… should be between 100°C (212 °F) and 150°C (302 °F) . As welding flux FL 155 should be used because of its high basicity and low …

… Factor (X < 10 ppm) for temper embrittlement resistant applications. Fluxes FL 180 and FL 155 … Typ 1Cr0,5Mo, ISO 15608: ~5,1 1.7335, …

… alternative for „stelliting“ . Best to be used with FL 8111 welding flux.  … Hot working tools such as: Stamping dies and Continuous …

… AA 317L is a rutile flux cored wire with easy removable slag support for high productivity …

… to 1150 °C. When welding CEWELD 4820 AC low heat-input is required as alloys of such chemistry are sensitive to embrittlement at 600-800 °C. …

… temperature creep resistance compared to standard CrMo creep resistant alloys. … For matching P92, 9%Cr1.7%W0.5%Mo, creep resisting …

… CEWELD® AlSi12 Tig was originally developed as a brazing alloy to take advantage of its low melting point and narrow …

… machined. CEWELD® SACW 4820 should be welded with CEWELD® FL 838 SAW flux. … 1.4340, 1.4710, 1.4745, 1.4746, 1.4712, 1.4762, 1.4713, 1.4773, …

… FL 160 is a highly basic SAW flux with low hydrogen content. Basicity: about 3 (according to …

… Special alloy for welding aluminium-magnesium based alloys with maximum 5% Mg. Zirconium added as grain refiner to improve both the bending and corrosion resistance. … Aluminium alloys: AlMg4,5Mn, AlZnMgCu1,5, AlMg5, AlMg3, AlMg5, AlMg2Mn0.8, …