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Corrosive stress

Localized corrosion, which occurs when the anodic sites remain stationary, is a more serious industrial problem. Forms of localized corrosion include pitting, selective leaching (eg, dezincification), galvanic corrosion, crevice or underdeposit corrosion, intergranular corrosion, stress corrosion cracking, and microbiologicaHy influenced corrosion. Another form of corrosion, which caimot be accurately categorized as either uniform or localized, is erosion corrosion. [Pg.266]

Evaluation of Results After the specimens have been reweighed, they should be examined carefully. LocaHzed attack such as pits, crevice corrosion, stress-acceleratedcorrosion, crackiug, or intergranular corrosion should be measured for depth and area affected. [Pg.2427]

Concentrating on overall or general corrosion. Ignoring pitting, crevice corrosion, stress corrosion, cracking, etc. [Pg.271]

The forms of corrosion which can be controlled by cathodic protection include all forms of general corrosion, pitting corrosion, graphitic corrosion, crevice corrosion, stress-corrosion cracking, corrosion fatigue, cavitation corrosion, bacterial corrosion, etc. This section deals exclusively with the practical application of cathodic protection principally using the impressed-current method. The application of cathodic protection using sacrificial anodes is dealt with in Section 10.2. [Pg.199]

Localised Corrosion (or localised attack) accelerated corrosion at certain sites only of a metal surface, usually induced by spatial separation of the anodic and cathodic sites. Examples include pitting corrosion, stress-corrosion cracking and intergranular corrosion. [Pg.1370]

It is possible that greater porosity in shale beds could be achieved by chemical comminution of the shale. For example, the treatment of western oil shales with acid solutions might result in comminution by inducing corrosive stress fracture of the carbonate rock. Chemical engineering research in this area, as well in the elucidation of oil-rock interactions, might provide insights for new strategies for oil shale production. [Pg.99]

Environmental Cracking The problem of environmental cracking of metals and their alloys is very important. Of all the failure mechanism tests, the test for stress corrosion cracking (SCC) is the most illusive. Stress corrosion is the acceleration of the rate of corrosion damage by static stress. SCC, the limiting case, is the spontaneous cracking that may result from combined effects of stress and corrosion. It is important to differentiate clearly between stress corrosion cracking and stress accelerated corrosion. Stress corro-... [Pg.22]

The problems common to SCWO technologies have also been studied. These include reactor vessel corrosion, stress cracking, and salt plugging. [Pg.1010]

A more serious threat to the materials compatibility of CNG fuel systems is condensed water vapor. Water can cause steel and cast iron to rust and aluminum to corrode. Any corrosion of components that must withstand high pressures is a concern, since corrosion stress cracking can occur which can result in failure of the component with disastrous results. The presence of water greatly accelerates the corrosion properties of the hydrogen sulfide that might be found in the natural gas. For these reasons it has been recommended that the way to control corrosion in CNG systems is to remove sufficient water vapor to prevent it from condensing in the system under static conditions [3.13]. Natural gas dryers have been developed to help reach this goal. [Pg.85]

Processes in which corrosion-resistant basic materials are required due to the high corrosion stress, and the crest welding still needs to guarantee good friction characteristics for the screw/cylinder system, and... [Pg.312]

FIG. 26.11 Critical corrosion stress as a function of pH (after Van den Heuvel and Klop, 2002). [Pg.865]

Tests for aluminum and its alloys consist of intergranular corrosion, stress corrosion cracking and corrosion fatigue as detailed below ... [Pg.116]

This method is the simplest of all the methods and is capable of detecting surface flaws such as corrosion, contamination, surface finish and surface discontinuities on joints.47 The discontinuities on joints such as welds, seals, solder connections and adhesive bonds can be detected. General corrosion, qualitative pitting corrosion, stress-corrosion cracking, weld-heat-affected zone attack, erosion corrosion and other type of degradation can be observed by visual examination aided by microscopes with sufficient magnification. Degradation of plastics can also be detected by visual examination. Visual examination is also used in conjunction with other techniques, such as powerful microscopes. [Pg.127]

A program for acoustic emission under the name Monopac was developed for external and internal corrosion, stress corrosion cracking and weld cracking.55 This program consists of the test procedures as well as case histories. [Pg.143]

Corrosion, stress Corrosion fatigue, stress-corrosion cracking... [Pg.151]

Corrosion, stress, temperature Sulfide stress cracking... [Pg.151]

Pitting corrosion Intergranular corrosion Stress-corrosion cracking Selectively leaching Erosion-corrosion... [Pg.164]

Rare earth metal salts Aircraft industry. Effective for pitting corrosion, stress corrosion cracking, corrosion fatigue, galvanic corrosion and crevice corrosion by using rare earth metal salts in waters for washing aircraft. Disposal of the waters is environmentally safe [4,6]... [Pg.902]

See other pages where Corrosive stress is mentioned: [Pg.405]    [Pg.66]    [Pg.370]    [Pg.2435]    [Pg.162]    [Pg.11]    [Pg.66]    [Pg.342]    [Pg.529]    [Pg.268]    [Pg.272]    [Pg.34]    [Pg.34]    [Pg.35]    [Pg.497]    [Pg.596]    [Pg.609]    [Pg.49]    [Pg.175]    [Pg.137]    [Pg.318]    [Pg.338]    [Pg.339]    [Pg.118]    [Pg.118]    [Pg.182]    [Pg.2190]    [Pg.370]    [Pg.220]   
See also in sourсe #XX -- [ Pg.105 ]



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Aircraft stress-corrosion cracking

Airfoil-stress-corrosion

Alloys stress corrosion cracking

Aluminium stress corrosion cracking

Aluminium-copper alloys stress-corrosion cracking

Aluminium-magnesium alloys stress-corrosion cracking

Aluminum alloys high-strength products, stress-corrosion

Aluminum alloys stress-corrosion cracking

Amines stress corrosion cracking

Ammonia stress corrosion cracking

Anodic stress-corrosion cracking

Aqueous environment stress cracking corrosion

Austenitic stainless steel stress-corrosion cracking

Austenitic stress corrosion cracking

Bent-beam stress-corrosion test specimen

Boilers stress corrosion cracking

Brass stress corrosion

Brass stress-corrosion cracking

Carbon stress corrosion cracking

Carbonate stress corrosion cracking

Chloride-induced stress corrosion

Chloride-induced stress corrosion cracking

Chlorides, stress-corrosion cracking

Chlorides, stress-corrosion cracking aqueous, environment-alloy

Chlorides, stress-corrosion cracking boiling, environment-alloy

Chlorides, stress-corrosion cracking combinations resulting

Chlorides, stress-corrosion cracking concentrated, environment-alloy

Cobalt-base alloys stress corrosion cracking

Constructional alloy steel, stress-corrosion

Contents Stress Corrosion Cracking

Copper alloys stress-corrosion cracking

Copper nickel alloys stress-corrosion cracking

Copper stress-corrosion cracking

Copper-zinc alloys stress-corrosion cracking

Copper-zinc alloys stress-corrosion cracking evaluated using

Corrosion effect of stress

Corrosion fatigue crack stress concentration

Corrosion fatigue cracking stress ratio

Corrosion fatigue cyclic stress

Corrosion fatigue mean stress

Corrosion fatigue stress

Corrosion fatigue stress amplitude

Corrosion fatigue stress intensity

Corrosion fatigue stress ratio

Corrosion features stress

Corrosion reactions, stress

Corrosion testing continued stress effects

Corrosion types stress

Corrosion. Also stress cracking

Direct tension stress corrosion test

Direct tension stress corrosion test specimens (ASTM

Duplex stainless steels stress-corrosion cracking

Duplex stress corrosion cracking

Dynamic testing, stress corrosion

Electrochemical factors, stress corrosion

Environmental Stress Corrosion Cracking

Environmental factors, stress corrosion

Environmental factors, stress corrosion cracking

Environmental stress corrosion

Failure, stress-corrosion

Fatigue stress corrosion cracking

Ferritic stainless steels stress-corrosion cracking

Fracture Mechanics Approach to Stress Corrosion

Fracture corrosion stress

General stress corrosion

Heat treatment effect on stress-corrosion cracking

High-temperature corrosion continued stress effects

Hydrogen concentration, stress corrosion

Hydrogen concentration, stress corrosion cracking

Hydrogen induced stress-corrosion cracking

Hydrogen related stress corrosion cracking

Hydrogen stress corrosion cracking

Hydrogen sulfide stress corrosion cracking

Hydrogen-assisted stress corrosion

Hydrogen-assisted stress corrosion cracking

Hydrogen-induced stress corrosion

Hydroxides affecting stress-corrosion cracking

Hydroxides stress-corrosion cracking

INDEX stress-corrosion cracking

Incubation time stress corrosion

Industrial applications stress corrosion cracking

Industrial problems stress-corrosion cracking

Insulation, stress-corrosion cracking

Intergranular stress corrosion

Intergranular stress corrosion cracking

Intergranular stress corrosion cracking alloy

Intergranular stress corrosion cracking sensitized

Intergranular stress-corrosion cracking IGSCC)

Intergranular stress-corrosion cracking mechanisms

Iron-chromium-nickel alloys stress-corrosion cracking

Irradiation effects stress corrosion cracking

Irradiation-assisted stress corrosion cracking

Liquid ammonia, stress corrosion cracking

Magnesium alloys stress-corrosion cracking

Magnesium chloride solution, stress-corrosion

Magnesium stress-corrosion cracking

Mechanical properties stress corrosion

Mechanisms, stress-corrosion

Mercury causing stress-corrosion cracking

Metal-matrix composites stress corrosion

Metallurgy stress corrosion cracking

Metals nitrate stress corrosion

Metals processing stress-corrosion cracking

Metals stress-crack corrosion

Methanolic environments, stress corrosion cracking

Monel, stress corrosion cracking

Nickel alloys stress-corrosion cracking

Nickel alloys, environment-alloy stress-corrosion cracking

Nickel content, stress corrosion cracking

Nickel stress corrosion cracking

Nickel-base alloys stress-corrosion cracking

Nickel-chromium-iron alloys, stress-corrosion

Nickel-iron alloys stress-corrosion cracking

Nitrate solutions, stress corrosion cracking

Nuclear power plants stress-corrosion cracking

Nucleation, stress corrosion cracking

Organic coatings stress corrosion

Pipelines stress-corrosion cracking

Potential for stress-corrosion cracking

Promoter solutions, stress corrosion cracking

Sodium chloride stress-corrosion cracking resistance

Soils stress-corrosion cracking

Solution concentration upon stress-corrosion

Stainless steels stress corrosion cracking

Stainless steels stress-corrosion cracking, hydrogen

Steels continued stress-corrosion cracking

Steels stress corrosion

Steels stress-corrosion cracking

Steels stress-corrosion, practical

Strain rate effects upon stress corrosion

Strength Stress corrosion cracking

Stress Corrosion Cracking (SCC) and SRB

Stress Corrosion Cracking and Embrittlement

Stress Corrosion Cracking of Polymers

Stress and High Temperature-Related Corrosion

Stress corrosion

Stress corrosion affected

Stress corrosion and

Stress corrosion crack velocity

Stress corrosion cracking (SCC) mechanisms

Stress corrosion cracking (SCC) of magnesium (Mg) alloys

Stress corrosion cracking accelerating ions

Stress corrosion cracking active path mechanisms

Stress corrosion cracking alloy composition

Stress corrosion cracking alloy influences

Stress corrosion cracking alloying additions

Stress corrosion cracking alloying element

Stress corrosion cracking aluminium alloys

Stress corrosion cracking aluminum

Stress corrosion cracking aluminum content

Stress corrosion cracking austenitic steels

Stress corrosion cracking beryllium

Stress corrosion cracking carbide precipitation

Stress corrosion cracking carbon steel

Stress corrosion cracking cases

Stress corrosion cracking cast iron

Stress corrosion cracking caustic

Stress corrosion cracking characteristics

Stress corrosion cracking characterization

Stress corrosion cracking chemical plant

Stress corrosion cracking cold work

Stress corrosion cracking composition

Stress corrosion cracking constant extension rate test

Stress corrosion cracking continued

Stress corrosion cracking crack external surface

Stress corrosion cracking crack fronts

Stress corrosion cracking crack initiation

Stress corrosion cracking crack morphology

Stress corrosion cracking crack path

Stress corrosion cracking crack propagation mechanisms

Stress corrosion cracking crack tip

Stress corrosion cracking crack velocity

Stress corrosion cracking curves

Stress corrosion cracking dealloying

Stress corrosion cracking dissolution processes

Stress corrosion cracking duplex structure

Stress corrosion cracking effect

Stress corrosion cracking electrochemical effects

Stress corrosion cracking electrochemical potential

Stress corrosion cracking electrochemical techniques

Stress corrosion cracking environmental alloy combinations

Stress corrosion cracking environmental aspects

Stress corrosion cracking environmental considerations

Stress corrosion cracking environmental influences

Stress corrosion cracking environments

Stress corrosion cracking environments promoting

Stress corrosion cracking factors

Stress corrosion cracking failure

Stress corrosion cracking ferritic steels

Stress corrosion cracking fractography

Stress corrosion cracking fracture mechanics

Stress corrosion cracking fracture mechanics testing

Stress corrosion cracking grain boundary segregation

Stress corrosion cracking grain size

Stress corrosion cracking heat treatment

Stress corrosion cracking high-temperature water

Stress corrosion cracking hydrides

Stress corrosion cracking hydrogen damage

Stress corrosion cracking hydrogen embrittlement

Stress corrosion cracking hydrogen water chemistry

Stress corrosion cracking in alloys

Stress corrosion cracking in stainless steels

Stress corrosion cracking induced

Stress corrosion cracking inhibitors

Stress corrosion cracking loading

Stress corrosion cracking local anode

Stress corrosion cracking local cathode

Stress corrosion cracking manganese

Stress corrosion cracking material parameters

Stress corrosion cracking materials affecting

Stress corrosion cracking mechanism

Stress corrosion cracking metallurgical factors

Stress corrosion cracking models

Stress corrosion cracking morphology

Stress corrosion cracking nitrate

Stress corrosion cracking other elements

Stress corrosion cracking oxygen levels

Stress corrosion cracking performance

Stress corrosion cracking polythionic acid

Stress corrosion cracking practical solution

Stress corrosion cracking precracked specimens

Stress corrosion cracking prevention

Stress corrosion cracking principles

Stress corrosion cracking propagation models

Stress corrosion cracking pure magnesium

Stress corrosion cracking solution

Stress corrosion cracking standards

Stress corrosion cracking structure

Stress corrosion cracking surface

Stress corrosion cracking surface treatments

Stress corrosion cracking susceptibility

Stress corrosion cracking techniques

Stress corrosion cracking test environments

Stress corrosion cracking test method

Stress corrosion cracking test specimens

Stress corrosion cracking testing

Stress corrosion cracking testing methods

Stress corrosion cracking testing techniques

Stress corrosion cracking transgranular

Stress corrosion cracking welding

Stress corrosion cracking welds

Stress corrosion cracking zirconium

Stress corrosion cracking, consequences

Stress corrosion cracking, tests

Stress corrosion estimation

Stress corrosion passive metals

Stress corrosion susceptibility coefficient

Stress corrosion test specimens

Stress corrosion threshold

Stress corrosion tubes

Stress corrosion under

Stress corrosion well casings

Stress corrosion, solvent-induced

Stress crack corrosion

Stress cracking corrosion elasticity

Stress cracking, corrosion and

Stress effects corrosion testing

Stress effects high-temperature corrosion

Stress-assisted intergranular corrosion

Stress-corrosion Cracking (SCC)

Stress-corrosion crack growth rate

Stress-corrosion cracking

Stress-corrosion cracking Environment-sensitive

Stress-corrosion cracking case histories

Stress-corrosion cracking cautions

Stress-corrosion cracking corrodent

Stress-corrosion cracking corrodent concentration

Stress-corrosion cracking critical factors

Stress-corrosion cracking definition

Stress-corrosion cracking elimination

Stress-corrosion cracking identification

Stress-corrosion cracking locations

Stress-corrosion cracking mechanisms alloys

Stress-corrosion cracking mechanisms anodic current density

Stress-corrosion cracking mechanisms appearance

Stress-corrosion cracking mechanisms crack velocity

Stress-corrosion cracking mechanisms definition

Stress-corrosion cracking mechanisms electrochemistry

Stress-corrosion cracking mechanisms fracture surfaces

Stress-corrosion cracking resistance

Stress-corrosion cracking specific corrodent

Stress-corrosion cracking test of low

Stress-corrosion cracking, discussion

Stress-corrosion critical crack depth

Stress-corrosion definition

Stress-corrosion of stainless steels

Sulfide stress cracking, corrosion

Surgical implants stress corrosion cracking

Susceptibility to Stress Corrosion

Systems exhibiting stress-corrosion

Systems exhibiting stress-corrosion cracking

Temperature stress corrosion cracking

Tensile stress, corrosion

Threshold Stress Intensity Factor for Corrosion

Titanium alloys in stress-corrosion cracking

Titanium alloys stress-corrosion cracking

Titanium stress-corrosion cracking

Transgranular stress corrosion

Transgranular stress corrosion cracking model

Transgranular stress-corrosion mechanisms

U-bend stress-corrosion test specimens

Weldment stress corrosion test specimen

Weldments stress-corrosion cracking

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