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AVP Lightweight Ready Mix Concrete

What is Lightweight Ready Mix Concrete?

A unique kind of concrete called lightweight Ready Mix concrete is made with an equation that results in a less dense product than regular concrete. Air-entraining agents or lightweight aggregates are used to achieve this. The end result is a concrete mixture that is stronger and lighter in weight while yet having good structural integrity.

Concrete that is lighter in weight than regular concrete has a lower density. Lightweight aggregates like expanded shale, expanded clay, or expanded slag are used to achieve this. The density of lightweight concrete can range from 800 to 2000 kg/m3, as opposed to 2000 to 2500 kg/m3 for conventional concrete.

Where is Lightweight Ready Mix Concrete used?

  • Roof Decks
  • Precast Concrete Elements such as panels, blocks, and architectural details.
  • Hollow Core Slabs
  • Architectural Details to create decorative elements, architectural details, and other ornamental features in buildings.
  • Sloping and Overhead Applications
  • Fireproofing
  • Soundproofing
  • High-temperature applications such as in refractory linings of industrial furnaces or kilns.
  • Green Building Practices
  • Load-Bearing Application
  • Infill and Backfill Material in various construction projects.
  • Retaining Walls
  • Bridge Decks
  • Tunnels and Underground Structures

What are the advantages of Lightweight Ready Mix Concrete?

  • Lower weight: Compared to conventional concrete, lightweight concrete is substantially lighter, making it simpler to transport and work with.
  • Better thermal insulation: Compared to regular concrete, lightweight concrete has better thermal insulation qualities, which can aid in energy cost savings.
  • Reduced fire risk: Compared to regular concrete, lightweight concrete is less combustible, which may help to increase fire safety.
  • Higher sound absorption: Compared to regular concrete, lightweight Ready Mix concrete has higher sound absorption qualities, which can help lower noise levels.

  • Environmental Benefits: Compared to traditional concrete mixes, the production of Lightweight Ready Mix Concrete frequently uses less energy and fewer raw materials. This may result in a lesser effect on the environment.

  • Better Workability and Pumpability: LWRC frequently demonstrates outstanding workability, making placement and finishing simple. Long-distance pumping is also easier with it.

  • Versatility in Applications: Applications for Lightweight Ready Made Concrete are many and include industrial, commercial, and residential buildings. It is especially appropriate in scenarios when weight is a significant factor.

It’s crucial to keep in mind that Lightweight Ready Mix concrete needs to be mixed, placed, and dried in a certain way and that it should be utilized in line with manufacturer recommendations and industry regulations. When utilizing lightweight concrete in certain applications, always get the advice of a knowledgeable engineer or contractor to make sure it satisfies the project’s specifications.

Safety precautions for Lightweight Ready Made Concrete:

To protect worker health and safety as well as the integrity of the building project, special safety measures must be taken when working with lightweight ready mix concrete (LWRC). 

  • Personal Protective Equipment (PPE)
  • Training and Education
  • Avoid Overloading Mixers and Equipment
  • Safe Handling of Agitators and Concrete Trucks
  • Ventilation and Dust Control
  • Emergency Response Plan

When utilizing Lightweight Ready Mix Concrete, you may greatly lower the chance of accidents and make the workplace safer by putting these safety precautions into place.


Knowledge Base

Lightweight concrete advantages are reduced structural load, better insulating qualities, and easier handling during construction. It is perfect for projects where weight concerns are crucial.

Lightweight concrete is used in high-rise buildings, precast elements, bridge decks, and in circumstances where soil settlement may occur, lightweight concrete is frequently used.

Several techniques are used to minimize the weight of lightweight concrete. Using light aggregates, such as expanded clay, shale, or slag, is one typical strategy. Another approach involves adding air entraining agents to the mixture to add bubbles.