Follow
Michael Ramage
Michael Ramage
Department of Architecture, Cambridge University
Verified email at cam.ac.uk - Homepage
Title
Cited by
Cited by
Year
The wood from the trees: The use of timber in construction
MH Ramage, H Burridge, M Busse-Wicher, G Fereday, T Reynolds, ...
Renewable and sustainable energy reviews 68, 333-359, 2017
12872017
Engineered bamboo for structural applications
B Sharma, A van der Vegte
Nonconventional and vernacular construction materials, 597-623, 2020
7112020
Form and forces: designing efficient, expressive structures
E Allen, W Zalewski
John Wiley & Sons, 2009
3272009
Effect of processing methods on the mechanical properties of engineered bamboo
B Sharma, A Gatóo, MH Ramage
Construction and Building Materials 83, 95-101, 2015
2222015
Engineered bamboo: state of the art
RM Sharma, B., Gatóo, A., Bock, M., Mulligan H.
Proceedings of the Institution of Civil Engineers: Construction Materials …, 2014
222*2014
Bioinspired supramolecular fibers drawn from a multiphase self-assembled hydrogel
Y Wu, DU Shah, C Liu, Z Yu, J Liu, X Ren, MJ Rowland, C Abell, ...
Proceedings of the National Academy of Sciences 114 (31), 8163-8168, 2017
1312017
The strength of plants: theory and experimental methods to measure the mechanical properties of stems
DU Shah, TPS Reynolds, MH Ramage
Journal of Experimental Botany 68 (16), 4497-4516, 2017
1282017
Sustainable structures: bamboo standards and building codes
A Gatóo, B Sharma, M Bock, H Mulligan, MH Ramage
Proceedings of the Institution of Civil Engineers-Engineering Sustainability …, 2014
1062014
Dowelled structural connections in laminated bamboo and timber
T Reynolds, B Sharma, K Harries, M Ramage
Composites Part B: Engineering 90, 232-240, 2016
882016
Thermal conductivity of engineered bamboo composites
DU Shah, MCD Bock, H Mulligan, MH Ramage
Journal of Materials Science 51, 2991-3002, 2016
862016
Proposal for defining a tall timber building
RM Foster, TPS Reynolds, MH Ramage
Journal of Structural Engineering 142 (12), 02516001, 2016
772016
Exploring the potential of waste leaf sheath date palm fibres for composite reinforcement through a structural and mechanical analysis
A Bourmaud, H Dhakal, A Habrant, J Padovani, D Siniscalco, ...
Composites Part A: Applied Science and Manufacturing 103, 292-303, 2017
722017
Chemical composition of processed bamboo for structural applications
B Sharma, DU Shah, J Beaugrand, ER Janeček, OA Scherman, ...
Cellulose 25, 3255-3266, 2018
712018
Relationship of structure and stiffness in laminated bamboo composites
M Penellum, B Sharma, DU Shah, RM Foster, MH Ramage
Construction and Building Materials 165, 241-246, 2018
672018
Super Tall Timber: design research for the next generation of natural structure
M Ramage, R Foster, S Smith, K Flanagan, R Bakker
The journal of architecture 22 (1), 104-122, 2017
642017
Mechanical characterisation of structural laminated bamboo
B Sharma, H Bauer, G Schickhofer, MH Ramage
Proceedings of the Institution of Civil Engineers-Structures and Buildings …, 2017
632017
Processing bamboo for structural composites: Influence of preservative treatments on surface and interface properties
DU Shah, B Sharma, MH Ramage
International Journal of Adhesion and Adhesives 85, 15-22, 2018
562018
The potential for using geopolymer concrete in the UK
A Heath, K Paine, S Goodhew, M Ramage, M Lawrence
Proceedings of the Institution of Civil Engineers-Construction Materials 166 …, 2013
552013
Investing in Nature as the true engine of our economy: A 10-point Action Plan for a Circular Bioeconomy of Wellbeing
M Palahí, M Pantsar, R Costanza, I Kubiszewski, J Potočnik, M Stuchtey, ...
European Forest Institute, 2020
542020
Nomenclature for engineered bamboo
X Liu, GD Smith, Z Jiang, MCD Bock, F Boeck, O Frith, A Gatóo, K Liu, ...
BioResources, 2016
542016
The system can't perform the operation now. Try again later.
Articles 1–20