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D urability of Concrete

D urability of Concrete. Contents. What is durability of concrete Why study it What is the situation now What to study How to enhance durability. D urability.

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D urability of Concrete

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  1. Durability of Concrete

  2. Contents • What is durabilityof concrete • Why study it • What is the situation now • What to study • How to enhance durability

  3. Durability • It can meet high security, function and appearance requirement in the estimated period as designed without much additional maintenance, taken natural environment engineering environment and structural internal factors into consideration. • Global topic and focus in civil engineering.

  4. Necessary of Research • Infrastructure constructions mostly use concrete • Capital construction in three phases • Phase I new construction • Phase II new construction and maintenance • Phase III maintenance • Most developed countries in Phase III • It is reported that we are in Phase II. Durability of concrete structure is more serious than security problem. • Durability study is very important for new structure and maintenance.

  5. What is the international situation • The US • It is reported that 130 billion dollars are needed for over 29% bridges , more than 1/3 roadsand and 2100 unstable dam, by American Civil Engineering Society in1998. • There are one million bridges in the US, of which a quarter need maintenance by the end of the 20th Century. • In the US, 10% of the total infrastructure construction capital goes to maintenance per year.

  6. What is the international situation • In Britain, it is reported that 1/3 bridges need maintenance. Britain lost 600 million pounds in 1996. • Canada spends about 500 billion dollars in maintaining degradation destruction. • Japan spends 40 billion yuan in structure maintenance every year.

  7. Our Situation • Our situation is what developed countries experienced decades ago. • Concrete beam of Beilun Harbor in Ning Bo-11 years since bulit. Fig.1 Concrete beam of Beilun Harbor in Ning Bo-11 years since bulit

  8. Fig.2 Pictures of degradation in foreign countries

  9. Aspects of Durability Study • Environment • atmospheric environment • sea environment • soil environment • industry environment • Material • corrosion of reinforcing bar • alkali-aggregate reaction • carbonation、fire damage、soundness • hydrate-chemical corrosion、fire、dimensional stability • pore structure-permeability、chlorine ion permeation、frost resistance

  10. Aspects of Durability Study • Model • model of rupture due to corrosion expansion • model of reducing cohesion • model of bearing strength change • Structure • design • evaluation

  11. Corrosion of Reinforcing Bars Reinforcing bars in concrete with high alkali can form oxidized passive film, which can separate water and oxygen from metal to prevent corrosion. Reinforcing bars are corroded due to permeation of chlorine and carbonation which destroy passive film. Chlorine ions disperse from surface of concrete to surface of bars. When the concentration of chlorine ions is formulated to the critical state, the passive film destroyed. When carbonation of concrete is developed to the surface of bars, the passive film is destroyed. Corrosion caused by chlorinemore serious than corrosion by carbonation.

  12. Corrosion of reinforcing bars (Cl-) • Chlorine ions penetrate to the surface of reinforcing bars from the protective layer,destroy passive film, and change bars from passive state into active state. Fig.3Destroyed passive film

  13. Factors affecting corrosion of reinforcing bars Critical concentration of chlorine ions It refers to concentration which is related to solidity of concrete(w/c), moisture of concrete (saturated water), when reinforcing bars change from passive state. Resistance of concrete It is related with moisture and solidity. Supplement degree of oxygen and water It is related with concrete solidity and water percentage in concrete.

  14. Tab.1 Relative humidity effecting on corrosion ratio of reinforcing bars(µm/a)

  15. Methods based on model of degradation Report of RILEM-130 Committee Durability design of concrete structure 1996 DuraCrete Concrete Durability Design 2000 ACI Life-365 Computer Program 2000 Japanese Civil Engineering Society Standards 2002 So far,degradation model of carbonation and chlorine corrosion can be used for reference in constructions.

  16. Alkali-aggregate reaction • It refers to self chemical corrosion. Sand and gravel aggregate mixed with active mineral composites react with alkali. When meeting water, it forms a certain kind of gelled paste leading to volume expansion. • Conditions of alkali-aggregate reaction: potentially active aggregate enough content of alkali enough water

  17. Destruction of freezing and thawing of concrete • Capillary pore water in concrete expands after freezing, and produces strong pressure which causes failure, rupture and scaling. • Saturation of water is formulated due to repeated freezing and thawing. When it reaches the critical saturation, concrete will be destroyed by freezing. • The effective way to prevent freezing and thawing destruction is to add chemical air-entraining agent. • Concrete can absorb enough water when froze with salty water and cement paste will produce osmotic pressure and water pressure, which will make concrete coating scaling or eroding with holes.

  18. Chemical corrosion of concrete • Sulfate mixing with Ca(OH)2 and C3AH6 in cement hydration produces calcium sulfate and ettringite. It produces volume expansion and rupture. • The concentration of sulfate in capillary pore water increases continuously till it reaches excessive saturation with crystals, the pressure is so strong that concrete is destroyed. • The resistance to acidity of silicate cement concrete is weak. If the touched water shows acid(PH<6.5), there will be problems.

  19. Degradation of concrete and reinforcing bars all need water or as media. • To prevent water, gas such as oxygen, carbon dioxide, harmful molecules such as salt, and acid and ions to concrete, the basic way is as follows: -to enhance self solidity and resistance to rupture -to increase the thickness of protective layer and delay harmful materials reaching reinforcing bars

  20. Reasons of Insufficient Durability • low durability standard of engineering design • Improper construction arrangement • Lack of regular detection and repair • Low safety standard of component strength design • Significant changes in cement properties, concrete curing and environment conditions over the past ten years

  21. Tab.2 Comparison between China (in the 1980s)and other countries Japan sets higher standards (Min=C35,C45 for 100 years)

  22. Improper construction arrangement • Poor curing can reduce permeability of concrete surface by times, and reduce limitation when reinforcing bars begin with corrosion. One-day and seven-day curing can reduced the corrosion limitation into one quarter of that of before. • Rush construction will miss the required checking steps, which also makes steels leaving their original positions. • If the coating width reduces to half of the original, it will cause the corrosion limitation into one quarter of that of before. • The permitted 5-10mm coating width difference in the construction can bring out huge differences in the corrosion limitation by times. • Various construction, seam and waterproof layer are the weakest point in durability. They can hardly be guaranteed in the quick construction.

  23. Fig.4 Curing influence on W/C varied concrete to air permeability

  24. Measures to enhance durability of concrete • Basic protection • to enhance solidity • to increase protective thickness • to use chemical admixture • to use mineral admixture • Adjunct measures • protection of bar coating • reinforcing corrosion-resisted bar • electrochemical protection • sacrificial anode • protection with external electric current • protection of concrete coating

  25. Epoxy coating of reinforcing bar surface and corrosion-resisted reinforcing bar • Reinforcing bar with epoxy coating • Applied the most widely in construction • One of sufficient measures to prevent corrosion • Reinforcing corrosion-resisted bar • Japanese alloyed steel reinforcing bar • Stainless reinforcing bar in the US, Canada and Europe • High cost • New materials in recent years-- inert material: fibre-plastic bar • Kinds: carbon fibre, poly fibre, glass fibre • Excellent characteristics:resistance to corrosion, light weight, high strength, no magnetic

  26. Tab.3 Purposes and methods of international durability maintenance

  27. Pressure grouting

  28. Penetration strengthening techniques

  29. Applications in Railway

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