Wall framing in house construction includes the vertical and horizontal members of exterior walls and interior partitions, both of
bearing walls and non-bearing walls. These
stick members, referred to as
studs,
wall plates and
lintels (sometimes called
headers), serve as a nailing base for all covering material and support the upper floor platforms, which provide the lateral strength along a wall. The platforms may be the boxed structure of a
ceiling and roof, or the ceiling and floor
joists of the story above. In the building trades, the technique is variously referred to as
stick framing,
stick and platform, or
stick and box, as the sticks (studs) give the structure its vertical support, and the box-shaped floor sections with joists contained within length-long
post and lintels (more commonly called
headers), support the weight of whatever is above, including the next wall up and the roof above the top story. The platform also provides lateral support against wind and holds the stick walls true and square. Any lower platform supports the weight of the platforms and walls above the level of its component headers and joists. In some countries, framing
lumber is subject to
regulated standards that require a grade-stamp, and a moisture content not exceeding 19%. There are four historically common methods of framing a house. •
Post and beam, which is now used predominantly in barn construction. • Braced frame construction, also known as full frame, half frame, New England braced frame, combination frame an early form of light framing which survived into the 1940s in the northeastern United States, defined by the continued use of girts, corner posts, and braces, most often mortised, tenoned, and pegged with nailed studs. • Platform framing often forms wall sections horizontally on the sub-floor prior to erection, easing positioning of studs and increasing accuracy while cutting the necessary manpower. The top and bottom plates are end-nailed to each stud with two nails at least in length (
16d or
16-penny nails). Studs are at least doubled (creating posts) at openings, the jack stud being cut to receive the lintels (headers) that are placed and end-nailed through the outer studs.
Exterior wall studs Wall framing in house
construction includes the vertical and horizontal members of exterior walls and interior partitions. These members, referred to as studs, wall plates and lintels, serve as a nailing base for all covering material and support the upper floors, ceiling and roof. They are supported on a bottom plate or foundation sill and in turn support the top plate. Studs usually consist of or lumber and are commonly spaced at on center. This spacing may be changed to on center depending on the
load and the limitations imposed by the type and thickness of the wall covering used. Wider -by--inch studs may be used to provide space for more
insulation. Insulation beyond that which can be accommodated within a -inch stud space can also be provided by other means, such as rigid or semi-rigid insulation or batts between -by--inch horizontal
furring strips, or rigid or semi-rigid insulation sheathing to the outside of the studs. The studs are attached to horizontal top and bottom wall plates of -inch lumber that are the same width as the studs. Partitions can be built with or studs spaced at on center depending on the type and thickness of the wall finish used. Where a partition does not contain a swinging door, studs at on center are sometimes used with the wide face of the stud
parallel to the wall. This is usually done only for partitions enclosing clothes closets or cupboards to save space. Since there is no vertical load to be supported by partitions, single studs may be used at door openings. The top of the opening may be bridged with a single piece of lumber the same width as the studs. These members provide a nailing support for wall finish, door frames and
trim. Once the assembled sections are plumbed, they are nailed together at the corners and intersections. A strip of
polyethylene is often placed between the interior walls and the exterior wall, and above the first top plate of interior walls before the second top plate is applied to attain continuity of the
air barrier when polyethylene is serving this function. A second top plate, with joints offset at least one stud space away from the joints in the plate beneath, is then added. This second top plate usually laps the first plate at the corners and partition intersections and, when nailed in place, provides an additional tie to the framed walls. Where the second top plate does not lap the plate immediately underneath at corner and partition intersections, these may be tied with galvanized steel plates at least wide and long, nailed with at least three nails to each wall. == Braced frame ==