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Online since: January 1988
Authors: M.E. El Dahshan, F.M. Al Habdan, F.A. Abdulaleem
Online since: May 1996
Authors: Antonio Castaldini, Nahed El Mahallawy, A.K. El-Kharbotly, I. Svenson, Mohamed A. Taha
Thermogravimetric Analysis of the Removal of Organic Binders and Plasticizers from an Alumina Matrix
Online since: September 1994
Authors: Gilbert Fantozzi, M. El Morabit, M. Murat, J.-P. Millet
Online since: January 1993
Edited by: M.A. Taha, N.A. El-Mahallawy
The volume presents the papers presented at the International Symposium on Metal Matrix Composites (ISMMC) held in Cairo in 1992. All papers have been reviewed and edited.
Online since: December 2013
Authors: Hardev Singh Virk, K.V.R. Murthy
• Electroluminescence (EL): Light is generated in response to an applied electric field on a certain material.
Recently, Camara et al. [34] of the University of California, Los Angeles, California, USA, have reported that peeling of common adhesive tape in a moderate vacuum produces radio waves and visible light emission along with nanosecond, 100-mW X-ray pulses that are correlated with stick–slip peeling events.
Recently, Camara et al. [34] of the University of California, Los Angeles, California, USA, have reported that peeling of common adhesive tape in a moderate vacuum produces radio waves and visible light emission along with nanosecond, 100-mW X-ray pulses that are correlated with stick–slip peeling events.
Online since: May 2000
Authors: V. Orlov, A.M. El-Sheikh, D. Gilliland
Online since: January 1992
Authors: K. Suzuki, Koshiro Aoki, M.S. El-Eskandarany
Online since: December 2001
Authors: Jérôme Chevalier, Gilbert Fantozzi, Malika Saâdaoui, Hassan El Attaoui
Online since: July 2014
Authors: Jean Philippe Ponthot, Gaetan Wautelet
Historically, Zavarise et al. [6] introduced for the first time the idea to associate an equivalent
contact area to the nodes of the slave surface in a thermomechanical two-dimensional contact finite
element formulation due to the presence of complex constitutive models for the thermal contact resistance.
Online since: June 2008
Edited by: Nahed El Mahallawy, Ming Xing Zhang
Volume is indexed by Thomson Reuters BCI (WoS).
All components and mechanical parts have surfaces which are either exposed to a particular environment or are in contact with other components. Consequent corrosion and/or wear of the surface may then lead to destructive failure. A so-called “bad” surface is a favoured spot for crack initiation, resulting in a decrease in the fatigue, tensile properties and even toughness of materials. Although the development of new materials can improve the surface properties, this can also lead to a change in the properties of the substrate. For example, increasing the carbon content significantly improves the wear resistance of steels, but toughness has to be sacrificed. Increased cost is another major concern. Moreover, for some components, such as gears, a ductile substrate and a hard surface are required. In this case, surface treatment remains the only choice. Surface modification, also termed surface treatment, has thus been recognised as being a major emergent manufacturing technology for improving the surface properties, with minimal alteration of the substrate. The purpose of this special volume on surface engineering is to provide an overview of the most popular modern surface-treatment technologies for structural materials, and thus enable materials scientists and engineers to select suitable techniques for their research and manufacturing needs. It comprises reports of cutting-edge research results and reviews of the most recent developments in the use of a particular technique. The topics covered include thin-film coating, laser surface technologies, surface nanotechnologies, anodizing, electroplating, electroless plating, thermal spraying and cold spraying.
The volume will thus constitute a veritable handbook on surface treatment.
All components and mechanical parts have surfaces which are either exposed to a particular environment or are in contact with other components. Consequent corrosion and/or wear of the surface may then lead to destructive failure. A so-called “bad” surface is a favoured spot for crack initiation, resulting in a decrease in the fatigue, tensile properties and even toughness of materials. Although the development of new materials can improve the surface properties, this can also lead to a change in the properties of the substrate. For example, increasing the carbon content significantly improves the wear resistance of steels, but toughness has to be sacrificed. Increased cost is another major concern. Moreover, for some components, such as gears, a ductile substrate and a hard surface are required. In this case, surface treatment remains the only choice. Surface modification, also termed surface treatment, has thus been recognised as being a major emergent manufacturing technology for improving the surface properties, with minimal alteration of the substrate. The purpose of this special volume on surface engineering is to provide an overview of the most popular modern surface-treatment technologies for structural materials, and thus enable materials scientists and engineers to select suitable techniques for their research and manufacturing needs. It comprises reports of cutting-edge research results and reviews of the most recent developments in the use of a particular technique. The topics covered include thin-film coating, laser surface technologies, surface nanotechnologies, anodizing, electroplating, electroless plating, thermal spraying and cold spraying.
The volume will thus constitute a veritable handbook on surface treatment.