Monotonic and cyclic short-term performance of nailed and bolted timber connections

This paper presents the results of testing to determine the appropriateness of the seismic load duration factor and to investigate the possible effect of previous load history from cyclic loading on connection reserve capacity and ductility. The single shear nail and bolt connection types tested rep...

Full description

Bibliographic Details
Main Author: Gutshall, Scott T.
Other Authors: Wood Science and Forest Products
Format: Others
Published: Virginia Polytechnic Institute and State University 2014
Subjects:
Online Access:http://hdl.handle.net/10919/50106
id ndltd-VTETD-oai-vtechworks.lib.vt.edu-10919-50106
record_format oai_dc
spelling ndltd-VTETD-oai-vtechworks.lib.vt.edu-10919-501062021-01-07T05:32:06Z Monotonic and cyclic short-term performance of nailed and bolted timber connections Gutshall, Scott T. Wood Science and Forest Products LD5655.V855 1994.G887 Timber joints -- Testing Materials -- Dynamic testing This paper presents the results of testing to determine the appropriateness of the seismic load duration factor and to investigate the possible effect of previous load history from cyclic loading on connection reserve capacity and ductility. The single shear nail and bolt connection types tested represent common connection geometries used in wood construction in the United States. The results of two methods of fully reversing cyclic loading of connections are presented. The first method was a load-controlled test with the applied cyclic loads acting at specified percentages above current nominal design values. The sets of specimens were then ramped to failure and the results were compared to a monotonic control set of specimens to determine if any reduction in connection capacity or ductility had occurred as a result of the cyclic loading. From the load-controlled cyclic testing, it was found that previous cyclic loading at load levels as high as twice current nominal design loads did not adversely affect connection capacity. The second cyclic loading method was a displacement-controlled test that involved successive phases at increasing displacement levels. Each phase consisted of a peak displacement, followed by a series of three decay cycles, then by a series of three cycles at the original peak displacement, the third of which is used to determine the stabilized system. The process is repeated at increasing incremental levels of displacement. The phased displacement stabilized load-displacement curve was fit to an equivalent energy elastic-plastic system for determination of connection parameters. Results from the two cyclic test methods, and from monotonic testing, indicate that the current load duration factor for wind and seismic loading is justified. Master of Science incomplete_metadata 2014-08-13T14:40:22Z 2014-08-13T14:40:22Z 1994 Thesis Text http://hdl.handle.net/10919/50106 OCLC# 31298291 In Copyright http://rightsstatements.org/vocab/InC/1.0/ xvii, 192 leaves application/pdf application/pdf Virginia Polytechnic Institute and State University
collection NDLTD
format Others
sources NDLTD
topic LD5655.V855 1994.G887
Timber joints -- Testing
Materials -- Dynamic testing
spellingShingle LD5655.V855 1994.G887
Timber joints -- Testing
Materials -- Dynamic testing
Gutshall, Scott T.
Monotonic and cyclic short-term performance of nailed and bolted timber connections
description This paper presents the results of testing to determine the appropriateness of the seismic load duration factor and to investigate the possible effect of previous load history from cyclic loading on connection reserve capacity and ductility. The single shear nail and bolt connection types tested represent common connection geometries used in wood construction in the United States. The results of two methods of fully reversing cyclic loading of connections are presented. The first method was a load-controlled test with the applied cyclic loads acting at specified percentages above current nominal design values. The sets of specimens were then ramped to failure and the results were compared to a monotonic control set of specimens to determine if any reduction in connection capacity or ductility had occurred as a result of the cyclic loading. From the load-controlled cyclic testing, it was found that previous cyclic loading at load levels as high as twice current nominal design loads did not adversely affect connection capacity. The second cyclic loading method was a displacement-controlled test that involved successive phases at increasing displacement levels. Each phase consisted of a peak displacement, followed by a series of three decay cycles, then by a series of three cycles at the original peak displacement, the third of which is used to determine the stabilized system. The process is repeated at increasing incremental levels of displacement. The phased displacement stabilized load-displacement curve was fit to an equivalent energy elastic-plastic system for determination of connection parameters. Results from the two cyclic test methods, and from monotonic testing, indicate that the current load duration factor for wind and seismic loading is justified. === Master of Science === incomplete_metadata
author2 Wood Science and Forest Products
author_facet Wood Science and Forest Products
Gutshall, Scott T.
author Gutshall, Scott T.
author_sort Gutshall, Scott T.
title Monotonic and cyclic short-term performance of nailed and bolted timber connections
title_short Monotonic and cyclic short-term performance of nailed and bolted timber connections
title_full Monotonic and cyclic short-term performance of nailed and bolted timber connections
title_fullStr Monotonic and cyclic short-term performance of nailed and bolted timber connections
title_full_unstemmed Monotonic and cyclic short-term performance of nailed and bolted timber connections
title_sort monotonic and cyclic short-term performance of nailed and bolted timber connections
publisher Virginia Polytechnic Institute and State University
publishDate 2014
url http://hdl.handle.net/10919/50106
work_keys_str_mv AT gutshallscottt monotonicandcyclicshorttermperformanceofnailedandboltedtimberconnections
_version_ 1719372093649321984