. . "676495" . "Corrosion characteristics of thermal influenced alloy 800" . "Eurocorr 2001" . . "The constitution and properties of the Cr21Ni33TiAl steel type (alloy 800) imply that this steel has a good creep, heat and corrosion resistance. It is especially for the stainless variant with a low carbon content, alloyed with titanium and aluminium for the attainment of satisfactory technological and mechanical properties. Resistance to stress corrosion in chlorides under a variety of conditions only slightly depends on carbon content and differences in chemical composition. Drop evaporation test from dilute NaCl solution reveal the deleterious effects of low-temperature sensitising of grain boundaries to intergranular corrosion, as has been documented by testing at 450 \u00B0C for 30 000 h. Heat influence lasting 30 000 h at 650 \u00B0C, which will eliminate the susceptibility of grain boundaries to intergranular corrosion, does not impair resistance to stress corrosion cracking. Heat treatment can only little contribute to the bonding of carbon and titanium. However, this association can be promoted by p" . "Corrosion characteristics of thermal influenced alloy 800"@en . "\u010C\u00EDhal, Vladim\u00EDr" . "Blahetov\u00E1, Marie" . . . "Corrosion characteristics of thermal influenced alloy 800" . . "1-8" . "Hub\u00E1\u010Dkov\u00E1, Ji\u0159ina" . "0"^^ . . . "0"^^ . . "6"^^ . . . . . "Riva del Grada, Lake Granada, Italy" . . . . "RIV/61989100:27360/01:00001091!RIV/2002/GA0/273602/N" . . . "Lasek, Stanislav" . "5"^^ . "Associazzone Italiana di Metallurgia" . . "\u010C\u00EDhal, V. jun." . . "Corrosion characteristics of thermal influenced alloy 800"@en . . "Lake Grada" . "[0203AD7DA56C]" . "27360" . "Krhutov\u00E1, Zde\u0148ka" . "P(GA106/00/1712)" . . "alloy 800, intergranular corrosion, stress corrosion cracking, low temperature sensitization, polarization curves"@en . "8"^^ . "RIV/61989100:27360/01:00001091" . "2001-09-30+02:00"^^ . "The constitution and properties of the Cr21Ni33TiAl steel type (alloy 800) imply that this steel has a good creep, heat and corrosion resistance. It is especially for the stainless variant with a low carbon content, alloyed with titanium and aluminium for the attainment of satisfactory technological and mechanical properties. Resistance to stress corrosion in chlorides under a variety of conditions only slightly depends on carbon content and differences in chemical composition. Drop evaporation test from dilute NaCl solution reveal the deleterious effects of low-temperature sensitising of grain boundaries to intergranular corrosion, as has been documented by testing at 450 \u00B0C for 30 000 h. Heat influence lasting 30 000 h at 650 \u00B0C, which will eliminate the susceptibility of grain boundaries to intergranular corrosion, does not impair resistance to stress corrosion cracking. Heat treatment can only little contribute to the bonding of carbon and titanium. However, this association can be promoted by p"@en . "88-85298-41-9" .