Roshan Jayathilaka
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Yield stress criteria to assess the buildability of 3D concrete printing
R Jayathilakage, P Rajeev, JG Sanjayan
Construction and Building Materials 240, 117989, 2020
Direct shear test for the assessment of rheological parameters of concrete for 3D printing applications
R Jayathilakage, J Sanjayan, P Rajeev
Materials and Structures 52 (1), 1-13, 2019
Vibration induced active rheology control for 3D concrete printing
JG Sanjayan, R Jayathilakage, P Rajeev
Cement and Concrete Research 140, 106293, 2021
Predication of Strength-Based Failure in Extrusion-Based 3D Concrete Printing
R Jayathilaka, P Rajeev, J Sanjayan
Rheology and Processing of Construction Materials 23, 391-399, 2019
Characterizing extrudability for 3D concrete printing using discrete element simulations
R Jayathilakage, J Sanjayan, P Rajeev
RILEM International Conference on Concrete and Digital Fabrication, 290-300, 2020
Extrusion rheometer for 3D concrete printing
R Jayathilakage, P Rajeev, J Sanjayan
Cement and Concrete Composites 121, 104075, 2021
Failure mechanisms of carbon nanotube reinforced composites
JRI Jayathilaka, D Dehigaspitiya, ST Pathirana, KRB Herath
Swinburne University of Technology, Washington State University, 2016
Comparison of Rheology Measurement Techniques Used in 3D Concrete Printing Applications
R Jayathilakage, J Sanjayan, P Rajeev
ICSECM 2019, 261-273, 2021
Rheology and Buildability investigation of Concrete for 3D Printing
RIJ Jayathilakage
Swinburne University of Technology, 2021
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