Yes, A non combustible construction just means that the supporting and partition walls need to be non combustible.
depend on what you want it to look like a lot of people go with a scissor truss on there houses
A roof truss must be engineered to perform under specific load requirements. Normally, building codes require a structural engineer's stamp of approval on truss design. Trusses are usually built on a flat surface using various grades of wood, with plywood or metal gussets joining the various pieces of the truss together. Multiple identical trusses are built with the use of a jig.
Roof trusses are meant to support the weight of tiles, waterproofing and insulation which go into a house roof. The key to successful placement of the trusses is to ensure that the first one is in its exact position at one end of the roof and, very important, is vertical. Another is erected in the same fashion at the other end. Then string lines can be positioned to ensure that their shapes coincide when viewed from the end
Roofs of Long span structures are made of steel trusses. They are can be designed with glazing ( inclined glass panels towards north sky) on north side, since in northern hemisphere there is no direct or harsh sun light in north. It provides a very consistent light indoors. Now a days even south lighting is also used for a more intense lighting. Proper care should be taken for rain water draining at glazed panels.
The biggest problem that structural engineers face when designing something to be "earthquake-proof" is the up and down motion created by the S waves. Seismic S waves look and behave very much like a large sheet of poster board when you wave the top of it with your hands, a massive amount of up and down motion is creating, literally lifting the building straight into the air and then dropping it back to earth. Vertical elasticity can be achieved in several ways. First of all, engineers will often make sure that buildings in earthquake zones are built with more metal than concrete, even using wood frames whenever possible. Metal and wood are flexible and ductile, which is the quality one favors in an earthquake. Anything rigid, no matter how strong, will likely shatter if shaken by the immense forces of an earthquake. Another important consideration is the terrain. The ground around a building is often softened up by the vibrations caused by both S and P waves, so engineers need to make sure the building has a solid base to stand on. It is not uncommon for some engineers to run huge beams all the way down to the bedrock, so that the structure has some backup stilts to stand on if the dirt and sand it is built atop begins to liquefy. The important thing to remember is that buildings can be fixed or replaced, but human lives cannot. Engineers aren't' worried so much about making a building usable after a quake, what matters is making sure that nothing falls on anyone.
Vaulted ceiling trusses in architectural design offer benefits such as creating a sense of spaciousness, allowing for unique and aesthetically pleasing designs, providing better ventilation and natural light, and potentially reducing construction costs compared to traditional ceiling designs.
The building of trusses and roof coverings .
Trusses are triangular units that are used in construction to support the main structure. Put simply, they distribute the forces so that the structure is strong and stable enough to fulfill it's purpose.
you can use trusses or rafters.
You need it when using engineered trusses.
Yes. Talk to your local lumber yard and truss designer. $$$
Edward Wasell has written: 'Wasell's rail trusses for bridges and roofs' -- subject(s): Railroad bridges, Bridges, Trusses, Design and construction
Using 2x4 trusses in building construction projects offers benefits such as cost-effectiveness, ease of installation, and flexibility in design. These trusses are lightweight yet strong, providing structural support while allowing for efficient use of materials. Additionally, they can be customized to fit various building designs and are commonly available, making them a popular choice in construction projects.
Your problem is more than you posted. Cut a hole in the ceiling or wall, and install a ductsto the return plenum and/or run it through the floor trusses or ceiling trusses but look at someway to remove air from the room in question and get it back the main air conditioner return heating ducts
You really can't.If the house was made after the 1960, there are strips of board 3/4" thick nailed to the trusses or joists and the drywall is fastened to them.The stud finder will pick these up, but they're not structural and are only designed to support the wallboard of the ceiling itself.If the house is pre '60s, the ceiling is probably plaster over 1/4" wooden lath and may have a layer of wallboard over that.You're going to have to cut a hole to locate the joists if you need a strong connection.
Raised tie trusses offer several advantages in building construction. They provide increased headroom and create a more spacious and open feel in the living area. Additionally, raised tie trusses can allow for the installation of larger windows, which can enhance natural light and ventilation in the space. Overall, using raised tie trusses can improve the aesthetics and functionality of a building.
You can learn how to build roof trusses effectively by studying construction techniques, practicing with guidance from experienced builders, and using online resources or books for reference. It's important to understand the structural requirements and measurements involved in truss construction to ensure a safe and sturdy roof.