYSICAL METALLURGY OF WELDING, WELD. J., AVTOM. SVARKA, SIGNIFICANCE OF DEFECTS IN WELDED STRUCTURES, WELDING AND FABRICAT ION IN THE NUCLEAR INDUSTRY, THE APPLICATION OF 2-1 4CR-1MO STEEL FOR THICK WALL PRESSURE VESSELS, FATIGUE TESTING OF WELDMENTS, AWS WELDING HANDBOOK, WRC BULL., ELECTROSLAG WELDING, METALL. TRANS. B, ELECTROSLAG WELDING FOR MARINE APPLICATIONS, WELD. J., KAWASAKI STEEL TECH. REP., WELD. J., GRAIN REFINEMENT IN CASTINGS AND WELDS, WELD. J., ADVANCES IN WELDING SCIENCE AND TECHNOLOGY, BRIT. WELD. J., AVTOM. SVARKA, BUR. MINES BULL., J. INST. MET., MODELING OF CASTING AND WELDING PROCESSES II, WELDING RESEARCH: THE STATE OF THE ART, SVAR. PROIZVOD., J. JPN. WELD. SOC., SVT. SVARKA, IND. WELD. J., WELD. J., ET AL., WELD. RES. ABROAD, WELD. J., WELD. J., MET. FABR., WELD. MET. FABR., MET. PROGR., ET AL., AVTOM. SVARKA, ELECTROSLAG WELDING FOR MARINE APPLICATIONS, FWP J., WELDING RESEARCH RELATED TO POWER PLANT, MET. MATER., WELD. J., TRANS. JAP. WELD. SOC., AVTOM. SVARKA, AUTOM. WELD., AVTOM. SVARKA, ET AL., SVAR. PROIZVOD., SVAR. PROIZVOD., ZVRACSKE SPRAVY/WELDING NEWS, WELD. INST. RES. BULL., ET AL., SVAR. PROIZVOD., WELD. J., ELECTROSLAG WELDING FOR MARINE APPLICATIONS, INTRODUCTION TO THE PHYSICAL METALLURGY OF WELDING, WELD. J., AVTOM. SVARKA, SIGNIFICANCE OF DEFECTS IN WELDED STRUCTURES, WELDING AND FABRICAT ION IN THE NUCLEAR INDUSTRY, THE APPLICATION OF 2-1 4CR-1MO STEEL FOR THICK WALL PRESSURE VESSELS, FATIGUE TESTING OF WELDMENTS, Metals Handbook. TABLE 1 FERROUS AND NONFERROUS METALS THAT CAN BE WELDED BY OXYACETYLENE WELDING Base metal Filler-metal type Flame type Flux type [...]... TYPICAL TIP-ORIFICE SIZES AND ACETYLENE CONSUMPTION FOR OXYFUEL GAS WELDING OF 0.25 TO 6. 4 MM (0.010 TO IN.) THICK STEEL THICKNESS OF STEEL TIP-ORIFICE SIZE DIAMETER MM IN MM IN DRILL NO M3/H ≤ ≤ ≤ ≤ ≤ ≤ 1 1 1 -2 1-4 4 -6 6- 1 0 1 0-1 7 6. 4 • • • • • • • • 1.7 8-2 . 06 0.070 0-0 .0810 5 0-4 6 0.4 8-0 .85 1 7-3 0 • • → (EQ 1) → (EQ 2) → (EQ 3) MODERN WELDING TECHNOLOGY, → → → AWS MINIMUM TENSILE (EQ 4) (EQ 5) (EQ 6) CLASSIFICATION... 1.7 8-2 . 06 0.070 0-0 .0810 5 0-4 6 0.4 8-0 .85 1 7-3 0 • • → (EQ 1) → (EQ 2) → (EQ 3) MODERN WELDING TECHNOLOGY, → → → AWS MINIMUM TENSILE (EQ 4) (EQ 5) (EQ 6) CLASSIFICATION STRENGTH(A) MPA KSI RG45 310 45 D 16 20 ≤ ≤ ≤ • • • • • • • • • MODERN WELDING TECHNOLOGY, MODERN WELDING TECHNOLOGY, → metal → → → → . 0.25 TO 6. 4 MM (0.010 TO IN.) THICK STEEL TIP-ORIFICE SIZETHICKNESS OF STEEL DIAMETER MM IN. MM IN. DRILL NO. M 3 /H ≤ ≤ 1 ≤ ≤ 1 ≤ ≤ 1 -2 1-4 4 -6 6- 1 0 1 0-1 7 6. 4 1.7 8-2 . 06 0.070 0-0 .0810. NO. M 3 /H ≤ ≤ 1 ≤ ≤ 1 ≤ ≤ 1 -2 1-4 4 -6 6- 1 0 1 0-1 7 6. 4 1.7 8-2 . 06 0.070 0-0 .0810 5 0-4 6 0.4 8-0 .85 1 7-3 0 • • • • • • • • • • → (EQ 1) → (EQ 2) → (EQ 3)