An investigation of the strain in reinforced-concrete beams of unusual depth / Reinforced concrete beams

Gilkison, G. M. (Gordon Mercer), Millard, R. W.

January 1909

Thesis: B.S., Massachusetts Institute of Technology, Department of Mechanical Engineering, 1909 / by G.M. Gilkison, R.W. Millard. / B.S. / B.S. Massachusetts Institute of Technology, Department of Mechanical Engineering

Civil Engineering.

Mechanical Engineering.

Concrete beams Fatigue.

Concrete beams Testing.

Crack growth measurement and fracture toughness of plain concrete beams

Jones, Gary Lee

January 2011

Includes photographs. / Digitized by Kansas Correctional Industries

Concrete beams--Fatigue

Concrete--Cracking

Fracture toughness testing of small concrete beams

Rood, Sheryl.

January 1984

Call number: LD2668 .T4 1984 R66 / Master of Science

Concrete beams--Testing.

Masters theses

Effects of repeated loading on prestressed concrete composite beams

鍾大元, Chung, Tai-yuen, Eric.

January 1974

published_or_final_version / Civil Engineering / Master / Master of Philosophy

Prestressed concrete beams.

Strains and stresses.

Seismic design recommendations for high-strength concrete beam-to-column connections.

Alameddine, Fadel F.

January 1990

The present recommendations of the ACI-ASCE Committee 352 for the design of ductile moment resistant beam to column connections limit the joint shear stress to γ√f'(c), where the factor γ is a function of the joint geometric classification and the loading condition. The value of compressive strength f'(c) used in the above expression should not exceed 6000 psi. This limitation causes considerable difficulty in the design of high-strength concrete frames. An experimental study of twelve large-scale exterior beam to column subassemblies was completed at The University of Arizona. The specimens were subjected to cyclic inelastic loading. The variables studied were the concrete compressive strength (8.1, 10.7, and 13.6 ksi), the joint shear stress (1100 and 1400 psi), and the degree of joint confinement provided in the form of closed ties. Although high-strength concrete is more brittle than normal-strength concrete, the study showed that frames constructed of high-strength concrete can perform satisfactorily in earthquakes zones when attention is given to proper detailing of joints. The flexural strength ratio, degree of joint confinement, development length of bars, and joint shear stress are all very important factors to be considered in the design process. The maximum permissible joint shear stress suggested by ACI-ASCE Committee 352 was modified for frames constructed with high-strength concrete. The proposed joint shear stress drawn from test results does not affect the factor γ which depends on the joint type and its geometric classification. Therefore, in the absence of any further data about interior joints, the proposed joint shear limit for high-strength concrete can be used for all types and geometric classifications of joints. Furthermore, new requirements for joint confinement were presented to ensure ductile behavior of frames. It is important to note that current Recommendations for joint confinement, which were developed for normal-strength concrete, cannot be satisfied for high-strength concrete frames. The hysteresis response of specimens tested and other normal-strength concrete specimens tested by different investigators were compared in terms of their energy absorption capacity. This comparison was essential to alleviate concern about the lack of ductility of high-strength concrete. Favorable results were obtained. This research is important for practitioners to gain more confidence using high-strength concrete for structural design applications especially in seismic zones.

High strength concrete

Concrete beams.

A study of R/C beams, additionally reinforced with steel fibers

Byers, Jack G

January 2010

Typescript, etc. / Digitized by Kansas Correctional Industries

Fiber-reinforced concrete

Concrete beams

Design and detailing of high strength reinforced concrete columns in Hong Kong

Ho, Ching-ming, Johnny.

January 2000

Thesis (M. Phil.)--University of Hong Kong, 2001. / Includes bibliographical references (leaves 149-155).

High strength concrete Concrete beams

Shear strengthening of reinforced concrete beams using CFRP and bonding behavior between CFRP and concrete /

Zhang, Huiyun.

January 2005

Thesis (M.S.)--University of Hawaii at Manoa, 2005. / Includes bibliographical references (leaves 179-180). Also available via World Wide Web.

Effects of repeated loading on prestressed concrete composite beams.

Chung, Tai-yuen, Eric.

January 1974

Thesis (M. Phil.)--University of Hong Kong, 1974.

Strain energy capacity of prestressed concrete beams.

Kwei, Chi-shun, Gibson,

January 1978

Thesis--M. Phil., University of Hong Kong, 1978. / Errata slip inserted.