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Steels continued stress-corrosion cracking

Stress-corrosion cracking (Section 8.10) New metal/environment combinations which produce stress-corrosion cracking are continually being found. Combinations discovered in service in recent years include titanium in red fuming nitric acid carbon steel in liquid anhydrous ammonia and in... [Pg.19]

New alloys with improved corrosion-resistance characteristics are continually being marketed, and are aimed at solving a particular problem, e.g. improved stress-corrosion cracking resistance in the case of stainless steels improved pitting resistance or less susceptibility to welding difficulties. [Pg.26]

Additionally, specific environmental conditions can induce localized corrosion such as temperature, conductivity of the corrosive fluid, or thickness of the liquid corrosive film in contact with the metal. In some cases, both metallurgical and geometric factors will influence behavior, such as in stress-corrosion cracking. Preferential weldment corrosion of carbon steels has been investigated since the 1950s, commencing with the problems on icebreakers, but the problem continues today in different applications. (Bond)5... [Pg.379]

Stress corrosion cracking is a form of localized corrosion, where the simultaneous presence of tensile stresses and a specific corrosive environment prodnces metal cracks [157, 168]. Stress corrosion cracking generally occnrs only in alloys (e.g., Cn-Zn, Cu-Al, Cu-Si, austenitic stainless steels, titaninm alloys, and zirconinm alloys) and only when the alloy is exposed to a specific environment (e.g., brass in ammonia or a titaninm alloy in chloride solutions). Removal of either the stress on the metal (which must have a surface tensile component) or the corrosive environment will prevent crack initiation or cause the arrest of cracks that have already propagated. Stress corrosion cracking often occurs where the protective passive film breaks down. The continual plastic deformation of the metal at the tip of the crack prevents repassivation of the metal surface and allows for continued localized metal corrosion. [Pg.1815]

Some boilers are equipped with an embrittlement detector by means of which the chemical treatment of a water can be evaluated continuously in terms of its potential ability to induce stress-corrosion cracking (Fig. 18.3) [13]. A specimen of plastically deformed boiler steel is stressed by setting a screw adjustment of this screw regulates a slight leak of hot boiler water in the region where the specimen is subject to maximum tensile stress and where boiler water evaporates. A boiler water is considered to have no embrittling tendency if specimens do not crack within successive 30-, 60-, and 90-day tests. Observation of the detector is... [Pg.324]

See other pages where Steels continued stress-corrosion cracking is mentioned: [Pg.114]    [Pg.194]    [Pg.905]    [Pg.1161]    [Pg.1199]    [Pg.1304]    [Pg.1375]    [Pg.20]    [Pg.327]    [Pg.106]    [Pg.83]    [Pg.782]    [Pg.426]    [Pg.331]    [Pg.49]    [Pg.341]    [Pg.1781]    [Pg.317]    [Pg.800]    [Pg.1194]    [Pg.1232]    [Pg.1337]    [Pg.1408]    [Pg.19]    [Pg.27]    [Pg.46]    [Pg.163]    [Pg.113]    [Pg.475]    [Pg.645]    [Pg.490]    [Pg.651]    [Pg.674]    [Pg.690]    [Pg.691]    [Pg.700]   
See also in sourсe #XX -- [ Pg.3 , Pg.7 , Pg.8 , Pg.13 , Pg.15 , Pg.18 , Pg.21 , Pg.32 , Pg.52 , Pg.53 , Pg.54 , Pg.55 , Pg.56 , Pg.57 , Pg.58 , Pg.70 , Pg.83 , Pg.84 , Pg.109 , Pg.235 ]

See also in sourсe #XX -- [ Pg.3 , Pg.7 , Pg.8 , Pg.13 , Pg.15 , Pg.18 , Pg.21 , Pg.23 , Pg.32 , Pg.52 , Pg.53 , Pg.54 , Pg.55 , Pg.56 , Pg.57 , Pg.58 , Pg.70 , Pg.83 , Pg.84 , Pg.109 , Pg.235 , Pg.838 ]



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Stress (continued

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Stress crack corrosion

Stress steels

Stress-corrosion cracking

Stress—Continue

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