Related references
Note: Only part of the references are listed.FORMATION OF FLUID INCLUSIONS DURING HEAT TREATMENT OF BARREMO-BEDOULIAN FLINT: ARCHAEOMETRIC IMPLICATIONS
J. Milot et al.
ARCHAEOMETRY (2017)
The investment in time needed for heat treatment of flint and chert
Patrick Schmidt et al.
ARCHAEOLOGICAL AND ANTHROPOLOGICAL SCIENCES (2016)
A previously undescribed organic residue sheds light on heat treatment in the Middle Stone Age
Patrick Schmidt et al.
JOURNAL OF HUMAN EVOLUTION (2015)
What causes failure (overheating) during lithic heat treatment?
Patrick Schmidt
ARCHAEOLOGICAL AND ANTHROPOLOGICAL SCIENCES (2014)
DETECTING AND QUANTIFYING HEAT TREATMENT OF FLINT AND OTHER SILICA ROCKS: A NEW NON-DESTRUCTIVE METHOD APPLIED TO HEAT-TREATED FLINT FROM THE NEOLITHIC CHASSEY CULTURE, SOUTHERN FRANCE
P. Schmidt et al.
ARCHAEOMETRY (2013)
Heat treatment in the South African Middle Stone Age: temperature induced transformations of silcrete and their technological implications
Patrick Schmidt et al.
JOURNAL OF ARCHAEOLOGICAL SCIENCE (2013)
Crystallographic and structural transformations of sedimentary chalcedony in flint upon heat treatment
Patrick Schmidt et al.
JOURNAL OF ARCHAEOLOGICAL SCIENCE (2012)
Detailed FT near-infrared study of the behaviour of water and hydroxyl in sedimentary length-fast chalcedony, SiO2, upon heat treatment
Patrick Schmidt et al.
SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY (2011)
Fire As an Engineering Tool of Early Modern Humans
Kyle S. Brown et al.
SCIENCE (2009)