Competitive timber floors Optimisation of hollow section timber floor elements for adaptable buildings
Doctoral thesis
Permanent lenke
https://hdl.handle.net/11250/2738315Utgivelsesdato
2021Metadata
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Paper 1: Nesheim, S., K. A. Malo and N. Labonnote. 2021. Effect of interconnects on timber floor elements: dynamic and static evaluations of structural scale tests https://doi.org/10.1007/s00107-021-01709-yPaper 2: Vilguts, A., S. Nesheim, H. Stamatopoulos and K. A. Malo. 2021. A study on beam-to-column moment-resisting timber connections, comparing fullscale connection testing and mock-up frame assembly
Paper 3: Nesheim, S., K. A. Malo and N. Labonnote. 2021. Competitiveness of timber floor elements: an assessment of structural properties, production, costs and carbon emissions https://doi.org/10.13073/FPJ-D-20-00067
Paper 4: Nesheim, S., K. Mela, K. A. Malo and N. Labonnote. 2021. Optimisation of costs and carbon emission of timber floor elements.
Paper 5: Nesheim, Sveinung. Assessing adequacy of numerical representation for optimisation performances in long span timber floors. World Conference in Timber Engineering 2018 ISBN: 979-11-6019-235-3
Paper 6: Nesheim, S., K. A. Malo and N. Labonnote. 2021. Conditions and features of a design tool for long-span timber floor elements.