Type 2
heavy duty 4-in-1 rebar chair
for protective layers 40, 50, 60, 75 mm

Get green building certificate

Legoplast 4-in-1 rebar spacers are comprised of 80% post-consumer recycled content by weight. Additionally, the product itself is 100% recyclable.

Legoplast Plastic Manufacturing uses mechanically recycled Polypropylene (PP) in its product manufacturing. This material significantly reduces the carbon footprint compared to virgin polypropylene. Studies indicate that this process can cut greenhouse gas emissions by up to 80%, primarily by eliminating the energy-intensive production associated with virgin plastic.

The adoption of recycled polypropylene promotes sustainable manufacturing practices within the construction industry. Unlike traditional materials such as concrete, which have a high carbon footprint due to cement production, Legoplast's heavy-duty 4-in-1 plastic spacers offer an environmentally friendly alternative. Construction companies in the UAE and GCC contributes to reducing their projects' environmental impact by using Legoplast spacers instead of the commonly used concrete cover blocks.

PDF    Environmental Product Declaration

No wires needed, save installation time

Type 2 Rebar Spacers install quickly and easily, eliminating the need for labor-intensive wire ties to secure them to the rebar. Legoplast heavy duty rebar chairs support and stabilize the rebar mats and allow for quick rebar grid setup time. Our product is designed to simplify your construction projects and ensure the longevity of your reinforced concrete structures.

Installation recommendations

Legoplast recommends using six (6) plastic rebar spacers (cover blocks) per square meter of rebar mesh for optimal structural integrity

Standard Installation Pattern: For standard applications, a spacing pattern of 60 centimeters by 40 centimeters (60cm x 40cm) is recommended for even distribution of the spacers throughout the rebar mesh.

Heavy Duty Applications: In the case of ultra-heavy structures requiring enhanced support, Legoplast suggests utilizing a denser placement pattern of 40 centimeters by 40 centimeters (40cm x 40cm) to ensure sufficient concrete cover and reinforcement stability.

PDF    Installation guide

Reliable concrete bonding

Our 4-in-1 heavy-duty spacers have been meticulously designed to optimize concrete flowability. By ensuring that cement and aggregate thoroughly envelop the spacer from all angles, we create a cohesive, integrated structure with dependable bonding performance.

To validate this bonding, two pull-out tests were conducted. Legoplast plastic rebar spacers equipped with a pulling system were positioned within the formwork, cast with concrete, and allowed to cure for a period of 7 days and 28 days. Subsequently, the pull-out test was executed. Under load application, the pulling frame with 7 days concrete sample has fractured at 33.4 kN of applied force, while the pulling frame with 28 days concrete sample fractured at 35.98 kN. Notably, no debonding occurred between the concrete and the plastic rebar spacer in both samples.

PDF    Concrete Bonding (Pull-Out) Test 7 Days


PDF    Concrete Bonding (Pull-Out) Test 28 Days

Designed in compliance with CRSI Manual of Standard Practice (30th edition)

PDF    Design drawings for Type 2 spacer

Perforation rate far exceeds 75% both in volume and surface

Legoplast plastic spacer is perforated to 88% of its volume

PDF    Perforation % per volume

Legoplast plastic spacer is perforated to 89.4% of its installation surface area

PDF    Perforation % per installation surface

No voids (cavities) confirmation

In this study, we investigated the castability of the C40 grade concrete (Ordinary Portland Cement) and 20mm aggregate mix when utilizing Legoplast plastic rebar spacers.

Four Type 1 rebar spacers were embedded in concrete cubes composed of a concrete and aggregate mix commonly used for superstructure slabs (C40/20 OPC with 66% GGBS content).

After curing for 28 days, all four cubes were vertically cut and examined. Notably, no voids or cavities were observed either below or above the plastic rebar spacer. This result highlights the ease of concrete penetration around the spacer, even in the presence of 20mm aggregate.

PDF    Flowability study