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A platform for research: civil engineering, architecture and urbanism
Mechanism of cracking and progressive rupture of reinforced concrete pressure vessels, as well as arrangements to be provided in order that cracking and rupture conditions and respective safety factors may conform to each other, are discussed; method is given for calculating both safety factors; results obtained are discussed, stressing effect of temperature gradient on thermal expansion, resisting forces and modulus of elasticity, thermal conductivity, thermal shrinkage, and creep.
Mechanism of cracking and progressive rupture of reinforced concrete pressure vessels, as well as arrangements to be provided in order that cracking and rupture conditions and respective safety factors may conform to each other, are discussed; method is given for calculating both safety factors; results obtained are discussed, stressing effect of temperature gradient on thermal expansion, resisting forces and modulus of elasticity, thermal conductivity, thermal shrinkage, and creep.
Prestressed concrete caissons for nuclear reactors
Reflexions sur la conception des caissons en beton precontraint pour reacteurs nucleaires
Caine, Y. (author)
1965
15 pages
Article (Journal)
French
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