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Leather degradation: an experimental approach using pXRF
Hrafnhildur Halldórsdóttir
,
Gillian Taylor
School of Health & Life Sciences
Centre for Sustainable Engineering
Centre for Biodiscovery
Research output
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Contribution to conference
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Poster
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peer-review
145
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Keyphrases
Leather
100%
Fluorescence Detector
100%
Portable X-ray Fluorescence (pXRF)
100%
Inorganic Chemicals
33%
Silica
16%
Collagen
16%
Soil Conditions
16%
Conservator
16%
Wet Soil
16%
Soil Environment
16%
Inorganic Particles
16%
Soil Leaching
16%
Soil Interaction
16%
Dye Interaction
16%
Leather Artefacts
16%
Posing Problem
16%
Collagen Degradation
16%
Elemental Concentration
16%
Archaeological Leather
16%
Arts and Humanities
Experimental
100%
Portable X-ray fluorescence
100%
Inorganic
100%
Burial
50%
Silica
25%
Pigment
25%
Conservator
25%
Earth and Planetary Sciences
X-Ray Fluorescence Spectroscopy
100%
Inorganic Compound
100%
Soil Condition
50%
Soil Leaching
50%
Chemical Element
50%
Material Science
X-Ray Fluorescence Spectroscopy
100%
Inorganic Chemical
100%
Oxidation Reaction
50%
Silicon Dioxide
50%
Engineering
X-Ray Fluorescence
100%
Soil Condition
50%
Inorganic Particle
50%
Silicon Dioxide
50%
Chemistry
pigment
50%