The paper addresses the design and behaviour of narrow cast in - situ joints between precast concrete elements in which continuity of reinforcement is achieved through overlapping headed bars. Using headed bars minimises the lap length required with in the cast - in - situ joint region. Confining reinforcement in the form of transverse bars and vertical shear studs is also installed in the joint. Th e paper describes a series of tensile tests which were carried out to simulate the tensile zone of a joint loaded in pure flexure . The headed bars used in the tests were 25 mm in diameter with 70 mm square heads and yield strength of 5 30 MPa. The tests studied the influences of concrete strength, headed bar spacing, splice length, transverse reinforcement and conf ining shear studs on joint strength . A lap length of 100 mm in concrete with 28 MPa cylinder strength was found to be sufficient to develop the full strength of the headed bars . A strut - and - tie model (STM) is presented for determining joint strength. Analys is shows that the STM gives safe results even though it does not fully capture the observed joint behaviour. An upper bound plasticity model is found to give relatively good predictions of joint strength in most cases , although it also does not always capt ure the correct failure mechanism . The tests provide insights into joint behaviour which, in conjunction with numerical modelling, will facilitate the development of an improved design method. W idespread use of this system would lead to improvements in bui ldability, sustainability and health and safety in the construction of concrete structures
The paper addresses the analysis and design of narrow cast in-situ joints between precast concrete elements in which continuity of reinforcement is achieved through overlapping headed bars. Using headed bars minimises the lap length required within the cast-in-situ joint region. The paper describes a nonlinear finite element model (NLFEM) which was used to simulate a series of tension splice tests carried out by the authors to simulate the tensile zone of a joint loaded in pure flexure. The tests studied the influences of concrete strength, transverse reinforcement, confining shear studs, headed bar spacing and lap length on joint strength. Results show that the NLFEM captures the behaviour of the joint well.Parametric studies are carried out with the validated numerical model to investigate the effects of variables not considered in the tests such as shear stud size, cover and out-of-plane offset of the headed bars. The NLFEM provides otherwise unavailable insights into joint behaviour and is considered suitable for the design of standard joint configurations. Additionally, it can assist the development of design oriented analysis methods.
<p>Studies have shown that current bridge assessments are often overly conservative. In particular, engineers often use elastic analysis to predict the load at which a concrete slab bridge will fail in flexure and thus may grossly underestimate its ultimate capacity. This leads to bridges being unnecessarily strengthened or even rebuilt, creating wasteful expense and unsustainable use of resources.</p><p>Upper bound plastic „yield line‟ analysis is sometimes used to perform less conservative calculations, but it is difficult to apply to cases with complex geometry and engineers are often concerned that the result may an unsafe overestimate of the collapse load. Modern computational methods enable automated lower bound analysis, which has been found to give good results but is still not guaranteed to be accurate. This paper introduces the concept of „combined lower and upper bound plastic analysis‟, in which the results of a lower bound analysis assist in generating an upper bound solution. The resulting close upper and lower bounds on the plastic collapse load prove that the maximum deviation from the theoretical exact solution is small.</p>
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.