The influence of chemical degradation and polyethylene glycol on moisture-dependent cell wall properties of archeological wooden objects: a case study of the Vasa shipwreck

Characterisation of cubic oak specimens from the Vasa ship and recent wood by means of quasi-static loading and resonance ultrasound spectroscopy (RUS)

(2016) Alexey Vorobyev et al.   HOLZFORSCHUNG

Prediction of tensile strength in iron-contaminated archaeological wood by FT-IR spectroscopy – a study of degradation in recent oak and Vasa oak

(2016) Gunnar Almkvist et al.   HOLZFORSCHUNG

Effect of Water on the Mechanical Properties of Wood Cell Walls – Results of a Nanoindentation Study

(2015) Leopold Wagner et al.   BioResources

A combined view on composition, molecular structure, and micromechanics of fungal degraded softwood

(2015) Leopold Wagner et al.   HOLZFORSCHUNG

Plant micro- and nanomechanics: experimental techniques for plant cell-wall analysis

(2013) Ingo Burgert et al.   JOURNAL OF EXPERIMENTAL BOTANY

Nanoindentation of wood cell walls: effects of sample preparation and indentation protocol

(2013) Leopold Wagner et al.   JOURNAL OF MATERIALS SCIENCE

Parameter re-identification in nanoindentation problems of viscoelastic polymer layers: small deformation

(2013) Z. Chen et al.   ZAMM-Zeitschrift fur Angewandte Mathematik und Mechanik

State of Degradation in Archeological Oak from the 17th Century Vasa Ship: Substantial Strength Loss Correlates with Reduction in (Holo)Cellulose Molecular Weight

(2012) Ingela Bjurhager et al.   BIOMACROMOLECULES

A nano to macroscale study on structure-mechanics relationships of archaeological oak

(2012) Thomas K. Bader et al.   JOURNAL OF CULTURAL HERITAGE

Key parameters controlling stiffness variability within trees: a multiscale experimental–numerical approach

(2012) Leopold Wagner et al.   TREES-STRUCTURE AND FUNCTION

Experimental micromechanical characterisation of wood cell walls

(2012) Michaela Eder et al.   WOOD SCIENCE AND TECHNOLOGY

The relation between indentation modulus, microfibril angle, and elastic properties of wood cell walls

(2011) A. Jäger et al.   COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING

Structure of oak wood from the Swedish warship Vasa revealed by X-ray scattering and microtomography

(2011) Kirsi Svedström et al.   HOLZFORSCHUNG

Microstructure–stiffness relationships of ten European and tropical hardwood species

(2011) Karin de Borst et al.   JOURNAL OF STRUCTURAL BIOLOGY

Macro- and micro-mechanical properties of red oak wood (Quercus rubra L.) treated with hemicellulases

(2010) Johannes Konnerth et al.   HOLZFORSCHUNG

Towards improved understanding of PEG-impregnated waterlogged archaeological wood: A model study on recent oak

(2010) Ingela Bjurhager et al.   HOLZFORSCHUNG

Actual versus apparent within cell wall variability of nanoindentation results from wood cell walls related to cellulose microfibril angle

(2009) Johannes Konnerth et al.   JOURNAL OF MATERIALS SCIENCE

Multicomponent Solid Modeling of Continuous and Intermittent Drying ofPinus radiataSapwood Below the Fiber Saturation Point

(2008) S. A. Smith et al.   DRYING TECHNOLOGY

Cell wall features with regard to mechanical performance. A review COST Action E35 2004–2008: Wood machining – micromechanics and fracture

(2008) Lennart Salmén et al.   HOLZFORSCHUNG