Probabilistic representation of duration of load effects in timber structures

In Part I of this paper, the deterioration of the strength of lumber with continued application of constant stress, called the duration-of-load effect, is treated using a viscoelastic, limited ductility fracture mechanics model. The model is explained and developed in a general way, then modified for use with commercial lumber. The problems of assigning correct creep function parameters and values of stress ratio for use in calculations involving the model are discussed. The evident weakening of boards surviving a long-term test can be used to project a failure time that is longer than the test period. Numerical results are shown and compared with the Madison curve, the basis for current design codes. Parts II and III of this paper demonstrate experimental verification and discuss design implications.

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Reliability-based investigation into the duration of load effect for the design of timber structures based on Chinese standard

Structural Safety ◽

10.1016/j.strusafe.2020.102001 ◽

2020 ◽

Vol 87 ◽

pp. 102001

Author(s):

Zheng Li ◽

Xiuzhi Zheng ◽

Chun Ni ◽

Duo Tao ◽

Minjuan He

Keyword(s):

Timber Structures ◽

Load Effect ◽

Chinese Standard ◽

Duration Of Load

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Duration of load tests for shear strength

Canadian Journal of Civil Engineering ◽

10.1139/l86-026 ◽

1986 ◽

Vol 13 (2) ◽

pp. 188-195 ◽

Cited By ~ 2

Author(s):

R. A. Spencer ◽

Borg Madsen

Keyword(s):

Shear Strength ◽

Stress Ratio ◽

Control Sample ◽

Term Strength ◽

Short Term ◽

Current Design ◽

Short Term Strength ◽

Load Effects ◽

Duration Of Load

The strength of wood falls with time under load, and in current design codes the short-term strength of wood is reduced by about 40% to account for duration of load effects. This figure is based on tests made on small bending specimens. In this paper are described tests made on wooden torque tubes to investigate the effect of duration of load on shear strength. A control sample was tested to establish a curve for short-term strength, and four groups of 80 specimens each were then tested under various levels of constant long-term load. Stress ratio at failure was estimated by assuming that the short-term strength of each group could be represented by the control curve, and that under long-term loading specimens would fail in the order of their short-term strength. In each group the stress ratio at failure fell with time under load, and this reduction appears to be related to that predicted by a viscoelastic plastic model. It is concluded that the Madison curve presently used to predict duration of load effects may be conservative at normal levels of applied stress. Key words: wood, shear, long-term loading, duration of load.

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Rate-of-Load and Duration-of-Load Effects for Wood Fasteners

Journal of Structural Engineering ◽

10.1061/(asce)0733-9445(1999)125:7(719) ◽

1999 ◽

Vol 125 (7) ◽

pp. 719-724 ◽

Cited By ~ 17

Author(s):

David V. Rosowsky ◽

Timothy A. Reinhold

Keyword(s):

Load Effects ◽

Duration Of Load

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Reply: Duration of load effects in lumber. Part I: A fracture mechanics approach. Part II: Experimental data. Part III: Code considerations

Canadian Journal of Civil Engineering ◽

10.1139/l83-049 ◽

1983 ◽

Vol 10 (2) ◽

pp. 320-323

Author(s):

K. Johns ◽

B. Madsen

Keyword(s):

Experimental Data ◽

Fracture Mechanics ◽

Load Effects ◽

Duration Of Load

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Duration of load effects on development of deformations in bolted moment connection

10.22616/rrd.26.2020.034 ◽

2020 ◽

Author(s):

Janis Fabriciuss ◽

◽

Lilita Ozola ◽

Keyword(s):

Knee Joint ◽

Experimental Test ◽

Numerical Test ◽

Moment Connection ◽

Test Models ◽

Load Effects ◽

Joint Connection ◽

External Section ◽

Duration Of Load

Experience saved in the construction industry shows that the timber portal frames with semi-rigid connections at knee joint exhibit permanently increase displacements at the knee and apex point. Normally, timber portal frame with semi-rigid knee joint connection is made with mechanical fasteners located in double circles and cannot be designed without relevant rotation at connection during structures’ exploitation time. The only way to increase connection rigidity is to rise distance from fasteners location at connection, but at the same time, the tension and shear stress become significant at the external section of members. The previous experience is obtained by a model testing showing that deformations at semi-rigid connections are non-linear. These were tests under short-term load and did not disclose creep effects, which can be significant. This study is aimed at the examination of increasing deformations with time under constant static load (creep effects) in semi-rigid dowelled connection. Experimental test models were made and set under long-term load in controlled environmental conditions (heated laboratory room). Results show a significant creep influence to decrease connection stiffness. Corresponding numerical test of orthotropic 3d model by Dlubal RFEM software tools was performed analyzing the value of expected deformations. Results of the numerical test showed that friction between timber elements and extra nuts on bolts can increase connection stiffness. Research results in this stage show that the creep can affect connection stiffness more than expected. Also, experimental test results showed lower deformation values comparing with the ones obtained by the numerical test.

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Duration of load in wood: Canadian results and implementation in reliability-based design

Canadian Journal of Civil Engineering ◽

10.1139/l93-050 ◽

1993 ◽

Vol 20 (3) ◽

pp. 358-365 ◽

Cited By ~ 6

Author(s):

Felix Z. Yao ◽

Ricardo O. Foschi

Keyword(s):

Design Guidelines ◽

Fatigue Load ◽

Load Duration ◽

Reliability Based Design ◽

Theoretical Approaches ◽

Timber Construction ◽

Adjustment Factors ◽

Load Effects ◽

Accumulation Of Damage ◽

Duration Of Load

This paper summarizes some Canadian experimental results for duration of load effects in wood, and discusses the theoretical framework utilized for their interpretation and implementation in design guidelines. The theory is based on a model for accumulation of damage, and it is used in the context of reliability assessment of a structure under load over its service life. The paper also compares results from other theoretical approaches. Finally, the background to currently recommended design adjustment factors for duration of load is discussed. Key words: fatigue, load duration, reliability, timber construction, wood.

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