Armourers and Brasiers' Company Prize explained

The Royal Society Armourers and Brasiers' Company Prize
Location:London
Sponsor:Royal Society
Worshipful Company of Armourers and Brasiers

The Royal Society Armourers and Brasiers' Company Prize is sponsored by the Worshipful Company of Armourers and Brasiers and awarded biennially by the Royal Society "for excellence in materials science and technology" and is accompanied by a £2000 gift.[1] The medal was first awarded in 1985 to Michael F. Ashby "in recognition of his outstanding contributions to materials science, first for identifying the mechanism underlying and by modelling theoretically a number of phenomena of great importance to the materials engineer".

Laureates

Laureates of the award[2] include:

YearNameRationaleNotes
1986 "in recognition of his outstanding contributions to materials science, first for identifying the mechanism underlying and by modelling theoretically a number of phenomena of great importance to the materials engineer, and second for pioneering the important concepts of deformation and fracture maps which display in a single field the area of dominance of specific flow and fracture mechanisms."
1988 "in recognition of his outstanding work on ceramics, in particular that on sialons and their subsequent applications"
1991 "in recognition of his pioneering and innovative work in biomaterials, in particular in developing the concept of a hydroxyapatite reinforced polymer composite'"
1993 "in recognition of his many significant contributions to the study and application of superconducting materials, amorphous magnetic alloys and multi-layered materials"
1993 "in recognition of his outstanding work on inorganic materials including the development of strong ceramic fibres and high strength macro-defect-free cement."
1995 "n recognition of his outstanding work in the field of gas turbine materials and the development of new super alloys and advanced composites such as titanium matrix composites and ceramic matrix composites"
1997 "in recognition of his outstanding work in the field of solid state phase transformation in steels, in particular for his research into the bainite transformations and for his invention of a carbide-free bainitic steel with enhanced wear and fracture resistance."
1999 "in recognition of his outstanding work in the development of phenomenological structure maps for binary and pseudo-binary alloys known as the 'Pettifor Maps', and his vision and leadership in establishing the Materials Modelling Laboratory at Oxford with its strong links to industry and recognised as an international flagship laboratory for modelling"
2001 "in recognition of his outstanding and wide-ranging and definitive theoretical and experimental research on solidification of materials, and for his contributions to industrial casting processes."
2003 "in recognition of his outstanding contribution to work in the fields of extractive metallurgy and materials chemistry, in particular for his leading role in the development of the FCC process for the reduction of titanium and other metals from their oxides, and for his promotion of links with industry and other organisations interested in its exploitation"
2005 "in recognition of his work in Solid Oxide Fuel Cells (SOFCs). His fundamental work has been focused on the control of oxygen transportation in ceramic materials, and most recently in applying this in his development of solid oxide fuel cells"
2007 "in recognition of his work in the areas of liquid crystalline polymers, computational modelling, and carbon nanotubes" -
2009 "in recognition of his outstanding work in adhesion science and technology"
2010 "in recognition of his pioneering use of neutron and hard x-ray beams to map stresses and image defects in industrial scale components and devices." [3]
2012 "for her theoretical insight into the many factors affecting the fabrication and performance of organic photovoltaics, which has led to the rational design of these devices and related photodetectors based on organic semiconductors."-
2014 "in recognition of his insight, synthesis, development and commercialisation of coatings. In particular inorganic-oxide self-cleaning coatings for windows and anti-microbial coatings to combat hospital acquired infections."-
2016 "for his outstanding contributions to materials research with benefit to society, especially the development of ultra-low-loss microwave dielectrics for communications."
2018 "for his pioneering development of colloidal nanocomposite particles"
2020 "for pioneering and leading the development of engineering alloys through the invention and application of the three-dimensional atom probe, making profound contributions to basic understanding and industrial applications."
2022 "for making fundamental contributions to the application of materials chemistry to organic electronic applications, with an applied, results-oriented focus, always demonstrating translational impact and commercial potential."

Notes and References

  1. Web site: The Armourers & Brasiers’ Company Prize (1984). Royal Society. 2010-08-15. https://web.archive.org/web/20100830070012/http://royalsociety.org/Armourers-and-Brasiers-Prize/. 30 August 2010 . live.
  2. Web site: Royal Society Armourers & Brasiers' Company Prize - Royal Society. Toyalsociety.org. 4 December 2018.
  3. Web site: Royal Society award for research on material stresses . Science and Technologies Facilities Council . 15 August 2010 . dead. https://web.archive.org/web/20110716085016/http://www.stfc.ac.uk/News%20and%20Events/18747.aspx . 16 July 2011 .