What is a Post-Tension Slab?
Before a post-tension slab is poured, high-strength steel strands or cables, called tendons, are laid in a tight grid.These help support and give strength to the slab once the concrete has been cured and they have been tensioned at the proper pressure.
Advantages of Post-tensioned slab systems
Mega Prefab slabs bring unique architectural freedom when compared to conventional building methods. They allow increased spans to be achieved with thinner concrete sections. by reducing the need for columns the structure becomes more efficient and functional.
A Mega Prefab designed slab can contain less concrete (20% to 30%), a minimal quantity of reinforcement and less complicated rebar shaping, leading to a cost-effective sustainable structure.
To obtain maximum benefits from Mega Prefab slabs, it is recommended that the system is incorporated into the building structure at early design stages.
The main advantages of post tensioned slab over conventional reinforced concrete slab, may be summarized as follows:
- Increased clear spans.
- Thinner slabs.
- Lighter structures.
- Reduced cracking and deflections.
- Reduced story height.
- Rapid construction.
- Better water tightness
These advantages can result in significant savings in overall costs. There are also some situations where the height of the building is limited, in which the reduced story height has allowed additional stories to be constructed within the building envelope.
Mega Prefab services
- Project feasibility study for post tension application.
- Preliminary design and cost estimation.
- Final design and shop/working drawings.
- Complete supply and installation of post tensioning systems.
Bonded or Unbonded
Post tensioned slab systems can be constructed using either bonded or unbonded tendons. The relative merits of the two techniques are subject to debate. The following points may be made in favor of each:
- Develops higher ultimate flexural strength
- Does not depend upon the anchorage after grouting
- Localized the effects of damage
- Simple technique for demolishing or providing future opening in slab
- Provides greater available lever arm
- Reduces friction losses
- Simplifies prefabrications of tendons
- Grouting not required
- Can be constructed faster
In bonded systems, two or more strands are inserted into a corrigated galvanized metal or plastic duct that is embedded in the concrete. The strands are stressed with a large, multi-strand jack and anchored in a common anchorage device. The duct is then filled with a cementitious grout that provides corrosion protection to the strand and bonds the tendon to the concrete surrounding the duct.
Bonded systems are used in bridges, both in the superstructure (the
roadway) and in cable-stayed bridges, the cable-stays. In buildings, they are typically used in flat slabs eliminating then need of drop beams and increasing the span length while staying more economical then conventional systems such as hourdi slabs.