SCOPUS 정보 검색 플랫폼

Materials and Structures/Materiaux et Constructions

Volumn 40, Issue 9, 2007, Pages 841-853

Recommendation of RILEM TC 200-HTC: Mechanical concrete properties at high temperatures-modelling and applications : PGeneral presentation

(16) Schneider, U a,b Felicetti, R a Debicki, G a Diederichs, U a Franssen, J M a Jumppanen, U M a Khoury, G A a Leonovich, S a Millard, A a Morris, W A a Phan, L T a Pimienta, P a Rodrigues, J P C a Schlangen, E a Schwesinger, P a Zaytsev, Y a

a Technische Universität Wien ^*

b VIENNA UNIVERSITY OF TECHNOLOGY (Austria)

Author keywords

[No Author keywords available]

Indexed keywords

BUILDING MATERIALS; CONSTRUCTION EQUIPMENT; HIGH TEMPERATURE EFFECTS; MECHANICAL PROPERTIES;

CONSTRUCTION ACTIVITIES; HIGH TEMPERATURES MODELING; STRUCTURAL CONCRETES;

CONCRETES;

EID: 35048816400 PISSN: 13595997 EISSN: None Source Type: Journal
DOI: 10.1617/s11527-007-9285-2 Document Type: Article

Times cited : (73)

References (2)

1
- 1842528670
- Mechanical testing of concrete at high temperatures
- Schneider U, Schwesinger P (eds) February ISBN: 3-88122-565-X, 72
- Schneider U, Schwesinger P (eds) (1990) Mechanical testing of concrete at high temperatures. RILEM Transaction 1, February 1990, ISBN: 3-88122-565-X, 72
- (1990) RILEM Transaction , vol.1

2
- 35048871873
- RILEM TC 129 MHT doi: 10.1617/s11527-007-9286-1 ; Part 3: Compressive strength for service and accident conditions (1995) Materials and Structures 28:410-414; Part 4: Tensile strength for service and accident conditions (2000) Materials and Structures 33:219-223; Part 5: Modulus of elasticity for service and accident conditions (2004) Materials and Structures 37:139-144; Part 6: Thermal strain (1997) Materials and Structures, Supplement March, 17-21; Part 7: Transient creep for service and accident conditions (1998) Materials and Structures 31:290-295; Part 8: Steady-state creep and creep recovery for service and accident conditions (2000) Materials and Structures 33:6-13; Part 9
- 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 Materials und Structures doi: 10.1617/s11527-007-9285-2 ; Part 2: Stress-strain relation Materials und Structures doi: 10.1617/s11527-007-9286-1 ; Part 3: Compressive strength for service and accident conditions (1995) Materials and Structures 28:410-414; Part 4: Tensile strength for service and accident conditions (2000) Materials and Structures 33:219-223; Part 5: Modulus of elasticity for service and accident conditions (2004) Materials and Structures 37:139-144; Part 6: Thermal strain (1997) Materials and Structures, Supplement March, 17-21; Part 7: Transient creep for service and accident conditions (1998) Materials and Structures 31:290-295; Part 8: Steady-state creep and creep recovery for service and accident conditions (2000) Materials and Structures 33:6-13; Part 9: Shrinkage for service and accident conditions (2000) Materials and Structures 33:224-228; Part 10: Restraint stress (2005) Materials und Structures 38:913-919; Part 11: Relaxation (2007) Materials und Structures 40:449-458
- 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 Materials und Structures

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.