Franssen, Jean-Marc ; Université de Liège - ULiège > Département Argenco : Secteur SE > Ingénierie du feu
Jumpannen, Ula-Maija; V.T.T.
Millard, Alain; CEA
Phan, Long; National Institute for Standard and Technology
Pimienta, Pierre
Schnlangen, Eric
Language :
English
Title :
Part 10: Restraint stress
Publication date :
2005
Journal title :
Materials and Structures
ISSN :
1359-5997
eISSN :
1871-6873
Publisher :
Schneider U et al., Dordrecht, Netherlands
Volume :
38
Peer reviewed :
Peer Reviewed verified by ORBi
Commentary :
This paper has been written by the members of RILEM committee TC 200-HTC: Mechanical concrete properties at high temperature - Modelling and applications
Schneider, U. and Schwesinger, P. (Ed.), 'Mechanical testing of concrete at high temperatures', RILEM Transaction 1, February 1990, ISBN: 3-88122-565-X, p.72
RILEM TC 129-MHT 'Test methods for mechanical properties of concrete at high temperatures' and RILEM TC 200-HTC 'Mechanical Concrete Properties at High Temperature - Modelling and Applications',
Part 1 : Introduction (to be published).
Part 2: Stress-strain relation (to be published).
Part 3: Compressive strength for service and accident conditions, Mater. Struct. 28 (181) (August/September 1995) 410-414.
Part 4: Tensile strength for service and accident conditions, Mater. Struct. 33 (228) (May 2000) 219-223.
Part 5: Modulus of elasticity for service and accident conditions, Mater. Struct. 37 (266) (March 2004) 139-144.
Part 6: Thermal strain, Mater. Struct. 30 (196) (Supplement March 1997) 17-21.
Part 7: Transient creep for service and accident conditions, Mater. Struct. 31 (209) (June 1998) 290-295.
Part 8: Steady-state creep and creep recovery for service and accident conditions, Mater. Struct. 33 (225) (January-February 2000) 6-13.
Part 9: Shrinkage for service and accident conditions, Mater. Struct. 33 (228) (May 2000) 224-228.
