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Evaluation of reinforcement

Harris RT, Waters W, McLendon D (1974) Evaluation of reinforcing capabilily of delta-9-tetrahydrocannabinol in rhesus monkeys. Psychopharmacologia 37 23-29... [Pg.140]

B. Elsener, Condition evaluation of reinforced concrete bridges - The benefits of potential mapping , in Proc. Int. Conf Structural Faults e[ Repair, London, Vol. 1, 47,... [Pg.294]

Electrochemical Techniques for Corrosion Evaluation of Reinforcement in Concrete... [Pg.525]

ELECTROCHEMICAL TECHNIQUES FOR CORROSION EVALUATION OF REINFORCEMENT IN CONCRETE... [Pg.529]

Quality control and non-destructive evaluation of reinforced plastics during manufacture... [Pg.42]

Shiotani T, Nakanishi Y, Iwaki K, Luo X, Haya H (2006) Evaluation of reinforcement in damaged railway concrete piers by means of acoustic emission, Journal ofAE 23 260-271... [Pg.51]

Shiotani T, Nakanishi Y, Iwaki K, Luo X, Haya H (2006) Evaluation of reinforcement in damaged railway concrete piers by means of acoustic emission. AEWG, Journal of Acoustic Emission 23 260-271 Yuyama S, Okamoto T, Shigeishi M, Ohtsu M (1994) Quantitative evaluation and visualization of cracking process in reinforced concrete by a moment tensor analysis of acoustic emission. ASNT, Materials Evaluation 53 751-756... [Pg.366]

Pantelides CP, Clyde C, Reaveley LD (2002) Performance-based evaluation of reinforced concrete building exterior joints for seismic excitatimi. Earthq Spectra 18(3) 449-480... [Pg.259]

Non-destructive evaluation of reinforced concrete structures Volume 1 Deterioration processes... [Pg.1]

Teng, M., Sotelino, E. and Chen, W. (2003), Performance evaluation of reinforced concrete bridge columns wrapped with fiber reinforced polymers . Journal of Composites for Construction, Vol. 7, Issue 2, pp. 83—92. [Pg.629]

Sharma, H., Hurlebaus, S. and Gardoni R, 2012. Performance-based response evaluation of reinforced concrete columns subject to vehicle impact, International Journal of Impact Engineering, 43, 52-62. [Pg.32]

Flis, J., Pickering, H. W., and Osseo-Asare, K., Assessment of Data from Three Electrochemical Instruments for Evaluation of Reinforcement Corrosion Rates in Concrete Bridge Components, Corrosion, 51 602-609 (1995). [Pg.482]

Hashemi A, Mosalam KM (2007) Seismic evaluation of reinforced concrete buildings including effects of masonry infill walls. In Report PEER 2007/100. Pacific Earthquake Engineering Research Center, Berkeley... [Pg.1734]

Nesvijski, E.G., Nogin, S.I. Acoustic Emission Technics for Nondestructive Evaluation of Stress of Concrete and Reinforced Concrete Structures and Materials. Third Conference on Nondestructive Evaluation of Civil Structures and Materials, Boulder, CO, 1996. Nesvijski, E. G. Failure Forecast and the Acoustic Emission Silence Effect in Concrete. ASNT s Spring Conference, Houston, TX, 1997. [Pg.193]

The reinforcing capacity of asbestos fibers in a cement matrix constitutes another key criteria for the evaluation of asbestos fibers. This property is assessed by preparing samples of asbestos —cement composites which, after a standard curing period, are tested for flexural resistance. The measured mpture modub are converted into a parameter referred to as the fiber strength unit (FSU) (34). [Pg.354]

Unsaturated polyester resins predominate among fiber-reinforced composite matrices for several reasons. A wide variety of polyesters is available and the composites fabricator must choose the best for a particular appHcation. The choice involves evaluation of fabrication techniques, temperatures at which the resin is to be handled, cure time and temperature desked, and requked cured properties (see Polyesters, unsaturated). [Pg.18]

Norris F. Dow and B. Walter Rosen, Evaluations of Filament-Reinforced Composites for Aerospace Stnjctursd Applications, NASA CR-207, April 1965. [Pg.186]

Conversely, at strains above the first damage limit recovery will be incomplete and permanent deformation should be expected and accounted for in the evaluation. This is true not only for plastics in general but also of reinforced plastics. When RPs are stressed... [Pg.73]

Therefore, all the theory, sketched previously for particulates, is also valid for the fiber composites, the only difference being in the evaluation of the radius rs of the mesophase. Indeed, in order to define the radius rs of the cylindrical layer, corresponding to the mesophase for the fiber composites, we express it as r, = (rf + Ar) and we modify the respective relation given by Lipatov 11) for particulates to the appropriate relation for cylindrical inclusions. For the cases of unidirectional fiber-reinforced composites, it may be shown that the following relation holds ... [Pg.177]

FE simulations of the stress-strain properties of fiUer-reinforced elastomers are an important tool for predicting the service live performance of mbber goods. Typical examples are the evaluation of rolling resistance of tires due to hysteresis energy losses, mainly in the tire tread or the adjustment of engine mounts in automotive applications. [Pg.622]

Tewarson, A., and Pion, R.F., "Evaluation of the Flammability of a Glass Fiber Reinforced Epoxy Material," 1978, Factory Mutual Research Corporation, Norwood, MA, Technical Report J.I. [Pg.564]

The results of this evaluation lead to the conclusion that a rectangular-based cubicle is the preferred room configuration. Additional parameter studies concluded that in the rectangular cubicle configuration, reinforced concrete is the preferred construction material over structural steel. Design of reinforced... [Pg.244]

This chapter provides an example of the evaluation and retrofit of the masonry walls of an existing reinforced concrete framed building using the principles outlined in Chapter 10. The evaluation of the roof, structural framing and foundation are not covered in this example. The explosion magnitude and front wall blast load are determined by others. The analysis of the exterior walls, and upgrade options, arc presented in this example. [Pg.253]

Ho, H. and Drzal, L. T., Evaluation of interfacial mechanical properties of fiber reinforced composites using the microindentation method, Composites, A, 27, 961 (1996). [Pg.561]

Ferber, M.K., Wereszczak, A.A., Hansen, D.H. and Homeay, J. (1993). Evaluation of interfacial mechanical properties in SiC fiber-reinforced macro-defect-free cement composites. Composites Sci. Technol. 49, 23-33. [Pg.87]

Lu, G.Y. and Mai, Y.W. (1994). A theoretical model for evaluation of interfacial properties of fiber reinforced ceramics with the slice compression test. Composites Sci. Technol. 51, 565-574. [Pg.89]


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