Building durability is a vital aspect of construction. It impacts building owners’ lifespan, maintenance expenses, and overall satisfaction.
As a builder, it is your duty to create structures that will withstand the test of time. This blog will explore different materials and techniques that can optimize building durability and help you create long-lasting, robust structures.
Put the Insulation on the Exterior
Moving the insulation to the building’s exterior will generate an air-tight covering. The air-vapor barrier will be less prone to puncturing, ensuring the interior walls and structure remain dry. This will decrease the possibility of mould and damage to the exterior wall.
Additionally, the system enables external maintenance, ensuring no disruption to tenants or rent and eliminating associated costs.
Use Quality Framing
There are two common choices for framing: metal stud/steel framing and timber framing. Steel framing is typically more expensive than timber framing, but it has numerous advantages, such as durability, high tensile strength, and fire resistance. Steel framing is frequently used in large-scale warehouse centre projects.
Timber is the most popular material for framing because it is affordable, lightweight, long-lasting, and flexible. It doesn’t strain the framework when concrete shifts when it sets. Timber framing is often employed in housing developments like homes and apartment complexes.
Consequently, depending on which choice is best for your particular construction project, both steel and timber framing should provide a long lifespan for your business structure.
Use Concrete Materials
Concrete materials are the fundamental elements for building construction. Its durability and lifespan can be increased with appropriate upkeep and protection. The following advice can be helpful in the maintenance of concrete materials:
- Concrete surfaces require regular cleaning. The cleaning procedure may fluctuate depending on the category of concrete surface.
- Concrete surfaces should be painted or coated frequently. Different painting or coating procedures may apply depending on the concrete surface.
- Concrete surfaces need protection from moisture. Humidity can lead to cracking the concrete surface.
- Concrete surfaces require a shield from sunlight. Sunlight can alter the colour of the concrete surface.
Use Brick Driveways
Brick driveways are becoming increasingly popular due to their distinctive aesthetic appeal and functional benefits. Their unique appearance provides a variety of colours and gives any property a timeless and refined touch.
Additionally, brick paver driveways are renowned for their durability and eco-friendliness. They utilize natural materials and can last a long time with proper maintenance.
Homeowners are increasingly choosing these products due to their combination of visual charm and functional benefits, which boost their property’s curb appeal and value.
Use Stone
Stone is a durable and remarkable material, but it has limitations regarding strain and stress, is difficult to quarry, and is heavy to move. Where resources are available to unearth and cut it properly, stone can be a robust and beneficial natural material.
Unlike brick, stone can hold large vertical loads and be stacked without the need for mortar. It withstands deforming, erodes the elements well, resists fire, and helps uphold stable interior environments. The abundance of remarkable stone structures makes it a shame that modern construction primarily uses stone for decoration.
Use Asphalt
Have you observed more asphalt surfaces on your surface? Asphalt is adaptable and can be used for diverse projects, including parking lots, roadways, pavements, and driveways.
Asphalt is the ideal surface material if deliveries are regularly made to your commercial site. When laid correctly, commercial paving services are durable and flexible enough to handle all types of traffic, including large tractor-trailers.
Asphalt is also helpful because it can resist temperature variations throughout the seasons. Unlike concrete, asphalt is resistant to freeze-thaw cycles’ ongoing expansion and contraction.
