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Concrete blocks stacked together
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How to Make Concrete Blocks for Construction: A Step-by-Step Guide
8 minute read
Kevin Forestell headshot
Kevin Forestell
April 2, 2024

Step-by-Step Guide on How to Make Concrete Blocks for Sturdy Construction

Concrete blocks are used commonly across all types of construction projects. While most contractors will buy them from a supplier, there are ways to make them yourself. In this blog, we’ll take you from the fundamentals of how to make concrete blocks, from mixing the concrete to storing them for future use.

Key Takeaways

  • Concrete blocks are used in construction for their versatility. They are available in various types and sizes for different uses and are optimized for aspects like strength, insulation, and spatial efficiency in buildings.

  • Quality blocks require a precise mix of cement, sand, gravel, and water, with the option to include chemical additives for enhanced properties, ensuring the blocks meet strength and durability standards.

  • The manufacturing process involves careful measuring, mixing, consistency checking, pouring, and shaping into molds, followed by a critical curing phase and proper storage, with quality control inspections to maintain high standards.

Understanding Concrete Blocks

Concrete blocks, also known as concrete bricks, are an essential part of the built world. Made from a blend of cement, aggregate, and water, these cement block alternatives have heavyweight solid forms for load-bearing and lightweight concrete blocks for insulation.

There are many types of concrete blocks, such as stretchers, corners, and decorative blocks, each fulfilling a unique role in the design of construction. Their size and design, with lengths spanning up to 16 inches, can be adjusted to match a project's building specifications.

Essential Components for Concrete Blocks

Before making concrete bricks, one must first understand the basic ingredients: Portland cement, sand, gravel, and water. The mix is designed to make blocks with strength, workability, and durability.

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The choice of concrete block is influenced by the desired strength of the finished product. With the option to infuse chemical additives into the mix, provided they comply with specific industry standards, one can enhance properties like workability and strength, thus tailoring the concrete blocks to the demands of their destined structures.

Cement

The primary ingredient of any concrete block is Portland cement, a material developed by the English stonemason Joseph Aspdin in 1824. Its recipe, a mixture of silicon, calcium, iron, aluminum, and other components such as limestone and slate, serves as the primary binder in the concrete mix. Its importance lies in its unique chemical properties and ability to undergo hydration, forming a strong and cohesive matrix that binds the aggregates together.

Furthermore, cement provides versatility in concrete production, allowing for a wide range of applications due to its adaptability to various aggregate types, additives, and curing methods. It enables the formulation of concrete mixes tailored to specific project requirements, whether for residential, commercial, or infrastructure projects.

Sand and Gravel

Sand and gravel play pivotal roles in the formulation of concrete, serving as vital components that contribute to its overall strength, durability, and workability. As aggregate materials, they occupy a significant portion of the concrete mixture, often from 60 to 75 percent. These aggregates fill the spaces between cement particles and reduce the amount of cement paste required, enhancing the material's cost-effectiveness. This combination of crushed stone and fine sand not only ensures the proper cohesion and flowability of the concrete mix but also facilitates its placement and finishing processes, enhancing workability.

Sand and gravel piles
Sand and gravel are two of the most important ingredients of concrete.

Moreover, the quality of sand and gravel greatly influences the durability of the concrete bricks produced. By incorporating clean, hard, and durable particles, the resulting concrete can better withstand the effects of weathering, abrasion, and other environmental factors, ensuring its longevity and performance over time.

Water

Water is a crucial component in concrete because it initiates and facilitates the hydration process of cement, reacting with cement to create a paste that binds the aggregates into a single, solid form. Additionally, water plays a crucial role in the workability and consistency of the concrete mix. The right water-to-cement ratio is crucial for achieving the desired strength, durability, and workability of the concrete. Too much water can weaken the mixture and lead to shrinkage, while too little water can make the concrete stiff and difficult to work with.

The amount of water used in a concrete mix is typically expressed as a water-to-cement (w/c) ratio, which represents the weight of water relative to the weight of cement in the mixture. The water-to-cement ratio can vary depending on factors such as the desired strength, workability, and environmental conditions.

A commonly used range for the water-to-cement ratio in concrete mixes is that for every unit of cement (by weight), there would be approximately 0.4 to 0.6 units of water. For example, if a concrete mix has a water-to-cement ratio of 0.4, it means that for every 100 pounds of cement used, there would be 40 pounds of water. The water used in the mix must be free from contaminants and tested for chlorides to safeguard the integrity of the blocks.

Preparing the Concrete Mixture

The preparation of the concrete mixture requires precision and patience. With a unique composition that favors a higher sand and a lower gravel content, the mix is engineered to meet the specific needs of block making. By understanding the science behind concrete mixtures, we can ensure the highest quality and durability in our projects.

Measuring Ingredients

The first step is to measure the amount of cement needed for the mix. This is usually done by weight using scales or by volume using measuring containers. The next step is to measure the aggregates. Again, this can be done by weight or volume, depending on the specific requirements of the project. Water is then added to the mix based on the desired water-to-cement ratio. Care must be taken to accurately measure the water to ensure consistency in the mixture.

Mixing Process

To mix concrete, add the dry ingredients such as cement and aggregates to a concrete mixer or pan mixer to combine and mix thoroughly. This helps to ensure uniform distribution of the materials and prevents clumping. Once the dry ingredients are mixed, water is gradually added to the mixer while it continues to rotate. The water should be added slowly to achieve the desired consistency without making the mixture too wet.

concrete-mixer
Mixers can be used on construction projects to make concrete on-site. 

Consistency Check

Throughout the mixing process, it's important to monitor the consistency of the mixture. This can be done visually by observing the flow of the concrete or by performing slump tests to measure its workability. If the mixture is too dry or too wet, adjustments can be made by adding small amounts of water or dry ingredients as needed.

It's important to make these adjustments gradually to avoid overcorrection. Regular checks should be conducted to ensure that the concrete meets the required specifications for strength, workability, and durability. This may involve taking samples of the concrete for testing in a laboratory or performing on-site tests such as compressive strength tests.

By following these steps and maintaining consistent checks throughout the process, concrete mixtures can be prepared accurately and reliably, resulting in high-quality concrete that meets the needs of the project.

Creating Block Molds

Concrete block molds are how the bricks get their shape. Whether one chooses to craft a mold from wood, line it with plastic, or forge it from metal, each mold has its unique use case. Ensuring the mold is clean and applying a release agent is crucial for a seamless release once the concrete sets.

Wooden Molds

Wooden molds are typically constructed using plywood or boards of suitable thickness. The boards are cut to the desired dimensions and assembled to form a box-like structure that will serve as the mold. To ensure stability and prevent the mold from warping during pouring and curing, additional bracing or support may be added to the mold structure.

Before pouring the concrete, the interior surfaces of the wooden mold should be thoroughly cleaned and treated with a release agent to prevent the concrete from sticking to the wood. Once the mold is prepared, it is assembled and securely fastened to prevent leakage during pouring.

Plastic Sheeting

Plastic sheeting can be used to create simple block molds by folding and sealing the sheeting into the desired shape and size. Alternatively, pre-made plastic molds designed for concrete blocks are available commercially. Similar to wooden molds, the interior surfaces of plastic molds should be treated with a release agent to prevent the concrete from adhering to the plastic.

Metal Forms

Metal forms for concrete block molds are typically made from steel or aluminum and can be custom-fabricated to the desired dimensions and specifications. Metal molds should be treated with a release agent or lined with a non-stick material to prevent concrete adhesion.

Pouring and Shaping the Blocks

The act of pouring and shaping the blocks is meticulous. It is important to take care when filling the molds to make sure they have uniformity and integrity.

Filling the Molds

Clean the interior surfaces of the molds to remove any debris, dust, or previous concrete residue. Apply a release agent to the mold surfaces to prevent the concrete from sticking. This can be a commercial release agent, vegetable oil, or a mixture of soap and water.

Pour the concrete mixture into the molds slowly and evenly to prevent segregation and air entrapment. The molds must rest on a stable surface to ensure the brick's shape. Use a shovel or scoop to distribute the concrete evenly throughout the mold. Fill the molds to the top, ensuring that the concrete reaches all corners and edges. Tap the sides of the molds gently with a mallet or vibrator to help settle the concrete and remove any trapped air bubbles.

Shaping and Smoothing

Before shaping and smoothing the bricks, it's essential to wait for the concrete to reach its initial set. This typically occurs within the first few hours after pouring, depending on the specific concrete mix used and ambient temperature. Once the concrete has set to a point where it can hold its shape but is still malleable, trim any excess material from the edges of the bricks using a trowel or straight edge. This helps achieve uniform dimensions and smooth edges.

Removing Excess Material

After filling the molds, use a screed board or straight edge to level the surface of the concrete. Drag the screed board across the top of the molds in a back-and-forth motion to remove excess concrete and create a smooth, flat surface. If there is additional excess material after it has been taken out of the molding, you can sand the concrete to achieve the desired finish.

Curing and Storing Concrete Blocks

The journey of the concrete block is not complete without the crucial step of curing, a period where the block gains its strength and durability. This is followed by careful storage and handling, preserving the block’s quality and preventing any damage that could compromise its structural integrity.

The Curing Process

After shaping and smoothing, it's important to cure the concrete bricks properly to achieve optimal strength and durability. Cover the bricks with plastic sheeting or damp burlap and allow them to cure for at least 7 days, or as per the recommendations for the specific concrete mix used. It's best to do this in a controlled environment where temperature and humidity are carefully regulated.

Storage and Handling

Once the blocks have finished curing, choose a flat, well-drained area for storing them. Avoid areas prone to flooding or excessive moisture. If storing blocks outdoors, cover them with a waterproof tarp or a plastic sheet to protect them from rain, snow, and UV exposure. Ensure that the stacks are stable and not too high to prevent them from toppling over.

Stacked concrete blocks
Concrete blocks must be stacked securely, safely, and away from moisture.

It's important to handle the blocks with care to avoid chipping, cracking, or breaking. Use lifting equipment such as forklifts, skid steers with pallet forks, telehandlers, or pallet jacks for larger quantities. Many contractors choose to store them near gravel pits and other materials for easy access.

Quality Control and Inspection

Regularly inspect the stored blocks for any signs of damage or deterioration. Remove any damaged blocks from circulation to prevent them from being used in construction projects. It's also a good idea to keep records of the date of manufacture and storage conditions to track the quality and performance of the blocks over time.

Advanced Techniques and Innovations

Below are some advanced techniques and innovations in concrete block production:

High-Performance Concrete (HPC) Blocks: High-performance concrete mixes incorporate advanced admixtures, fibers, and materials to enhance the strength, durability, and resilience of concrete blocks. HPC blocks offer superior resistance to cracking, abrasion, and environmental factors, making them suitable for demanding applications in infrastructure and construction projects.

Nano-engineered Concrete Blocks: Researchers are exploring the use of nanotechnology to develop lightweight concrete blocks and bricks with enhanced properties. Nano-engineered additives such as nanoparticles and nanofibers can improve mechanical strength, durability, and self-healing capabilities, leading to longer service life and reduced maintenance requirements.

Carbon-Negative Concrete Blocks: Innovations in concrete block manufacturing are focusing on reducing the carbon footprint of concrete production. Carbon-negative blocks utilize recycled aggregates to reduce the amount of carbon emitted.

3D Printed Concrete Blocks: Additive manufacturing technologies, such as 3D printing, are being explored for the production of complex-shaped blocks with customized designs and properties. 3D-printed concrete blocks offer design flexibility and material efficiency compared to traditional manufacturing methods, opening up new possibilities for architectural and structural applications.

These advanced techniques and innovations in concrete block manufacturing are driving the development of more sustainable, resilient, and intelligent building materials for the construction industry. As research and development continue, we can expect further advancements that will revolutionize the way concrete blocks are produced and used in the built environment.

DIY Projects with Concrete Blocks

Concrete bricks can be used in a variety of do-it-yourself (DIY) projects around the home and garden. Here are some DIY project ideas using concrete blocks:

Garden Planters: Stack the blocks to create raised garden beds or planters. You can arrange them in various configurations and sizes to suit your garden space. Fill the blocks with soil and plant flowers, herbs, or vegetables for a stylish and functional garden feature.

Outdoor Furniture: Use the blocks as a base for outdoor furniture, such as benches, tables, or seating areas. Stack blocks to create sturdy supports and add wooden or metal slats for seating surfaces. Customize the design to fit your outdoor space and add cushions for comfort.

Outdoor furniture made from concrete
Outdoor furniture made from concrete.

Fire Pit: Build a backyard fire pit using concrete blocks as the main structure. Stack the blocks in a circular or square pattern to create the fire pit walls, leaving an opening for the fire. Add a metal fire ring or insert to contain the flames and provide a safe area for outdoor gatherings and cookouts.

Retaining Walls: Build retaining walls using stacked concrete blocks to create terraced garden beds or level uneven terrain. Depending on the height and stability required, the blocks can be dry-stacked or mortared together. Add drainage behind the walls to prevent soil erosion and enhance the landscaping.

Decorative Features: Use concrete bricks as decorative elements in your outdoor space. Arrange them to create sculptures, garden borders, or pathways. Paint or stain the blocks to add color and interest, or leave them natural for a minimalist look.

Concrete block wall
Concrete block walls can add character to any landscape.

Workshop or Garage Storage: Build shelving units or storage racks using concrete blocks and wooden planks. Stack the blocks to create supports and add shelves at various heights to organize tools, equipment, and supplies in your workshop or garage.

Stepping Stones: Construct outdoor steps or stairs using concrete blocks as the risers and treads. Stack the blocks to create the desired height and width, and fill the gaps with gravel or soil for stability. Finish with non-slip surfacing for safety.

These are just a few ideas for DIY projects using concrete blocks. With a little creativity and ingenuity, you can transform them into functional and stylish features for your home and garden.

Safety Precautions

Safety is paramount when working with and making concrete blocks. Protective gear, efficient lifting techniques, and adherence to safety standards protect against hazards and ensure a safe work environment for all involved in the process of making and using these blocks.

Summary

From the specifics of mix design to using them in DIY projects, the journey of how to make concrete blocks is one of discovery and mastery. We hope this guide has helped in covering the steps involved in making these building blocks yourself.

Looking to move large amounts of blocks on a future project? Rent material handling equipment like skid steers, telehandlers, forklifts, and more from DOZR. Search DOZR.com now or call our team for expert advice.

Frequently Asked Questions

How to make concrete blocks step by step?

Here's a step-by-step overview of how concrete blocks are made:

  1. Mixing: The process begins with mixing cement, aggregates (such as sand and gravel), water, and any additives or admixtures to the desired specifications for the blocks.

  2. Molding: Once the mixture is prepared, it is transferred to molds where it will take on the shape of the blocks.

  3. Compaction: After the molds are filled with the mixture, compaction is applied to ensure that the concrete is densely packed and free of air voids.

  4. Curing: Once compacted, the blocks are cured to promote hydration. Curing must take place in a controlled environment.

  5. Demolding: After the curing period, the blocks are removed from their molds.

  6. Finishing: Once de-molded, the blocks undergo additional finishing processes to achieve the desired appearance and surface texture.

  7. Quality Control: Quality control measures are implemented throughout production to ensure that the blocks meet the required specifications and standards.

  8. Packaging and Storage: Once the blocks are finished and inspected, they are packaged and stored in a designated area until they are ready to be shipped or used in construction projects.

What are the ingredients in concrete blocks?

Concrete blocks are made from cement, aggregate (sand and gravel), and water, making them a durable alternative to clay bricks.

Is it cheaper to make your concrete blocks?

Making your blocks can be more cost-effective for larger projects with affordable raw materials and skilled labor, but smaller projects or a lack of resources may make purchasing pre-made blocks a more cost-effective solution.

What factors influence the choice of cement for concrete blocks?

The choice of cement for concrete blocks is influenced by factors such as the strength requirements of the blocks, durability considerations, and regulatory standards. Higher-strength blocks may require the use of specialized cement formulations, while specific applications may require types of cement with enhanced resistance to environmental factors. Cost, availability, and manufacturer recommendations also play roles in determining the most suitable cement for concrete block production.

Can additives be used in the concrete mixture for blocks, and why?

Yes, additives can be used in the concrete mixture for bricks to enhance certain properties such as workability, strength, durability, and curing characteristics. Additives like plasticizers or superplasticizers improve workability, reducing water content while maintaining flowability. Additionally, additives such as air-entraining agents help improve freeze-thaw resistance, while accelerators or retarders adjust setting times to suit specific production requirements.

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Kevin Forestell headshot
Kevin Forestell
Kevin Forestell is CEO of DOZR and one of the co-founders. Kevin first got started as an entrepreneur when he founded Forestell Landscaping right after graduating from University. His love and passion for the industry and desire to help solve an equipment problem that contractors faced every day is what brought the founding team to start DOZR. Kevin is proud of the level of efficiency brought to the industry through DOZR and hopes that DOZR will help change the standard way equipment is rented.
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