September 1999
An e-fab way for making the micro world
A new manufacturing technique that has produced what researchers believe is the
world's narrowest chain could open a whole world of new micro-mechanical
devices. The technique, known as EFAB (electrochemical fabrication), is much
faster and quicker than other microfabrication techniques, allowing the research
team to manufacture new devices at a fraction of the cost and more complex than
ever before. p.538
Bashing buildings to check for earthquake damage
A new technique that examines materials for cracks and weaknesses could help
rescuers assess buildings for earthquake damage and help engineers design better
earthquake-proof buildings. The technique measures sound waves as they pass
through a material, monitoring the changes in tone and resonance caused by
cracks or deformations allowing engineers to monitor the safety of all kinds of
structures including buildings, bridges, oil pipelines, aircraft and engine
parts. p.544
Capillary Two - Making Faster Loos
Toilets, urinals and other complex ceramic goods can now be made more quickly
and cheaply thanks to the development of a new production technology. Capillary
Two (Cap2) technology will allow ceramists to reduce the cycle time of the
casting process, usually one per day for complex objects such as syphonic WCs,
cutting manufacturing costs and extending mould life. p.535
Wasteful Wast Recover Targets
The EC's statutory targets for waste recovery are causing a huge waste of effort
and the concept of sustainabilityis not relevant to the plastics packaging
field, says Brian Glyde writing in Materials World. p.549
PLEASE MENTION MATERIALS WORLD AS THE SOURCE OF THESE ITEMS
Notes For Editors
- These items are due to appear as articles in the September issue of Materials World, Volume 7, Issue 9.
- Materials World is the journal of The Institute of Materials, the professional organisation of materials scientists, engineers and technicians working throughout the world in areas involving the use and application of plastics, rubber, metals, composites and ceramics.
- Brief contents of Materials World are also available on the web: www.materials.org.uk
- The views and opinions expressed in this article are the views of the author and are not necessarily the views of Materials World, IoM Communications or any other organisation with which they are associated.