ProfessorsProfessors of Universität InnsbruckPhilipp Dietsch

Philipp Dietsch

Universität Innsbruck

H-index: 22

Europe-Austria

About Philipp Dietsch

Philipp Dietsch, With an exceptional h-index of 22 and a recent h-index of 17 (since 2020), a distinguished researcher at Universität Innsbruck, specializes in the field of Civil Engineering, Structural Engineering, Timber Structures, Timber Engineering.

His recent articles reflect a diverse array of research interests and contributions to the field:

Experimental Study to Determine the Development of Axial Stiffness of Wood Screws with Increasing Load Cycles

Bending Behavior of Hybrid Timber–Steel Beams

Hyperbolic Paraboloid Shells made of Diagonal Laminated Timber Elements

Diagonallagenholz (DLH)–Ressourceneffizienz durch diagonale Orientierung einzelner Lagen: Bestimmung der Steifigkeitsparameter und Verformungsanalysen

InnoCrossLam-Adding knowledge towards increased use of cross laminated timber (CLT)

Solutions for edge connections to build two-way spanning cross laminated timber slabs

CROSS-LAMINATED TIMBER FLOORS WITH OPENINGS–SERVICEABILITY LIMIT STATE VERIFICATIONS

UPDATING EUROCODE 5-DESIGN GUIDANCE FOR INCREASING THE ROBUSTNESS OF TIMBER STRUCTURES

Philipp Dietsch Information

University	Universität Innsbruck
Position	Professor Head of Timber Engineering Unit
Citations(all)	1765
Citations(since 2020)	1224
Cited By	891
hIndex(all)	22
hIndex(since 2020)	17
i10Index(all)	38
i10Index(since 2020)	28
Email	Access Email
University Profile Page	Universität Innsbruck
Google Scholar	View Google Scholar Profile

Philipp Dietsch Skills & Research Interests

Civil Engineering

Structural Engineering

Timber Structures

Timber Engineering

Top articles of Philipp Dietsch

Title	Journal	Author(s)	Publication Date
Experimental Study to Determine the Development of Axial Stiffness of Wood Screws with Increasing Load Cycles	Buildings	Sebastian Egner Philipp Dietsch	2024/4/15
Bending Behavior of Hybrid Timber–Steel Beams	Materials	Peter Haase Simon Aurand Jakob Boretzki Matthias Albiez Carmen Sandhaas ...	2024/1
Hyperbolic Paraboloid Shells made of Diagonal Laminated Timber Elements		Matthias Arnold Philipp Dietsch Stefan Winter	2023
Diagonallagenholz (DLH)–Ressourceneffizienz durch diagonale Orientierung einzelner Lagen: Bestimmung der Steifigkeitsparameter und Verformungsanalysen	Bautechnik	Matthias Arnold Roland Maderebner Philipp Dietsch Stefan Winter	2023/8
InnoCrossLam-Adding knowledge towards increased use of cross laminated timber (CLT)		Boris Azinović Erik Serrano Henrik Danielsson Josef Füssl Markus Lukacevic ...	2023
Solutions for edge connections to build two-way spanning cross laminated timber slabs	Proceedings of the World Conference on Timber Engineering (WCTE 2023), Oslo, Norway	Thomas Stieb Bernhard Maurer Maximilian Bestler Philipp Dietsch Roland Maderebner	2023/6
CROSS-LAMINATED TIMBER FLOORS WITH OPENINGS–SERVICEABILITY LIMIT STATE VERIFICATIONS	WCTE 2023	Martin Schenk Anja Husel Philipp Dietsch Pablo González-Serna José Manuel ...	2023
UPDATING EUROCODE 5-DESIGN GUIDANCE FOR INCREASING THE ROBUSTNESS OF TIMBER STRUCTURES		Jørgen Munch-Andersen Paolo Palma Philipp Dietsch	2023
100 Jahre Versuchsanstalt für Stahl, Holz und Steine Karlsruhe	Bautechnik	Daniel Ruff Carmen Sandhaas Thomas Ummenhofer Philipp Dietsch	2023/1
A Timber–Concrete–Composite Edge Connection for Two-Way Spanning Cross-Laminated Timber Slabs—Experimental Investigations and Analytical Approach	Buildings	Thomas Stieb Roland Maderebner Philipp Dietsch	2023/12/1
Structural behavior of timber-steel-joints with either dowel-type fasteners or continuous joints	World Conference on Timber Engineering (WCTE 2023)	Simon Aurand Jakob Boretzki Peter Haase Thomas Ummenhofer Philipp Dietsch	2023
Diagonal Laminated Timber (DLT)-resource efficiency through optimized layer arrangements: determination of stiffness properties and deformation analysis	BAUTECHNIK	Matthias Arnold Roland Maderebner Philipp Dietsch Stefan Winter	2023/8/1
Updating Eurocode 5–Design guidance for increasing the robustness of timber structures	Paper submitted for WCTE. Oslo	Pedro Palma Jørgen Munch-Andersen Philipp Dietsch	2023
Effect of shrinkage on cracking and structural behaviour of reinforced glulam members	Construction and Building Materials	Martin Danzer Philipp Dietsch Stefan Winter	2022/4/11
Diagonal laminated timber—Experimental, analytical, and numerical studies on the torsional stiffness	Construction and Building Materials	Matthias Arnold Philipp Dietsch Roland Maderebner Stefan Winter	2022/3/7
Schlussbericht zum Europäischen Forschungsvorhaben InnoCrossLam–Innovative Lösungen für das zukünftige Bauen mit Brettsperrholz		Matthias Arnold Martin Schenk Niklas Kainz Philipp Dietsch José Manuel Cabrero ...	2022
Innovative solutions for CLT structures		Boris Azinović Erik Serrano Henrik Danielsson Josef Füssl Markus Lukacevic ...	2022
Kennt der Holzbau Grenzen des Wachstums?		Philipp Dietsch	2022/11
Veneer-reinforced timber–Numerical and experimental studies on a novel hybrid timber product	Construction and Building Materials	Markus Lechner Philipp Dietsch Stefan Winter	2021/9/6
Moisture contents in timber roof structures of ice rinks		Marcus Schiere Bettina Franke Steffen Franke Philipp Dietsch Andreas Müller	2021/8/9