Pultrusion of powder impregnated and commingled composites

Miller, Andrew Haydn

January 1999

No description available.

620.118

Fibre reinforced; Thermoplastics

The transverse mechanical behaviour of glass fibre reinforced plastics

Wells, Garry Michael

January 1987

No description available.

668.4

Reinforced plastics properties

Acoustic emission and acousto-ultrasonics on aromatic polymer composites

Russell-Floyd, Richard S.

January 1991

No description available.

668.4

Fibre reinforced plastics

Flexure of concrete beams pre-tensioned with aramid FRPs

Lees, J. M.

January 1997

No description available.

620.118

Fibre reinforced plastics

Evaluating the Properties and Functionality of Steel Fiber Reinforced Concrete

Alharmoosh-Alqenai, Yousif

January 1900

Degree Not Listed / Department of Civil Engineering / Asadollah Esmaeily / This report is contingent upon research and literature reviews, targeting steel fiber reinforced concrete (SFRC). It will explore all aspects involved, detailing both properties and functionality. Historical development of the modern application mix and design procedures will be discussed. A critical investigation based on laboratory testing is examined and a comparative discussion is provided. This report will also highlight the structural uses, benefits, applications and deficiencies acquired by SFRC.

Steel Fiber Reinforced Concrete

Shear strength of reinforced concrete wall-beam structures : upper-bound analysis and experiments

Bin Mohamed, Zainai

January 1987

This study presents rigid-plastic methods of analysis of shear failure in reinforced concrete (R. C.) wall-beam type structures when subjected to in-plane loading. The upper-bound approach is emphasised. Present shear design practice (e.g. BS8110:1985) relies much upon empirical solutions, but it is inadequately Substantiated by theoretical analyses when compared with design against bending moments. Review of previous work on shear failure in R. C. beams demonstrates the need for a rational analysis approach which broadly represents the important physical characteristics and mechanics of shear failure and which can reliably predict the shear capacity. The rigorous theory of plasticity in shear which was introduced by researchers in Denmark in the early 1970's has proved successful for some limited cases. At failure, a simple kinematic rigid-plastic solution was derived for a stringer model with a straight 'yield line'. Recently, evidence has emerged that the best single yield line between two rigid wall portions may well be curved and not straight. There are different stress states in yield lines and consequently three types of yield line are identified in analysis. These findings enable us to apply for the first time combinations of yield lines to analyse shear failure mechanisms of R. C. wall-beam type structures. The principles of rigid-body plane motion are used to describe the deformations of failure mechanisms. The search for the best mechanism at failure is made automatically by computer. The model predicts reasonably well the strength and mechanism for the test results reported in literature. The model is extended to a wall-beam with openings loaded in plane. Tests were made on shallow beams without shear reinforcement and deep beams with and without web openings to study the accuracy of the fundamental calculations made by the model. The most critical mechanism predicted by the model is reasonably representative of the observed failure mechanism. The strength prediction is in substantial agreement with the experimental tests. The conclusions drawn from the study are: (1) If a correct mechanism is predicted then a rigid-plastic solution is close to the true behaviour otherwise it is an upper bound, and (2) The plastic solution of R. C. is only an approximate solution.

624.1

Shear in reinforced concrete

Functionally graded coatings on silicon carbide monofilaments for protection in titanium composites

Haque, Shahriar

January 2000

No description available.

669

Monofilament reinforced

Seismic design and performance assessment of RC buildings made of high strength materials

Konstantinidis, Dimitrios

January 2002

No description available.

693

Reinforced concrete

Selective retrofitting of RC structures in seismic areas

Pinho, Rui

January 2000

No description available.

690

Reinforced concrete; Earthquakes

Constitutive relations of concrete under passive confinement and their use in structural analysis

Kinoshita, Masanori

January 1992

No description available.

624.1

Reinforced concrete