Spelling suggestions: "subject:"demountable shear connectors"" "subject:"demountable shear connector’s""
1 |
Demountable Shear Connectors for Whole Life-Cycle Structural EngineeringLam, Dennis January 2012 (has links)
No
|
2 |
Behaviour of demountable shear connectors in composite structuresRehman, Naveed Ur January 2017 (has links)
The research presented in this thesis is to evaluate the feasibility of demountable shear connectors as an alternative to welded shear connectors in composite structures through push off tests and composite beam tests. Push off tests were conducted to examine the shear strength, stiffness and ductility of demountable shear connectors in composite structures. The experimental results showed that demountable shear connectors in composite structures have very similar shear capacity to welded shear connectors. The shear capacity was compared against the prediction methods used for the welded shear connections given in Eurocode 4 and AISC 360-10 and the methods used for bolted connections in Eurocode 3 and ACI 318-08. It was found that the AISC 360-10 and ACI 318-08 methods overestimated the shear capacity in some cases. The Eurocode method is conservative and can be utilised to predict the shear capacity of demountable connectors in composite structures. The experimental studies of two identical composite beams using demountable shear connectors and welded shear connectors showed very similar moment capacity. However, the specimen with demountable shear connectors was more ductile compared to the welded specimen. The experimental study suggests that the methods available in Eurocode 4 and BS 5950 for predicting moment capacity and mid span deflection can be adopted for composite beam with demountable shear connectors. In addition, a finite element analysis of push off test and beam test with demountable shear connectors was also conducted for parametric studies and results are used to evaluate the behaviour of composite structures.
|
3 |
Behaviour of demountable shear connectors in composite structuresRehman, Naveed January 2017 (has links)
The research presented in this thesis is to evaluate the feasibility of
demountable shear connectors as an alternative to welded shear connectors
in composite structures through push off tests and composite beam tests.
Push off tests were conducted to examine the shear strength, stiffness and
ductility of demountable shear connectors in composite structures. The
experimental results showed that demountable shear connectors in
composite structures have very similar shear capacity to welded shear
connectors.
The shear capacity was compared against the prediction methods used for
the welded shear connections given in Eurocode 4 and AISC 360-10 and the
methods used for bolted connections in Eurocode 3 and ACI 318-08. It was
found that the AISC 360-10 and ACI 318-08 methods overestimated the
shear capacity in some cases. The Eurocode method is conservative and
can be utilised to predict the shear capacity of demountable connectors in
composite structures. The experimental studies of two identical composite beams using
demountable shear connectors and welded shear connectors showed very
similar moment capacity. However, the specimen with demountable shear
connectors was more ductile compared to the welded specimen. The experimental study suggests that the methods available in Eurocode 4 and
BS 5950 for predicting moment capacity and mid span deflection can be
adopted for composite beam with demountable shear connectors.
In addition, a finite element analysis of push off test and beam test with
demountable shear connectors was also conducted for parametric studies
and results are used to evaluate the behaviour of composite structures. / EPSRC and the University of Bradford
|
4 |
Experimental Study on Demountable Shear Connectors in Composite Slabs with Profiled DeckingRehman, Naveed, Lam, Dennis, Dai, Xianghe, Ashour, Ashraf 16 March 2016 (has links)
yes / This paper presents an experimental study on shear strength, stiffness and ductility of
demountable shear connectors in metal decking composite slabs through push-off tests.
Twelve full-scale push-off tests were carried out using different concrete strength, number of
connectors and different connector diameter. The experimental results showed that the
demountable shear connectors in metal decking composite slabs have similar shear capacity
and behaviour as welded shear studs and fulfilled the minimum ductility requirement of 6mm
required by Eurocode 4. The shear capacity was compared against the prediction methods
used for the welded shear connections given in Eurocode 4, AISC 360-10, ACI 318-08 and
method used for bolted connection in Eurocode 3. It was found that the AISC 360-10 method
overestimated the shear capacity while the ACI 318-08 method underestimated the shear
capacity of specimens with single shear connector per trough. The Eurocodes method was
found to provide a safe prediction for specimens with single and pair demountable connectors
per trough. In addition, prediction methods given in both AISC 360-10 and ACI 318-08 for
welded shear studs overestimated the shear capacity of specimens with 22 mm diameter
demountable connectors that failed in concrete crushing. / PhD work from EPSRC studentship
|
5 |
Recent research on composite beams with demountable shear connectorsLam, Dennis, Dai, Xianghe, Ashour, Ashraf, Rehman, Naveed 12 May 2017 (has links)
Yes / This paper presents experimental and numerical investigation on an innovative composite floor system with deconstructability. In this system, a composite slab formed with metal profiled decking is connected to a steel beam using demountable shear connectors. A series of push tests was conducted to investigate the behaviour of this form of shear connectors. In addition to the push tests, a full-scale composite beam was tested to failure in the laboratory under a number of cycles of monotonic loading. For direct comparison, a similar composite beam test was conducted using same section size, concrete strength, but using the conventional welded headed stud connectors. Test results showed that the behaviour of the composite beam with demountable shear connectors is comparable with the specimen with welded shear connectors. After the test was terminated, the demountable shear connectors were unfastened and the composite floor can be easily lifted off from the steel beam. Test result showed that these demountable shear connectors possess high ductility in comparison with the equivalent welded shear connectors. Simple design rules currently use in Eurocode 4 for the welded shear connections and Eurocode 3 for bolts are proposed to predict the shear resistance of this form of demountable shear connectors.
|
6 |
New composite flooring system for the circular economyLam, Dennis, Yang, Jie, Wang, Yong, Dai, Xianghe, Sheehan, Therese, Zhou, Kan 15 September 2021 (has links)
No / Circular economy is an economic system aimed at minimizing wastes and making the most of the current resources. This regenerative approach contrasts with the traditional linear economy, which has been adopted by the construction industry. Developing new construction technologies for sustainable built environment is a top priority for the construction industry throughout the world. Much of the environmental impact from the construction industry is associated with the consumption of resources and generation of waste. The construction industry in Europe consumes over 70,000 million tonnes of materials each year and generates over 250 million tonnes of waste. Composite flooring formed by connecting the concrete slabs to the supporting steel beams has been widely used for many years and is well established as one of the most efficient floor systems in multi storey steel frame building structures. However, shear connectors are welded through the steel decking to the steel beams and cast into the concrete; this made deconstruction and reuse of these components almost impossible. A new composite flooring system which allows for the reuse of the steel beams and composite floor slabs is developed and tested to assess its potential and suitability for reuse. This paper presents the results of a series of full scale beam tests and demonstrates the reusability of this new form of composite flooring systems. Simplified hand calculations are also provided and compared against beam tests / EPSRC, Structural Metal Deck Ltd.
|
Page generated in 0.0816 seconds