Quantitative assessment of structural fire endurance of concrete and shotcrete tunnel liners

Caner, Alp
Munfah, N.


Quantitative approach to rapid seismic evaluation of slab-on-girder steel highway bridges
Dicleli, Murat (1996-01-01)
A quantitative approach follows for developing a methodology for the rapid seismic evaluation and ranking of slab-on-girder steel highway bridges. In the development of this methodology, analytical expressions are introduced to calculate the seismically induced forces and displacements in bridge components, first assuming that damage to bearings is not acceptable and then removing this constraint. In the latter case, the superstructure is assumed to become unrestrained and slide on its supports. The seismic...
Quantitative analysis of the influence of strain hardening on equal channel angular pressing process
ŞİMŞİR, Caner; Karpuz, Pinar; Gür, Cemil Hakan (Elsevier BV, 2010-05-01)
Equal channel angular pressing is a promising severe plastic deformation method. The objective is to achieve high and homogeneous deformation in the workpiece. However, corner gap formed during the process has a pronounced effect on strain homogeneity and should be taken into account for proper die design. Although there exits several publications reporting the effect of strain hardening behavior of the workpiece on corner gap formation, the literature lacks a quantitative study on the subject. In this stud...
Quantitative interconnection of structural sizing with aesthetic considerations in design of long spanning bridges.
Suyolcu, Yavuz; Ünay, Ali İhsan; Karaesmen, Erhan; Department of Architecture (2002)
Quantitative assessment of thermal transmittance in building walls by in-situ Infrared Thermography
Sayın, Murat; Tavukçuoğlu, Ayşe (2017-05-15)
Statistical assessment of the quality parameters of hazelnut cracking operation with stone and conical crackers
Özdemir, Murat; Özilgen, Mustafa; Ungan, Suat; Department of Food Engineering (1996)
Citation Formats
A. Caner and N. Munfah, “Quantitative assessment of structural fire endurance of concrete and shotcrete tunnel liners,” 2005, vol. 1, Accessed: 00, 2020. [Online]. Available: https://hdl.handle.net/11511/52473.