bis Samstag, 18. Juli 2015 - 17:00 Uhr
Composite materials and structures have been extensively used in a variety of industrial fields due to their excellent performances. Their deformation characteristics and mechanical properties are of great importance for evaluating the effects of strengthening, toughening and optimal design. This session welcomes up-to-date research and review presentations about techniques and applications in measuring deformation and evaluating mechanical properties of composite materials and structures. Expected topics include but are not limited to:
1) Evaluations of deformation, mechanical properties, instability and failure behaviors (including delamination, buckling, crack) under different mechanical loads, electrical loads, thermal loads, magnetic loads, coupling loads, etc.
2) Applications in various composite materials and structures, such as reinforced plastics, metal composites, ceramic composites, composite building materials, micro/nano materials, laminated materials, film/substrate structures, semiconductor composite structures.
3) Non-destructive deformation measurement techniques and apparatus, such as moiré methods, the digital image correlation method, laser or holographic interferometry, electronic speckle pattern interferometry, geometric phase analysis, the grid method, the virtual fields method, etc.
• Improvement of mechanical properties, biological response and functionality
• Delivery of drug, genes and stem cells
• Enabling tool for biotechnology
• Safety of nanomaterials and its composites
Ultra-light, highly porous metallic materials (foams, honeycombs and lattices) have positive combinations of physical and mechanical properties, such as high specific stiffness and strength, good energy absorption capacity and high gas permeability, as well as high thermal conductivity. They are therefore of much current academic and industrial interest, expecting the more and more widely uses in many important fields. Common uses of porous metals include light weight cores for sandwich structures to enhance the load-carrying capability. A typical sandwich structure consists of two thin metallic/composite face-sheets, with a softer crushable porous core between them. The advantages of these sandwich structures relative to the corresponding solid monolithic counterparts of equivalent mass have been demonstrated. This symposium is aimed to provide an international forum for academia and practitioners to share the leading edge scientific knowledge in the related areas. It will update the latest progress of porous metals and sandwich structures covering the preparation, characterization and applications; quasi-static and dynamic response; and experimental, theoretical and simulation aspects.
Topics of interest include but not limited to
2)Acoustical, thermal and mechanical properties
4)Stress wave propagation
6)Dynamic response to blast/impact loading
7)Ballistic penetration behavior
10)Experimental techniques and methods
The ICCE conference will provide a forum for the exchange of information and ideas in virtually all areas composite materials research. The goals of the ICCE conference are:
1. The conference aims to solve or partially SOLVE CRITICAL UNRESOLVED ISSUES of our everyday lives. The methodologies involve the three pillars in Composites or Nano engineering, namely, Mechanics, Manufacturing and Materials, in all length-scales.
2. The ICCE emphasizes the "D.I.M.” approaches to science and engineering (DURABILITY approach to structures, INTERDISCIPLINARY approach to science, and MULTIFUNCTIONAL approach to materials). Thus, you will find many chemists and engineers in this conference, a pleasant situation since these two groups traditionally tend to attend separate conferences. The ICCE conference aims to bridge the gaps between aerospace technology, bio-materials, chemistry, electronics, energy, fluid mechanics, infrastructures, magnetic materials, metallurgy, nanotechnology, pharmacy, physics, powder metallurgy, sensors/actuators, among others.
3. The goal is to ENCOURAGE LEVERAGING of composite materials research resources through joint research between participants and writing joint research proposals.
ICCE-23 is held in Chengdu, China.
Noble Laureate Akira Suzuki, ICCE Keynote talk on Monday July 13, 2015
click here, whe you see "open", click open
Professor David Hui
182 SCI journal publications by David Hui click here
(full-length papers can be obtained by clicking the individual paper title in the listing)
Department of Mechanical Engineering
University of New Orleans, New Orleans, LA 70148
Tel: (504) 280 6652; Fax: (504) 280 6192