Abstract
The LVL-concrete composite (LCC) structure is a hybrid in system which the LVL member is well connected to the concrete slab by a connector to produce composite action. Various types of connector with different stiffness and shear capacity are available in the market currently. The stiffness of the connector is identified through the push-out experiment. The notch connections for LVL concrete composite beams have higher stiffness and strength compared to mechanical fasteners. This paper discusses the experimental results of symmetrical push-out tests on 3 different types of connector, 150mm rectangular notch with 10mm diameter screw, 100mm rectangular notch with 8mm diameter screw and 100mm triangular notch with 8mm diameter screw. The experimental test was shear push out to failure and the type of failure was discussed. The 150mm rectangular notch was found to be strongest among all and low cost. The 100mm rectangular notch was found to be slightly stiffer than 100mm triangular notch but 100mm triangular notch is easier to construct with only 2 cut. The maximum strength and stiffness at ultimate limit states and serviceability limit states of each type of connection were discussed in this paper.
Highlights
Timber-concrete composite (TCC) is an upgrade of traditional timber floors to improve the dynamic and static behavior at serviceability limit state
This paper investigates the vibration performance of long span Laminated Veneer Lumber (LVL)-concrete composite (LCC) flooring system
LCC is an upgrade of TCC, and is a hybrid system made of a concrete slab and an LVL joist, with shear connectors to prevent slip
Summary
Timber-concrete composite (TCC) is an upgrade of traditional timber floors to improve the dynamic and static behavior at serviceability limit state. TCC structures primarily consist of a concrete slab mechanically connected to a timber joist through the use of connectors [5]. LCC is an upgrade of TCC, and is a hybrid system made of a concrete slab and an LVL joist, with shear connectors to prevent slip.
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