Rupert Gebhard
1980-1984 Study of pre- and protohistory, archaeology of the Roman
provinces and European ethnology (Munich, Bonn, Basel )
Feb. 1985 magister artium (M.A.)
Feb. 1986 doctorate (Dr. phil.)
1986-1987 Scholarship of the German Arch. Institute: research journey
(Europe, Africa, Near East)
1987-1989 Research project at the German Archaeological Institute
1989 Assistent to the Director (Prehistorical State Collection)
1994 Keeper of the Conservation Department
1990 Research in Peru
1992 Corresponding member, German Arch. Institute.
1993 National Exhibition "Das keltische Jahrtausend"
1995 Kurt-Bittel-Award
1995 Museum Landau / Isar
1997 “Special commendation” European Museum of the Year Award
1996 Dr. phil. habil., University lecturer (Regensburg)
2001 Keeper of Conservation / Keeper Pre-and Protohistory
2002 apl. Prof. Univ. Regensburg
2006 kelten und römer museum manching
2009 apl. Prof. LMU Munich
2010 Director of the Archaeological (former Prehistorical)
State Collection
2010 Cultural Award Region of Upper Bavaria
2013 National Exhibition “Alexander der Große – Herrscher der Welt”
provinces and European ethnology (Munich, Bonn, Basel )
Feb. 1985 magister artium (M.A.)
Feb. 1986 doctorate (Dr. phil.)
1986-1987 Scholarship of the German Arch. Institute: research journey
(Europe, Africa, Near East)
1987-1989 Research project at the German Archaeological Institute
1989 Assistent to the Director (Prehistorical State Collection)
1994 Keeper of the Conservation Department
1990 Research in Peru
1992 Corresponding member, German Arch. Institute.
1993 National Exhibition "Das keltische Jahrtausend"
1995 Kurt-Bittel-Award
1995 Museum Landau / Isar
1997 “Special commendation” European Museum of the Year Award
1996 Dr. phil. habil., University lecturer (Regensburg)
2001 Keeper of Conservation / Keeper Pre-and Protohistory
2002 apl. Prof. Univ. Regensburg
2006 kelten und römer museum manching
2009 apl. Prof. LMU Munich
2010 Director of the Archaeological (former Prehistorical)
State Collection
2010 Cultural Award Region of Upper Bavaria
2013 National Exhibition “Alexander der Große – Herrscher der Welt”
less
InterestsView All (18)
Uploads
Papers
material is relatively weak and not related to the number of electrons, and consequently the penetration depth of neutrons
is about 102-103 larger than that of laboratory X-ray diffraction. This is particular essential for the non-destructive
texture analysis of archaeological objects as no additional surface treatments of the samples (e.g. polishing) are necessary.
STRESS-SPEC at MLZ is designed as a state of the art multi-purpose diffractometer for strain and texture analysis.
Besides the optimized high neutron flux the available large variability in gauge volume definition systems together with
the robotic sample handling option offer high flexibility for bulk or gradient texture measurements. Since 2014, local and
bulk textures of iron and gold artefacts collected by Bavarian State Archaeological Collection (Munich, Germany) have
been thoroughly investigated at STRESS-SPEC. Results showed that heat treatment of iron artefacts at high temperatures
can re-orientate the inner crystallites. In the gold foil artefacts, the texture represented by the measured pole figures shows
a high symmetry – the so-called Cube component, which is commonly found in annealed fcc materials. For comparison,
laboratory samples were produced by rolling, flat hammering, and pin / round hammering and also measured in order to
elucidate possible manufacturing and processing routes. In turned out that both rolling and pin / round hammering followed
by a high temperature annealing can produce similar pole figures to those of the gold artefacts foils.
Manching and from some contemporary Celtic sites. The results of neutron activation analysis, thin section microscopy and Mössbauer spectroscopy are combined with the existing detailed archaeological typology to provide information on the provenance of Celtic pottery and on details of its production. The data indicate that there was only very limited exchange of material but far reaching transfer of technology.
material is relatively weak and not related to the number of electrons, and consequently the penetration depth of neutrons
is about 102-103 larger than that of laboratory X-ray diffraction. This is particular essential for the non-destructive
texture analysis of archaeological objects as no additional surface treatments of the samples (e.g. polishing) are necessary.
STRESS-SPEC at MLZ is designed as a state of the art multi-purpose diffractometer for strain and texture analysis.
Besides the optimized high neutron flux the available large variability in gauge volume definition systems together with
the robotic sample handling option offer high flexibility for bulk or gradient texture measurements. Since 2014, local and
bulk textures of iron and gold artefacts collected by Bavarian State Archaeological Collection (Munich, Germany) have
been thoroughly investigated at STRESS-SPEC. Results showed that heat treatment of iron artefacts at high temperatures
can re-orientate the inner crystallites. In the gold foil artefacts, the texture represented by the measured pole figures shows
a high symmetry – the so-called Cube component, which is commonly found in annealed fcc materials. For comparison,
laboratory samples were produced by rolling, flat hammering, and pin / round hammering and also measured in order to
elucidate possible manufacturing and processing routes. In turned out that both rolling and pin / round hammering followed
by a high temperature annealing can produce similar pole figures to those of the gold artefacts foils.
Manching and from some contemporary Celtic sites. The results of neutron activation analysis, thin section microscopy and Mössbauer spectroscopy are combined with the existing detailed archaeological typology to provide information on the provenance of Celtic pottery and on details of its production. The data indicate that there was only very limited exchange of material but far reaching transfer of technology.