Fernando Perez scite author profile

Fernando Perez

3Publications

13Citation Statements Received

11Citation Statements Given

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Affiliations

Wallwork (United Kingdom), Simpson Strong-Tie (United States)

Publications

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Dynamic Response of Tall Timber Buildings Under Service Load – The Dynattb Research Program

Abrahamsen¹,

Bjertnæs²,

Bouillot³

et al. 2020

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Wind-induced dynamic excitation is becoming a governing design action determining size and shape of modern Tall Timber Buildings (TTBs). The wind actions generate dynamic loading, causing discomfort or annoyance for occupants due to the perceived horizontal sway-i.e. vibration serviceability failure. Although some TTBs have been instrumented and measured to estimate their key dynamic properties (natural frequencies and damping), no systematic evaluation of dynamic performance pertinent to wind loading has been performed for the new and evolving construction technology used in TTBs. The DynaTTB project, funded by the Forest Value research program, mixes on site measurements on existing buildings excited by heavy shakers, for identification of the structural system, with laboratory identification of building elements mechanical features coupled with numerical modelling of timber structures. The goal is to identify and quantify the causes of vibration energy dissipation in modern TTBs and provide key elements to FE modelers.

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Structural Performance of Accoya® Wood under Service Class 3 Conditions

Marcroft¹,

Bongers

Perez

et al. 2014

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Dynamic Response of Tall Timber Buildings Under Service Load - Results From the Dynattb Research Program

Abrahamsen

Bjertnæs

Bouillot

et al. 2023

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Wind-induced dynamic excitation is a governing design action determining size and shape of modern Tall Timber Buildings (TTBs). The wind actions generate dynamic loading, causing discomfort or annoyance for occupants due to the perceived horizontal sway, i.e. vibration serviceability problem. Although some TTBs have been instrumented and measured to estimate their key dynamic properties (eigenfrequencies, mode shapes and damping), no systematic evaluation of dynamic performance pertinent to wind loading had been performed for the new and evolving construction technologies used in TTBs.The DynaTTB project, funded by the ForestValue research program, mixed on site measurements on existing buildings excited by mass inertia shakers (forced vibration) and/or the wind loads (ambient vibration), for identification of the structural system, with laboratory identification of building elements mechanical features, coupled with numerical modelling of timber structures. The goal is to identify and quantify the causes of vibration energy dissipation in modern TTBs and provide key elements to finite element models. This paper presents an overview of the results of the project and the proposed Guidelines for design of TTBs in relation to their dynamic properties.

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Fernando Perez

Dynamic Response of Tall Timber Buildings Under Service Load – The Dynattb Research Program

Structural Performance of Accoya® Wood under Service Class 3 Conditions

Dynamic Response of Tall Timber Buildings Under Service Load - Results From the Dynattb Research Program

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