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Framed structures

Framed structures. Integrantes: Robert Alzuarde Annia da Costa Floralba Sanoja. Concept and a little bit of history.

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Framed structures

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  1. Framed structures Integrantes: Robert Alzuarde Annia da Costa Floralba Sanoja

  2. Concept and a little bit of history The ultimate purpose of building techniques is to create a stable structure. Structures are stable when all their parts are in a state of equilibrium. The forces that have to be controlled in order to maintain it are tension and compression, they tend to push or pull bodies in a given direction. Frames structures are the example of an applied technique that is supported mainly by a skeleton or frame, this structure is able to stand by itself as a rigid structure without depending on floors or walls to resist deformation. Materials such as wood, steel, and reinforced concrete, which are strong in both tension and compression, make the best members for framing.

  3. Timber-framed or half-timbered houses were common in medieval Europe. But later was supplanted by the balloon frame and the platform frame A modern lightweight wood-frame structure, was invented in Chicago and helped make possible the rapid settlement of the western United States. The framed building enjoyed an extensive revival after World War II as the basic form of American suburban housing. During the 19th century, brick or stone walls continued to bear loads, though cast-iron framing was sometimes used supplementary, being embedded in walls or sometimes freestanding. True skeletal construction on a large scale was first achieved in Chicago by William Le Baron Jenney in the Home Insurance Company Building (1884–85). This building featured a frame of both iron and steel. In the 20th century reinforced concrete emerged as steel’s main competitor. The French architect Auguste Perret was the first to give external expression to a framed building (1903); he exposed as much as possible the reinforced-concrete framework of his buildings and eliminated most nonstructural elements.

  4. Types of framing • Balloon Framing: • Balloon framing is a method of wood construction used primarily in Scandinavia, Canada and the United States. It utilizes long continuous framing members (studs) that run from sill plate to eave line with intermediate floor structures nailed to them, with the heights of window sills, headers and next floor height marked out on the studs with a storey pole. Balloon framing has been largely replaced by platform framing. • The advent of cheap machine-made nails, along with water-powered sawmills in the early 19th century made balloon framing highly attractive, because it did not require highly-skilled carpenters • The main difference between platform and balloon framing is at the floor lines. The balloon wall studs extend from the sill of the first story all the way to the top plate or end rafter of the second story. The platform-framed wall, on the other hand, is independent for each floor.

  5. Disadvantages • The creation of a path for fire to readily travel from floor to floor. This is mitigated with the use of fire stops at each floor level. • The lack of a working platform for work on upper floors. • The requirement for long framing members. • Larger balloon-framed buildings will have central bearing walls. Therefore, the cumulative shrinkage in the center of such a building is considerably more than the shrinkage at the perimeter where there are much fewer horizontal members. Advantages: Balloon framing provides a more direct load path down to the foundation. Additionally, balloon framing allows more flexibility for trade workers in that it is significantly easier to pull wire, piping and ducting without having to bore through or work around framing members.

  6. Platform framing: • Is the most common method of light-frame construction for houses and small apartment buildings in Canada and the United States. • The framed structure sits atop a concrete or treated wood foundation. A sill plate is anchored. Generally these plates must be pressure treated to keep from rotting. The bottom of the sill plate is raised a minimum 6 inches (150 mm) above the finished grade by the foundation. This again is to prevent the sill-plate from rotting as well as providing a termite barrier. • The floors, walls and roof are typically made torsionally stable with the installation of a plywood or composite wood “skin” referred to as sheathing. Spacing the framing members properly allows them to align with the edges of standard sheathing. • Where the design calls for a framed floor, the resulting platform is where the framer will construct and stand that floor’s walls (interior and exterior load bearing walls and space-dividing, non-load bearing “partitions”). Additional framed floors and their walls may then be erected to a general maximum of four in wood framed construction. There will be no framed floor in the case of a single-level structure with a concrete floor known as a “slab on grade”.

  7. Stairs between floors are framed by installing stepped “stringers” and then placing the horizontal “treads” and vertical “risers”. A framed roof is an assembly of rafters and wall-ties supported by the top story’s walls. Floor joists can be engineered lumber conserving resources with increased rigidity and value. They allow access for runs of plumbing, HVAC, etc. and some forms are pre-manufactured. Double Framing is a style of framing used to reduce heat loss and air infiltration.

  8. Framing in construction elements • Walls • Wall framing in house construction includes the vertical and horizontal members of exterior walls and interior partitions, both of beating walls and non-bearing walls. These "stick" members, referred to as studs, wall plates and lintels, 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. The technique is variously referred to colloquially in the building trades as "stick and platform", 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, supports the weight of whatever is above, including the next wall up and the roof above the top story. The platform, also provides the lateral support against wind and holds the stick walls true and square.

  9. Corners • A multiple-stud post made up of at least three studs, or the equivalent, is generally used at exterior corners and intersections to secure a good tie between adjoining walls and to provide nailing support for the interior finish and exterior sheathing. Corners and intersections, however, must be framed with at least two studs. • Interior partitions Interior partitions supporting floor, ceiling or roof loads are called load bearing walls; others are called non-load bearing or simply partitions. Interior load bearing walls are framed in the same way as exterior walls.

  10. Lintels • Are the horizontal members placed over window, door and other openings to carry loads to the adjoining studs. Lintels are usually constructed of two pieces of 2 in. (nominal) (38 mm) lumber separated with spacers to the width of the studs and nailed together to form a single unit. The preferable spacer material is rigid insulation. The depth of a lintel is determined by the width of the opening and vertical loads supported. • Roofs Are usually built to provide a sloping surface intended to shed rain or snow. Roofs are most often covered with shingles made of asphalt, fiberglass and small gravel coating, but a wide range of materials are used. Steel panels are popular roof coverings in some areas, preferred for their durability.

  11. Materials Light-frame materials are most often wood or rectangular steel tubes. Wood pieces are typically connected with nails or screws; steel pieces are connected by screws. Wall panels built of studs are interrupted by sections that provide rough openings for doors and windows. Openings are typically spanned by a header or lintel that bears the weight of structure above the opening. Areas around windows are defined by a sill beneath the window, and cripples, which are shorter studs that span the area from the bottom plate to the sill and sometimes from the top of the window to a header, or from a header to a top plate. Diagonal bracings made of wood or steel provide shear (horizontal strength) as do panels of sheeting nailed to studs, sills and headers.

  12. Wood or steel floor frames usually include a rim joist around the perimeter of a system of floor joists, and often include bridging material near the center of a span to prevent lateral buckling of the spanning members. Interior wall coverings in light-frame construction typically include wallboard, lath and plaster or decorative wood paneling. Exterior finishes for walls and ceilings often include plywood or composite sheathing, brick or stone veneers, and various stucco finishes. In natural building, straw bales, cob and adobe may be used for both exterior and interior walls.

  13. Steel vs. concrete’s framing Steel framing is in advantage for the far greater strength of the material, which provides more rigidity with fewer members. The load-bearing capacity of steel is adequate for buildings many times higher than those made of other materials. Because the column and beam are fused by riveting or welding, stresses are distributed between them, and both can be longer and lighter than in structures in which they work independently as post-and-lintel. Since structural steel must be protected from corrosion, the skeleton is either covered by curtain walls or surfaced in concrete or, more rarely, painted.

  14. Reinforced concrete frames consist of horizontal elements (beams) and vertical elements (columns) connected by rigid joints. These structures are cast monolithically that is, beams and columns are cast in a single operation in order to act in unison. Benefits: is cheaper, faster, resistant (there’s no need to add any extra protection), it can be easily molded and is adaptable to late changes

  15. The greater rigidity and continuity of concrete frames give them more versatility, but steel is favored for very tall structures for reasons of economy in construction and space. An example is the system called box frame construction, in which each unit is composed of two walls bearing a slab (the other two walls enclosing the unit are nonbearing curtain walls); this type of construction extends the post-and-lintel principle into three dimensions. Here, again, concrete crosses the barriers that separated traditional methods of construction.

  16. The end

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