The Strength of Masonry

Masonry is a skilled trade, and it involves the work of a mason who can chisel, mold and shape stone, brick or concrete in a way that looks like it has always been there.

Masonry’s durability, energy efficiency, and engaging aesthetic make it a popular choice for both commercial and residential construction projects. Click the link to know more.

What Are The Different Types Of Masonry?

Masonry is one of the oldest and most established building techniques. It has been around for hundreds of years, and innovations in materials technology and mix designs have improved the strength and durability of masonry construction. It is also environmentally friendly and energy efficient.

Concrete masonry units are available in a wide variety of sizes, shapes, and colors to achieve different functional and aesthetic objectives. A broad sampling is shown in TEK 14-6, Concrete Masonry Unit Shapes and Sizes Manual (ref. 2).

Brick masonry can be used to create a wide range of architectural styles. It is less expensive than stone and concrete blocks, making it a popular choice for commercial buildings. Brick masonry is also flexible and can be adapted to seismic conditions, but it has lower resistance to tension and torsion loads than stone or concrete block masonry. Brick masonry is susceptible to water penetration and must be properly maintained and waterproofed.

Stone masonry is often used to achieve a more rustic, earthy appearance in urban applications and to blend into rural settings. Its natural appearance and durability make it a good choice for residential applications as well. Stone masonry is usually highly flexible and resistant to torsional loads. It is a common choice for foundations, walls, and chimneys.

New developments in masonry construction include the use of pre-stressed masonry. This involves reinforcing masonry walls with cables within their cells before the wall is built, which increases its resistance to flexural stress and bending.

Maintenance of masonry structures includes the routine replacement of sealant in expansion joints, at through-wall flashings, and at the perimeter of openings such as doors and windows. These procedures should be performed as often as every seven to 20 years depending on climate. Periodic inspections by building maintenance personnel or masonry specialists can help to identify and resolve problems quickly.


Masonry is one of the most durable construction methods. It’s resistant to fire and offers excellent sound attenuation and energy efficiency. A wide variety of colors, shapes, and architectural finishes enable masonry to achieve any design style.

Masonry consists of individual units such as brick, stone, concrete block, glass blocks, and adobe, which are laid in a pattern and bound together with mortar. This mortar is made of cement and other ingredients that create a strong bond between the units. The mortar also provides moisture resistance and helps prevent deterioration and cracks.

A masonry structure’s strength is not completely dependent on its bond with the mortar; it also relies on the friction between the individual building units, which are often interlocking. This interlocking can be enhanced by grooves on the building units or surface features added to the mortar. Many dry set masonry structures forgo the use of mortar and depend entirely on this interlocking for strength.

Because of its durability and thermal efficiency, masonry is especially useful in buildings in climates that experience extreme weather conditions. Masonry’s high thermal mass helps regulate indoor temperatures by slowing heat transfer, and it can be used to insulate walls from cold winter air.

Masonry is easy to maintain and can last for centuries with proper care. Regular inspections and maintenance are key to extending the life of a masonry structure. Common maintenance tasks include cleaning, repointing (replacing deteriorated mortar), and repairing or replacing damaged masonry units. A well-draining site and the use of compatible materials during repair work are also important to help prevent water-related issues like efflorescence or freeze thaw damage. A good drainage system can also prevent structural problems, such as heaving and cracking, caused by soil movement.


Masonry walls are insulated, which makes them more energy efficient than wood stud walls. This means that you will save money on heating and cooling bills. They also help to keep out noise and dust. Masonry walls are also fire-resistant, which will help to keep your occupants safe in the event of an emergency.

Masonry construction requires attention to details to ensure a building will function as intended and have the appearance expected. Construction tolerances must be tight enough to preserve the appearance of the masonry but flexible enough to accommodate changes in the project scope, materials and methods. These tolerances are influenced by the condition of preexisting construction, the site, and the design.

Concrete masonry units are available in a broad range of shapes and sizes, allowing designers to achieve a wide variety of appearances and functions. In addition, architectural finishes and a variety of mortars provide color, texture and pattern that enhance the visual appeal of a building or structure.

While masonry is very strong, it must be built correctly to be structurally sound. Typical construction tolerances for masonry are between 1/8 and 3/4 inch (3 to 19 mm). It is important that these tolerances be followed closely, but in some cases it is necessary to vary head or bed joint thicknesses in order to meet the design criteria of the structure.

New developments in masonry construction include the use of pre-stressed masonry. This consists of installing cables within the cells of the concrete masonry units, which are then tensioned to increase resistance to flexural and bending stresses. This allows the masonry to support heavier loads without damaging the building. It can also be used in blast-resistant applications.


Masonry offers a wide range of aesthetic possibilities, including color, scale, texture and pattern. Its unique structural qualities can also be highlighted through the use of innovative architectural features. In addition, masonry can help control sound and regulate temperatures while providing an appearance of permanence and stability.

The oldest masonry structures date back to prehistoric man’s effort to supplement natural caves with sun-dried brick and stone huts. The ancient Egyptians perfected the art of stonemasonry, building the Great Pyramids and other iconic temples using a variety of materials.

Masonry continued to play a major role in Gothic architecture, which emerged in the 12th century. This style featured innovations like the pointed arch and ribbed vault, allowing buildings to be built taller and more elaborately decorated. Iconic Gothic church structures like Notre Dame and Chartres demonstrate the full potential of this architectural style and masonry construction.

During the 20th century, architects sought to break away from traditional styles and materials. Although modernism favored glass, steel and other innovations, it also celebrated masonry as a means of merging architecture with nature. Frank Lloyd Wright’s Fallingwater, for example, incorporated local sandstone walls and concrete slabs in its design, demonstrating how masonry could be used to craft a house that blends with the landscape.

Today, masonry continues to be one of the most popular construction methods. Innovative developments in material technology, mix designs and engineering have made masonry even stronger and more durable than before. It’s important to properly maintain a masonry structure, however, to prevent damage and decay. For example, if English ivy is allowed to take hold on a brick facade, it can discolor the surface and cause mortar problems. It’s important to have a professional mason inspect your home for signs of damage and take steps to stop the spread of ivy or other unwanted plants.


Masonry buildings have high thermal mass, which helps to minimize temperature fluctuations and shift heating and cooling loads to off-peak hours. Moreover, their insulation and airtightness reduce energy consumption while providing a comfortable space for occupants. In addition, masonry blocks and bricks are natural and locally available, which reduces transportation-related carbon emissions and supports sustainable construction practices. Additionally, masonry is pest-resistant and does not rust or rot, which contributes to lower maintenance costs.

Concrete masonry structures are strong, durable and highly resilient, making them well-suited to resist the impact of manmade or natural disasters such as earthquakes and hurricanes. They also offer acoustic and thermal insulation, reducing noise and maintaining a comfortable atmosphere for their occupants. Moreover, they are non-combustible and fire-resistant.

As a result, many architects have been using masonry in their projects. Especially in contemporary architecture, architects are increasingly interested in sustainability, context and materiality, while still embracing the versatility of masonry. Examples of this can be found in projects by Herzog & de Meuron and Peter Zumthor, who have used masonry to create buildings that harmonize with their surroundings.

The main drawback of masonry construction is that it requires skilled labor, which can add to the overall cost of a project. However, advances in concrete technology are promising to reduce the impact of masonry construction by improving durability and energy efficiency. Additionally, new materials such as self-healing concrete and digital fabrication technologies allow for more complex forms to be built using masonry.

Furthermore, the use of recycled aggregates and the use of concrete block manufacturing techniques such as the Cold-Formed Continuous Form (CFCF) which reduces energy and rebar usage can further reduce the environmental impact of masonry construction. Additionally, many masonry manufacturers now use flash and slag to make a portion of their cement, which reduces CO2 emissions.


What Is Masonry?

Colorado Springs Masonry refers to bricks and other stone-like materials stuck together with cement and used for construction. Masonry has been in use for thousands of years.

Replacing one brick is an easy DIY job, but attempting to replace multiple contiguous bricks in masonry is best left to the pros. If you try it yourself, you may damage the facade.

Smoke Damage Repair

Masonry is built using a variety of materials. Some, such as stone and brick, are considered classics of architectural design, while others are less traditional but still attractive and durable. The choice of materials depends on the climate where the building will be located. Masonry must be able to stand up to extremely cold temperatures.

The most common type of masonry used in modern buildings is concrete block masonry. Its popularity stems from its low cost, simplicity, and versatility. Concrete block masonry is ideal for residential construction, providing good insulation and soundproofing. This type of masonry also offers an environmentally friendly alternative to other building materials.

Clay brick is another popular material in masonry construction. Its color, size, texture, and pattern are attractive to architects. Moreover, it is a great material for firewalls and foundations. It is also suitable for exterior walls because it resists abrasion, erosion, and corrosion.

Other types of masonry include glass blocks and manufactured stone. The latter is a good substitute for natural stone because it is much cheaper and requires fewer resources. It is also easy to install, making it a great home choice.

Brick masonry is an ancient method of constructing building structures. In addition to being durable, bricks offer high thermal efficiency. They are also lightweight, which reduces the dead load on a structure. Furthermore, they have a low water absorption rate. This type of masonry is also used for the walls of modern office buildings.

Hollow or cavity masonry walls are another type of masonry resistant to moisture. They prevent moisture from entering the interior of a building by separating the outer and inner faces of the wall. The wall is then filled with insulating materials to protect it from cold temperatures.

Masonry blocks are made from various materials, including sand, gravel, lime, and cement. They are commonly used to construct walls and sidewalks. Some blocks are coated with stucco for a more decorative look. Others have grooves or other surface features that enhance their interlocking capabilities. Some masonry structures even forgo mortar altogether.

Masonry design involves the use of a combination of engineering principles and masonry construction techniques. The design of masonry structures requires consideration of the material properties, the geometry and topography of the site, and other factors that affect the performance of a building. Masonry is often used in conjunction with other structural systems, such as concrete or steel, and the design of a masonry structure must incorporate the interaction between the different elements.

The strength of a masonry wall depends on the friction between the block components, which are typically held together by a mortar bond. The blocks may have grooves or other surface features to enhance this interlocking, and some “dry set” masonry constructions use no mortar at all. Masonry walls can also be designed to resist lateral forces with the addition of reinforcement. Reinforced masonry is typically used for large columns, shear walls, and foundations.

A masonry structure is typically built in several layers or wythes. A wythe is a unit of masonry in which each face has the same thickness. The thickness of a wythe is determined by the height of the wall and the dimensions of the bricks. A wythe can be thicker or thinner than the underlying concrete or steel frame.

In modern structures, the most common type of masonry is concrete block or brick, which can be formed into walls and other building components. In addition, masonry can be used as an infill for concrete and steel structures or to construct arches and vaults.

Traditionally, a masonry building was conceived as an arrangement of nonlinear beams. Early equivalent-beam-based models incorporated simplified elastoplastic relationships to describe axial, bending, and shear deformations. Later, these models were replaced with fiber-based approaches that better characterized the behavior of the materials.

Modern masonry buildings are generally well insulated to control moisture, and most of the exterior is covered with an insulating material such as cladding or stucco. This insulation helps to prevent heat loss from the interior and reduces energy use. Many masonry buildings that are not insulated are constructed with a wood or rough masonry shell, which is attached to the interior of a concrete block or brick veneer wall by using metal “brick ties.” The hollow spaces in these walls allow air to move between the inner and outer layers of the building, reducing heat transfer.

Masonry is a durable and attractive material for building walls, chimneys, and other structures. It must be properly installed to ensure strength, durability, and longevity. A masonry contractor has the skills and knowledge to do the job right. This includes preparing the substrate, using the right mortar for each type of masonry, and providing proper installation techniques.

The substrate, or the surface on which masonry will be built, must be level and clean. Any dirt, debris, or moisture can affect how the masonry adheres to the substrate, leading to later problems. The masonry contractor should also ensure the soil is strong enough to support the structure.

To install a window or door in a masonry wall, first drill a hole with a hammer drill and a masonry bit to the size of the fastener that will be used. Use a depth stop to ensure the hole is at the correct depth. Then, blow the dust out of the hole with a turkey baster. Screw the masonry anchor into place. A screw with a washer can be used to wedge the back of the anchor against the concrete.

Brick masonry is usually laid in running or staggered bonds, depending on the type of construction being used. For example, a masonry foundation wall may be applied in running bonds to provide a solid base. At the same time, a chimney or smoke chamber may be constructed of hollow masonry units grouted with concrete masonry and corbelled for stability. When laying masonry, following the manufacturer’s recommendations regarding using materials and installation methods is important.

Bearing walls in masonry buildings shall be at least 8 inches (203 mm) thick to support the weight of a building. Where the height of a one-story bearing wall does not exceed 12 feet (3658 mm), and the floor live load does not exceed 60 pounds per square foot, the wall may be 6 inches (152 mm) thick. Masonry walls above the roof level enclosing stairways, machinery rooms, and shafts may be up to 8 inches (203 mm) wide.

Masonry has gained a reputation for being a durable, long-lasting material that requires maintenance. Regular cleaning of masonry walls can prevent and remove accumulated dirt, watermarks, efflorescence, moss, and mildew. It can also be beneficial to have brick sealant applied. Sealant helps to protect against water infiltration, staining, and damage from UV rays.

Water damage is an ongoing concern for masonry structures, especially in older buildings with brick walls. Water infiltration leads to mortar deterioration, which can lead to cracks and spalling. If a brick building is properly maintained, water damage can accelerate and become an affordable issue.

To help keep moisture away from a structure, it is important to have proper flashing and weep holes installed on the exterior of a masonry wall. This will allow moisture to escape through the wall rather than building up and causing further damage.

Another way to minimize moisture infiltration is to have a proper drainage system installed around the foundation of a masonry building. This will ensure that the ground slopes away from the structure and that there is no standing water or puddles that could cause damage to the foundation or masonry.

Masonry walls are also known for their sound insulation properties, reducing noise transmission between different areas in a building. In addition, they can help regulate temperatures by slowing the transfer of heat between the outside and inside of a structure.

Aesthetics: Masonry construction offers a wide range of aesthetic possibilities, with many different colors, textures, and shapes of bricks and stones available to create unique architectural styles. Brick and stone are often used with other materials, such as wood, steel, or concrete, to provide a finished look that complements the rest of the building.

Masonry is a labor-intensive construction method that can take longer than other materials, increasing project timelines and costs. It is also relatively heavy and may require more substantial foundation designs to support its weight. In addition, masonry structures are generally not very flexible and can be difficult to modify or expand, which can be an issue for some buildings.