Isla Bennett
Nailing is an important part of the construction process, with the nailing schedule varying from wall to wall. Nailing in the field refers to the process of nailing between the sheathing panels and framing members at locations other than boundary nailing and edge nailing. A common nailing pattern is 6 inches on the seams and 12 inches in the field.
| Characteristics | Values |
|---|---|
| Nailing schedule | Can vary from wall to wall |
| Edge and boundary nailing | Every 3 inches |
| Nailing in the field | Every 12 inches along studs |
| Floor sheathing nailing pattern | 6″ on the seams and 12″ in the field |
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What You'll Learn
Nailing schedule
A nailing schedule refers to the pattern of nails used in construction. The schedule can vary from wall to wall, so framers will often mark up panels to make it clear to the crew what the nailing schedule should be. For example, 3/12 refers to edge and boundary nailing every 3 inches, and nailing in the field every 12 inches along studs.
Field nailing refers to nailing between the sheathing panels and framing members at locations other than boundary nailing and edge nailing. A common nailing schedule is 6 inches on the seams and 12 inches in the field. This is often used for floor sheathing.
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Nailing patterns
Field nailing refers to nailing between the sheathing panels and framing members at locations other than boundary nailing and edge nailing. It is important to note that nailing patterns can vary depending on the specific construction project and the materials being used.
When it comes to shear walls, building inspectors will look for tight edge nailing that matches the plans' shear wall schedule and a 1/8-inch gap. This attention to detail is crucial to ensure the structural integrity of the building.
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Shear wall construction
Shear walls are an element of a structurally engineered system that is designed to resist in-plane lateral forces, typically wind and seismic loads. They are typically made of light framed or braced wood sheathed in shear-resisting material such as plywood or other structurally rigid panels, reinforced concrete, reinforced masonry, or steel plates.
The shape and placement of the shear wall will considerably influence the structure's behaviour. Structurally, shear walls work best in the centre of each half of the building, placed symmetrically around the structure's central axis. However, this is challenging since shear walls take up so much space. Often, shear walls are found around stairwells, elevator shafts, or windowless walls.
Shear walls are constructed using materials and designs that enhance a structure's stiffness, strength, and ductility in order to withstand lateral forces from severe winds and earthquakes. Common construction methods for in-situ reinforced concrete walls include traditional shuttered lifts, slip form, jump form and tunnel form. The traditional shuttered lifts method should be used when the total number of walls is small or the arrangement is irregular. In this method, walls are formed one story at a time together with the columns.
Nailing is an important aspect of shear wall construction. The nailing schedule can vary from wall to wall, so some framers mark up panels so it's clear to the crew what the nailing should be. For example, 3/12 refers to edge and boundary nailing every 3 inches and nailing in the field every 12 inches along studs. Tight edge nailing that matches the plans' shear wall schedule and a 1/8-inch gap are details that a building inspector will look for first.
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Nailing in seismic design
The nailing schedule can vary from wall to wall, so it is important to have a clear understanding of the nailing requirements for each specific wall. For example, 3/12 refers to edge and boundary nailing every 3 inches, with nailing in the field every 12 inches along studs. This means that nails are placed 12 inches apart in the centre of the wall, away from the edges and boundaries.
A common nailing pattern for floor sheathing is to use nails that are 6 inches apart on the seams and 12 inches apart in the field. This pattern helps to ensure that the floor is securely attached to the underlying structure. It is important to follow the correct nailing schedule for the specific type of construction, as deviations can compromise the structural integrity of the building.
In seismic design, nailing is particularly important for cripple walls, which are short walls that are used to support the weight of the building above. The nailing requirements for cripple walls in seismic design categories A, B, and C are specified in building codes, such as the Wyoming Building Code. For example, the code specifies that nail spacing for field nailing should not exceed 6 inches on centre along the foundation plate and the top plate of the cripple wall.
Overall, nailing plays a critical role in seismic design by helping to ensure that the various components of a building are securely attached together. By following the appropriate nailing schedules and patterns, builders can help to ensure that structures are able to withstand the forces of an earthquake or other seismic activity.
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Nailing in wood construction
Nailing in the field refers to nailing between the sheathing panels and framing members at locations other than boundary nailing and edge nailing. It is an important aspect of wood construction, particularly in shear wall construction and floor sheathing.
The nailing schedule can vary depending on the specific wall or project. To ensure consistency and clarity, some framers mark up panels to indicate the nailing schedule for the crew. This helps to maintain the integrity of the structure and avoid any potential issues.
A common nailing pattern for floor sheathing, for example, is to use 6-inch spacing on the seams and 12-inch spacing in the field. This pattern provides a secure and even distribution of nails, ensuring the strength and stability of the floor.
It is important to follow the recommended nailing schedules and patterns for specific applications. Building inspectors will often look for tight edge nailing that matches the plans' shear wall schedule, as well as other details such as a 1/8-inch gap. By adhering to these standards, you can ensure the quality and safety of your wood construction projects.
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Frequently asked questions
It means nailing every 12 inches along studs.
3/12 nailing refers to edge and boundary nailing every 3 inches, as well as nailing in the field every 12 inches along studs.
A common nailing pattern is 6″ on the seams and 12″ in the field.
The nailing schedule can vary from wall to wall, so some framers mark up panels so it’s clear to the crew exactly what the nailing should be.
Field nailing refers to nailing between sheathing panels and framing members at locations other than boundary nailing and edge nailing.
