Wood has been used as a building material for thousands of years, being second only to stone in terms of its rich and storied history in the world of construction. The chemical properties of wood are inherently complex, but even in spite of this challenge, human beings have successfully harnessed the unique characteristics of wood to build a seemingly unlimited variety of structures. This exceptionally versatile material is commonly used to build houses, shelters, and boats, but it is also extensively used in the furniture and home decor industry as well.
Perhaps one of the biggest advantages of using wood as a building material is that it is a natural resource, making it readily available and economically feasible. It is remarkably strong in relation to its weight, and it provides good insulation from the cold. Wood is highly machinable and can be fabricated into all kinds of shapes and sizes to fit practically any construction need. Wood is also the perfect example of an environmentally sustainable product; it is biodegradable and renewable and carries the lowest carbon footprint of any comparable building material. In addition, no high-energy fossil fuels are required to produce wood, unlike other common building materials such as brick, steel, or plastic.
The words "lumber" and "timber" are often used interchangeably to refer to wood used in construction work, but there has been considerable debate as to which term should apply in a given scenario. Pieces of wood that are smaller than 5 inches wide by 5 inches thick (regardless of length) are generally referred to as lumber. These pieces are machine-planed and sawn to fit certain dimensional specifications (e.g., 2x4", 2x8", etc.) and are primarily used in residential construction. Pieces of wood over 5 inches wide by 5 inches thick (regardless of length) are referred to as timber, and any timber pieces that exceed 8" wide by 8" thick are referred to as beams. As timber pieces are larger in dimension, they are often used to construct the frames of large structures such as buildings and bridges. Timber is also commonly utilized in large quantities for railroad ties, mine shaft supports, and crossbeams on utility poles.
Another type of wood commonly used in construction is known as engineered wood. As its name implies, engineered wood is the product of a more intricate fabrication process in which various wood strands, fibers, veneers, or other forms of wood are glued together to form a type of composite material that is used for specific construction applications. Common examples of engineered wood include plywood, glued laminated timber (a.k.a. "glulam"), oriented strand board, fiberboard, and particleboard. Engineered wood products are commonly used in a wide variety of residential, commercial, and industrial construction projects.
The words "lumber" and "timber" are often used interchangeably to refer to wood used in construction work, but there has been considerable debate as to which term should apply in a given scenario. Pieces of wood that are smaller than 5 inches wide by 5 inches thick (regardless of length) are generally referred to as lumber. These pieces are machine-planed and sawn to fit certain dimensional specifications (e.g., 2x4", 2x8", etc.) and are primarily used in residential construction. Pieces of wood over 5 inches wide by 5 inches thick (regardless of length) are referred to as timber, and any timber pieces that exceed 8" wide by 8" thick are referred to as beams. As timber pieces are larger in dimension, they are often used to construct the frames of large structures such as buildings and bridges. Timber is also commonly utilized in large quantities for railroad ties, mine shaft supports, and crossbeams on utility poles.
Another type of wood commonly used in construction is known as engineered wood. As its name implies, engineered wood is the product of a more intricate fabrication process in which various wood strands, fibers, veneers, or other forms of wood are glued together to form a type of composite material that is used for specific construction applications. Common examples of engineered wood include plywood, glued laminated timber (a.k.a. "glulam"), oriented strand board, fiberboard, and particleboard. Engineered wood products are commonly used in a wide variety of residential, commercial, and industrial construction projects.
3. #1 Common (#1 Com) - Contains 66% usable material on a 3" x 4" board face.
4. #2 Common (#2 Com) - Contains 50% usable material on a 3" x 4" board face.
Softwoods
1. C Select - Almost completely free of all defects; commonly used for cabinets and interior trim
2. D Select - Comparable to C Select, but may contain small knots (no bigger than the size of a dime)
3. 1 Common - Contains small, tight knots that won't fall out; offers a high-quality knotty appearance (e.g., pine)
4. 2 Common - Very similar to 1 Common, but with slightly larger knots; often used in shelving and paneling
5. 3 Common - Larger knots that what are found in 2 Common; typically used for crates, boxes and fences
BENEFITS OF WOOD IN CONSTRUCTION
Wood carries several benefits that make it an excellent candidate for use in a wide array of construction projects. One such benefit is its thermal properties, which give it an advantage in terms of its resistance to high temperatures. Unlike steel, which can expand or even collapse in high heat, wood actually dries out and becomes stronger as the heat increases. In addition, the heat conductivity of wood is relatively low in comparison to other materials such as aluminum, marble, steel, or glass. This gives the wood an advantage in terms of being used in various applications such as matches, hardware equipment handles, wall coverings, and ceilings.
Wood also contains highly sought-after acoustic properties. It can absorb sound and echoes and is a favorite material of choice for the construction of structures where proper acoustics is important, such as concert halls. Wood is resistant to electrical currents, making it an optimal material for electrical insulation. Another important characteristic of wood is its tensile strength, which is its ability to bend under pressure without breaking. Wood is exceptionally light in proportion to its tensile strength, making it the preferred construction choice for surfaces that take a constant beating such as basketball courts and bowling lanes. Tensile strength is also one of the main reasons for choosing timber as a building material; its remarkably strong qualities make it the perfect choice for heavy-duty building materials such as structural beams.
4. 2 Common - Very similar to 1 Common, but with slightly larger knots; often used in shelving and paneling
5. 3 Common - Larger knots that what are found in 2 Common; typically used for crates, boxes, and fences
BENEFITS OF WOOD IN CONSTRUCTION
Wood carries several benefits that make it an excellent candidate for use in a wide array of construction projects. One such benefit is its thermal properties, which give it an advantage in terms of its resistance to high temperatures. Unlike steel, which can expand or even collapse in high heat, wood actually dries out and becomes stronger as the heat increases. In addition, the heat conductivity of wood is relatively low in comparison to other materials such as aluminum, marble, steel, or glass. This gives the wood an advantage in terms of being used in various applications such as matches, hardware equipment handles, wall coverings, and ceilings.
Wood also contains highly sought-after acoustic properties. It can absorb sound and echoes and is a favorite material of choice for the construction of structures where proper acoustics is important, such as concert halls. Wood is resistant to electrical currents, making it an optimal material for electrical insulation. Another important characteristic of wood is its tensile strength, which is its ability to bend under pressure without breaking. Wood is exceptionally light in proportion to its tensile strength, making it the preferred construction choice for surfaces that take a constant beating such as basketball courts and bowling lanes. Tensile strength is also one of the main reasons for choosing timber as a building material; its remarkably strong qualities make it the perfect choice for heavy-duty building materials such as structural beams.
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