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PRJ-1716 | Bidirectional Testing of Drywall Partition Walls with Novel Details, Integrated into a Rocking Wall Subassembly
PI
Project Type
Experimental
Facilities
Awards
CMMI | 1635363
Keywords
Tall Wood, CLT, Cross Laminated Timber
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Description:
Two different configurations of drywall partition walls were built within a post-tensioned CLT rocking wall subassembly. The overarching objective is to investigate the seismic performance of drywall partition walls when integrated with a rocking wall system, and to assess the influence of out-of-plane loading on the in-plane resistance of the walls. Both configurations also incorporated novel details aimed to reduce damage at low level seismic drifts. In the first configuration, a double or telescoping top track detail aimed to reduce damage at the wall ends was compared to a conventional slip track detail. In the second configuration, two different gap details (a corner gap and a distributed gap) aimed to delay the onset of damage due to collisions at return walls were compared.
Experiment | Phase 2: Gap Detailing in Drywall Partition Walls with Return Walls
Cite This Data:
Hasani, H., K. Ryan, A. Amer, T. Marullo, J. Ricles (2021). "Phase 2: Gap Detailing in Drywall Partition Walls with Return Walls", in Bidirectional Testing of Drywall Partition Walls with Novel Details, Integrated into a Rocking Wall Subassembly. DesignSafe-CI. https://doi.org/10.17603/ds2-k8jn-yy03
View Data
Author(s)
; ; ; ;
Facility
Real-Time Multi-Directional (RTMD) Experimental Facility with Large-Scale Hybrid Simulation Testing Capabilities - LeHigh University
Experiment Type
Large-Scale
Equipment Type
Large-Scale, Real-Time/Hybrid Capable Servo-Hydraulic Actuator System
Date of Experiment
2019-09-11 ― 2019-09-12
Date Published
2021-10-07
DOI
10.17603/ds2-k8jn-yy03
License
Open Data Commons Attribution
Description:
Two partition walls with return walls at both ends and traditional slip-track detailing were investigated. Special gap details were evaluated to reduce damage at the wall intersection. The first detail utilized a large gap in the wall intersection, while the other detail utilized distributed gaps along the wall. The walls were tested under a bidirectional loading protocol, to provide better insight into the wall intersection behavior under bidirectional loading.
Report | Phase 2: Experiment Setup Report
Description:
A report describing the experiment and organization of the data.
File Name
Experimental Setup Report
Model Configuration | Phase 2: Structural and Non-Structural Subassemblies
Description:
Drawings and documentation about the specimen
File Name
Model Drawing
Model Drawing
Video
Video
Model Drawing
Model Drawing
Sensor Information | Phase 2: Control and Sensors
Description:
Servotest Pulsar control system for 2 ATLSS Actuators and 2 NHERI Actuators. Pacific Instruments Data Acquisition System. Custom Matlab/Simulink GUI with Speedgoat Target for CLT algorithm. Sensor channel list and instrumentation drawings.
Experiment | Phase 1: Slip Behavior in Drywall Partition Walls
Cite This Data:
Hasani, H., K. Ryan, A. Amer, T. Marullo, J. Ricles (2021). "Phase 1: Slip Behavior in Drywall Partition Walls", in Bidirectional Testing of Drywall Partition Walls with Novel Details, Integrated into a Rocking Wall Subassembly. DesignSafe-CI. https://doi.org/10.17603/ds2-2r1p-3a21
View Data
Author(s)
; ; ; ;
Facility
Real-Time Multi-Directional (RTMD) Experimental Facility with Large-Scale Hybrid Simulation Testing Capabilities - LeHigh University
Experiment Type
Large-Scale
Equipment Type
Large-Scale, Real-Time/Hybrid Capable Servo-Hydraulic Actuator System
Date of Experiment
2019-08-19 ― 2019-08-20
Date Published
2021-10-07
DOI
10.17603/ds2-2r1p-3a21
License
Open Data Commons Attribution
Description:
The slip behavior of two straight drywall partition walls (without return walls) – one with conventional slip-track detailing and the other with telescoping detailing – was examined. These drywall partition walls were tested under a bidirectional loading protocol, which allowed for systematic evaluation of the effect of out of plane drift on the in-plane resistance of the drywall partition walls.
Report | Phase 1: Experiment Setup Report
Description:
A report describing the experiment and organization of the data
File Name
Published Journal Article
Experimental Setup Report
Model Configuration | Phase 1: Structural and Non-Structural Subassemblies
Description:
Drawings and documentations about the specimen
File Name
Video
Video
Model Drawing
Model Drawing
Model Drawing
Sensor Information | Phase 1: Control and Sensors
Description:
Servotest Pulsar control system for 2 ATLSS Actuators and 2 NHERI Actuators. Pacific Instruments Data Acquisition System. Custom Matlab/Simulink GUI with Speedgoat Target for CLT algorithm. Sensor channel list and instrumentation drawings.
