Lap Length and Development Length in Reinforcement Bars

What is Lap Length?

Lap Length is required when bars placed short of their required length (due to nonavailability of longer bars) need to be extended. Lap Length is also required when the bar diameter has to be changed along the length (as is sometimes done in columns).Branding

The purpose of ‘Lap’ is to transfer the axial force effectively from the terminating bar into the connecting bar with this same line of action in the junction.

This invariably introduces stress concentrations at this surrounding concrete. These effects should be minimized by

1. Using proper splicing techniques.
2. Keeping these lapping locations away from sections with high flexural/shear stresses. and
3. Staggering the locations of splicing at the individual bars of a group (as typically in a column).

When splicing in such situations becomes unavoidable, special precautions need to be employed, such as

1. Increasing the length of the lap length (In lap splices and lap welding)
2. Using spirals or closely-spaced stirrups around the length of the stirrups.

Type of Lapping Method:

1. The lapping of bars (lap splice)
2. Welding of bars (welded splice)
3. Mechanical connection.

What is Development Length?

The development length is defined as the length of the bar required on either side of the section under consideration. To develop the required stress in steel at that section through a bond.

The calculated tension or compression in any bar at any section shall be developed on the peach side -of the section by an appropriate development length or end anchorage or by a combination thereof. as per IS code 456-2000, Page-42, Cl. 26.2

The preceding discussion suggests this concept of development length of a reinforcing bar. The development length is defined as the length of embedment necessary into developing the full tensile strength of this bar, controlled by either pullout or splitting.

With reference to as per below fig, the moment, and therefore the steel stress, is evidently maximum in point a (neglecting the weight of the beam) and zero at the supports.

If the bar stress is f, at a, then the total tension force Abl, must be transferred from the bar to this concrete in the distance 1 by bond forces.

To fully develop this strength of the bar, the distance one must be at least equal to the development length of this bar, established by tests.

In the beam of as per above fig, if the actual length /is equal to or greater than the development length Id, no premature bond failure will occur.

The beam will fail at bending or shear rather than by bond failure. This will be so even when, in the vicinity of cracks, local slip may have occurred over small regions along this beam.

It is seen that the main requirement for safety against bond failure is this: the length of the bar, from any point of given steel stress (L or at most f) to it’s nearby free end, must be at least equal to its development length.

If this requirement is satisfied, this magnitude of the nominal flexural bond force along the beam, as given by Eq. (as below), is of only secondary importance, since the integrity of this member is ensured even in this face of possible minor local bond failures.

U = V/JD

However, if this actual available length is inadequate for full development, special anchorage, such as by hooks, must be provided.

Difference Between Lap Length and Development Length

FAQs on Lap Length and Development Length in Reinforcement Bars

What is Lap Length?

Lap Length is the length required to overlap two reinforcing bars to transfer the axial force from one bar to another effectively. It is necessary when bars are short of their required length or when changing the bar diameter along the length.

Why is Lap Length important?

Lap Length is crucial for ensuring structural integrity by transferring stress between bars, especially in areas where long bars are not available or bar diameter changes. Proper lapping techniques minimize stress concentrations in the surrounding concrete.

How can stress concentrations at lap splices be minimized?

Stress concentrations can be minimized by:

1. Using proper splicing techniques.
2. Keeping lapping locations away from sections with high flexural/shear stresses.
3. Staggering the locations of splices in a group of bars.

What precautions are necessary when splicing bars?

When splicing is unavoidable, special precautions include:

1. Increasing the length of the lap.
2. Using spirals or closely-spaced stirrups around the length of the splice.

What are the types of lapping methods?

The main types of lapping methods are:

1. Lapping of bars (lap splice).
2. Welding of bars (welded splice).
3. Mechanical connections.

What is Development Length?

Development Length is the length of a bar required on either side of a section to develop the necessary stress in the steel at that section through a bond with the concrete.

How is Development Length determined?

Development Length is determined by the required stress in the steel and the bond forces that transfer tension or compression from the bar to the concrete. It ensures that the bar can develop its full tensile strength without premature bond failure.

Where is Development Length provided?

Development Length is provided at the ends of beams, columns, or slabs to ensure proper grip and support, preventing slipping and ensuring structural integrity.

What is the main difference between Lap Length and Development Length?

1. Lap Length: Required to transfer load or stress from one bar to another.
2. Development Length: Required to transfer load or stress from a bar into the concrete.

Can special anchorage methods be used if the Development Length is inadequate?

Yes, if the available length is inadequate for full development, special anchorage methods, such as hooks, must be provided to ensure the integrity of the structure.