Publikationer av Andreas Sjölander

Refereegranskade

Artiklar

[1]

J. Hernández Vargas et al., "Internal topology optimisation of 3D printed concrete structures : a method for enhanced performance and material efficiency," Virtual and Physical Prototyping, vol. 19, no. 1, 2024.

[2]

V. Belloni et al., "Crack Monitoring from Motion (CMfM) : Crack detection and measurement using cameras with non-fixed positions," Automation in Construction, vol. 156, 2023.

[3]

A. Sjölander et al., "Experimental dataset to assess the structural performance of cracked reinforced concrete using Digital Image Correlation techniques with fixed and moving cameras," Data in Brief, vol. 51, 2023.

[4]

A. Sjölander, A. Ansell och E. Nordström, "On the Design of Permanent Rock Support Using Fibre-Reinforced Shotcrete," Fibers, vol. 11, no. 2, s. 20, 2023.

[5]

J. Enzell et al., "Physical Model Tests of Concrete Buttress Dams with Failure Imposed by Hydrostatic Water Pressure," Water, vol. 15, no. 20, 2023.

[6]

L. Östlund, A. Sjölander och E. Brodd, "Post-Cracking Behaviour of Fibre-Reinforced Shotcrete : A Numerical Comparison between Beams and Panels," Fibers, vol. 11, no. 7, s. 59-59, 2023.

[7]

E. Brodd, A. Sjölander och L. Östlund, "The Use of Slag in Accelerated Shotcrete for Rock Support : A Pilot Study on the Influence on the Early Compressive Strength," Nordic Concrete Research, vol. 69, no. 2, s. 73-86, 2023.

[8]

A. Sjölander et al., "Towards Automated Inspections of Tunnels: A Review of Optical Inspections and Autonomous Assessment of Concrete Tunnel Linings," Sensors, vol. 23, no. 6, s. 3189-3189, 2023.

[9]

A. Sjölander och A. Ansell, "Failure Mechanisms of Fibre Reinforced Shotcrete : Numerical Simulations Considering Local Variations in Thickness and Bond Strength," Nordic Concrete Research, vol. 67, no. 2, s. 51-64, 2022.

[10]

A. Sjölander, A. Ansell och R. Malm, "Variations in rock support capacity due to local variations in bondstrength and shotcrete thickness," Engineering Failure Analysis, vol. 128, 2021.

[11]

A. Sjölander et al., "Verification of failure mechanisms and design philosophy for a bolt-anchored and fibre-reinforced shotcrete lining," Engineering Failure Analysis, vol. 116, 2020.

[12]

A. Sjölander och A. Ansell, "In-Situ and Laboratory Investigation on Leaching and Effects of Early Curing of Shotcrete," Nordic Concrete Research, vol. 61, no. 2, s. 23-37, 2019.

[13]

W. Bjureland et al., "Probability distributions of shotcrete parameters for reliability-based analyses of rock tunnel support," Tunnelling and Underground Space Technology, vol. 87, s. 15-26, 2019.

[14]

A. Sjölander och A. Ansell, "Investigation of non-linear drying shrinkage for end-restrained shotcrete of varying thickness," Magazine of Concrete Research, vol. 70, no. 6, s. 271-279, 2018.

[15]

A. Sjölander och A. Ansell, "Numerical simulations of restrained shrinkage cracking in glass fibre reinforced shotcrete slabs," Advances in Civil Engineering / Hindawi, no. 8987626, 2017.

Konferensbidrag

[16]

A. Sjölander et al., "Installation of Large-Scale Load Panels and Measurement of Ice Load on Swedish Dams," i 27th IAHR International Symposium on Ice, Gdansk, Poland, June 9-13, 2024, 2024.

[17]

A. Sjölander, A. Ansell och E. Nordström, "Effective use of fibres of various types and material for shotcrete in rock support for tunnels," i Expanding Underground - Knowledge and Passion to Make a Positive Impact on the World- Proceedings of the ITA-AITES World Tunnel Congress, WTC 2023, 2023, s. 932-939.

[18]

A. Sjölander, A. Ansell och E. Nordström, "Effective use of fibres of various types and material for shotcrete in rock support for tunnels.," i ITA‐AITES World Tunnel Congress, 2023.

[19]

J. Enzell et al., "Realistic numerical simulations of concrete dam failures," i 91st Annual ICOLD Meeting, Gothenburg, Sweden, 13-14 June 2023, 2023.

[20]

A. Ansell, A. Sjölander och L. E. Bryne, "Load bearing capacity for tunnel shotcrete with various fibre types and materials," i Proceedings 6th fib International Congress on Concrete Innovation for Sustainability, 2022.

[21]

L. E. Bryne et al., "Load-bearing capacity for shotcrete of various fibre types and curing sequences," i 47th ITA-AITES World Tunnel Congress, Copenhagen, 2022, 2022.

[22]

A. Sjölander och A. Ansell, "Structural behaviour of fibre-reinforced shotcrete in interaction with hard rock," i XXIV Nordic Research Symposium, Stockholm, Sweden, August 16-19, 2022., 2022.

[23]

B. Valeria et al., "TACK project : Tunnel Automatic CracK monitoring using deep learning and photogrammetry," i Earth Observation for Environmental Monitoring 41^st EARSeL Symposium, Paphos, Cyprus, 13-16 September 2022, 2022.

[24]

A. Sjölander et al., "TACK – an autonomous inspection system for tunnels," i Proceedings of the 47th ITA-AITES World Tunnel Congress, Copenhagen, Denmark, 5-8 September, 2022, 2022.

[25]

A. Ansell och A. Sjölander, "Tunnel Shotcrete Performance due to Varying Thickness and Bond to Hard Rock," i The 47th ITA-AITES World Tunnel Congress, Copenhagen, Denmark, 5-8 September, 2022, 2022.

[26]

V. Belloni et al., "Tack Project: Tunnel and bridge automatic crack monitoring using deep learning and photogrammetry," i The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 2020, s. 741-745.

[27]

A. Sjölander och A. Ansell, "Probabilistic modelling of fibre reinforced shotcrete," i Tunnels and Underground Cities: Engineering and Innovation meet Archaeology, Architecture and Art- Proceedings of the WTC 2019 ITA-AITES World Tunnel Congress, 2019, s. 3105-3112.

[28]

A. Sjölander, R. Hellgren och A. Ansell, "Modelling aspects to predict failure of a bolt-anchored fibre reinforced shotcrete lining," i 8th International Symposium on Sprayed Concrete : Modern Use of Wet Mix Sprayed Concrete for Underground Support, 2018, s. 278-292.

[29]

A. Sjölander och A. Ansell, "Analysis of the interaction between rock and shotcrete for tunnel support," i XXIII Nordic Concrete Research Meeting, 2017.

[30]

L. Ahmed, A. Sjölander och A. Ansell, "Evaluation and analysis of laboratory tests of bolts-anchored, steel-fiber-reinforced shotcrete linings," i Proceedings of the World Tunnel Congress 2017, 2017.

[31]

A. Sjölander, W. Bjureland och A. Ansell, "On failure probability in thin irregular shotcrete shells," i Proceedings of the World Tunnel Congress 2017, 2017.

[32]

T. Gasch et al., "A coupled multi-physics model for creep, shrinkage and fracture of early-age concrete," i 9th International Conference on Fracture Mechanics of Concrete and Concrete Structures, 2016.

[33]

A. Sjölander et al., "Shrinkage cracking of thin irregular shotcrete shells using multiphysics models," i 9th International Conference on Fracture Mechanics of Concrete and Concrete Structures, 2016.

Icke refereegranskade

Artiklar

[34]

J. Enzell et al., "Modellförsök stärker betongdammars säkerhet," Bygg och Teknik, vol. 115, no. 6, 2023.

[35]

A. Sjölander et al., "Klimatsmart fiberarmerad sprutbetong för trafiktunnlar," Bygg och Teknik, vol. 114, no. 6, s. 28-30, 2022.

[36]

A. Sjölander, "Brottmekanismer och bärförmåga för sprutbetong utsatt för blocklast," Bygg och Teknik, no. 6, s. 20-22, 2020.

[37]

A. Sjölander, "Sprutbetongens verkningssätt i interaktion med hårt berg och bult," Bygg och Teknik, no. 7, s. 48-51, 2017.

Avhandlingar

[38]

A. Sjölander, "Structural behaviour of shotcrete in hard rock tunnels," Doktorsavhandling Stockholm : Kungliga Tekniska högskolan, TRITA-ABE-DLT, 209, 2020.

[39]

A. Sjölander, "Analyses of shotcrete stress states due to varying lining thickness and irregular rock surfaces," Licentiatavhandling Stockholm : KTH Royal Institute of Technology, TRITA-BKN. Bulletin, 150, 2017.