FRAMECAD are the manufacturers of the automated construction technology that provides accelerated cold formed steel construction. If you are looking a cold formed steel structure to be built we recommend contacting one of our
For more information, please visit our website.
FRAMECAD Connect partners, and they will be more than happy to help.
What is the best FRAMECAD machine for me?
We understand everyone has different requirements, so we are proud to provide custom solutions suited to your exact needs. We recommend talking to a FRAMECAD expert to discuss your business objectives. Request more information.
Why cold formed steel construction?
The future of construction lies in sustainable materials that are delivered using fast, modern methods. FRAMECAD cold formed steel (CFS) can result in faster build times, lower costs, versatile design solutions and a durable, practical solution to premium buildings. Download our Future of Construction eBook for more info.
Why choose FRAMECAD?
Advanced construction technologies like the FRAMECAD system hold many advantages over traditional construction techniques. The FRAMECAD design and build methodology is all about the rapid construction of quality buildings and delivers a faster return on investment. Learn more.
reduces costs including engineering and skilled labor, and increases productivity efficiencies giving an overall greater return on investment. Learn about it in our eBook Leading By Design.
Designed using specialist computer-aided CAD design and engineering software, the FRAMECAD system allows for cold formed steel to be implemented across a variety of construction applications. Visit our applications page to learn more.
Is it cheaper to build cold formed steel vs timber or concrete?
Using the FRAMECAD design and engineering software and equipment there are significant speed advantages which often result in the delivery of the overall project being cheaper. These costs vary from region to region so talk to an expert to understand the advantages with FRAMECAD. Talk to us.
When cladding and lining CFS walls it is important to follow the supplier&#;s installation guidelines and the recommended fastener spacings. FRAMECAD also recommends the use of a suitable adhesive between the lining sheet and the steel stud. The adhesive is applied in a coin size daub between the fasteners. This has many benefits to the structure and helps prevent any noise created when tapping the lining sheet. On any wall where either a glass wool or Rockwool insulation is installed it is important that the whole cavity is filled, always specify a product that is the same thickness as the frame width. See assembly details here.
FRAMECAD source and recommend high quality steel from trusted steel mills globally. All FRAMECAD steel products conform to internationally approved standards and specifications that ensure quality construction. Talk to a FRAMECAD expert to discuss your requirements.
FRAMECAD offers a comprehensive range of training to enable customers to become advanced users of the software suite. Additionally, FRAMECAD Knowledge Center is available to existing customers, which is a 24/7 self-help portal for all FRAMECAD information, including software. Find out more here
You only need one person to operate the equipment and 2-5 people to assemble the frames as they are being produced.
FRAMECAD have the fastest CFS equipment with a top speed of 2,880m/hr or 9,450ft/hr. Note: actual framing speed will be slower than this as top speeds do not consider any tooling or punching actions. Wall frames with tooling functions operating are typically produced at 700m/hr or 2,300ft/hr.
Design requirements are different depending on building type and geographic location. Talk to one of our experts to find out the production speed and costs for your building.
Can you build multi-story buildings with cold formed steel?
Yes - buildings up to 10 stories can be built faster and more efficiently than using traditional structural steel or concrete. Visit our applications page to learn more.
Cold formed steel (CFS) and light gauge steel (LGS) are exactly the same thing. They are different terms to describe the construction solution. Learn about more about Cold Formed Steel Construction.
How durable is cold formed steel?
Galvanized cold formed steel will not crack, shrink, splinter, creep, split, warp, swell or rot. Steel is impervious to termites and wood destroying insects.
How safe are steel buildings?
Steel&#;s strength and non-combustible properties offer greater protection for your home and family. Choosing steel-framing can eliminate high wind, fire, and lightning damage to your home. Read what Fire Chief Steve Lohr has to say about cold formed steel buildings.
Steel framing is your environmentally-friendly residential framing choice. In comparison it takes 40-50 mature trees versus six recycled cars to frame a 200 square meter home. You can quickly appreciate the value of steel today and the impact on generations to come. Learn more about the sustainable qualities of CFS construction.
The overall recycling rate of the steel industry is 86%, the highest of any industry in the world. This offers an environmentally sound alternative for framing. Recycled framing is a valuable commodity that typically does not end up in a landfill. Learn more.
Steel framed walls are unaffected by temperature or humidity changes, more of the heating and air-conditioning cost remain inside the house, saving money spent on utility bills. Learn more.
No. Because of steel&#;s strength you can design your home with larger open spaces. With a steel frame, the walls will remain straight and true and can be finished with any materials that are traditionally used. View the applications of cold formed steel or some of our Design options
Positive connections and the strength of steel provide great protection against earthquake and hurricanes. A lighter structure with stronger connections results in less damage from seismic force. Steel&#;s high ductility makes it the best construction material for earthquake-resistant design. Learn about CFS earthquake testing.
No. Mold requires three things to grow:
Steel does not contain any organic material, and therefore cannot support mold growth. Learn more about why CFS is the future of Construction
Yes, galvanized steel provides better rust protection. The reason is that zinc, through its sacrificial galvanic action, can &#;heal&#; cuts, scratches and abrasions in the steel. With the rough handling that construction products receive, as well as the cutting, drilling, shearing and fastening of members, the coating gets cut and scraped away. The galvanized coating works better than the enamel at covering areas that are cut or scratched.
No. Steel framing is recommended by the Healthy House Institute for chemically sensitive and environmentally conscious homeowners who seek good indoor air quality. Steel frames do not need to be treated for termites and are free of resin adhesives and chemicals normally present in other construction materials. Learn about the Green credentials of CFS.
No. A steel frame home will look exactly like any other home. The same exterior finishes can be applied to a steel frame as those applied in standard construction. Learn about CFS applications.
Yes. Since steel framing enables larger spans in the design of the home, fewer interior load bearing walls are needed, making renovation very easy while allowing more flexibility in design.
No. The use of zinc coating on the steel framing protects the steel from corrosion for the life of the structure. Learn why CFS is the Future of Construction.
Yes. A steel frame actually allows more protection for the occupants since it provides a direct path to the ground in the event of a lightning strike. This reduces the likelihood of explosions or secondary fire.
There are a range of products for cladding the exterior of the building. These included brick, weatherboard, and sheet products - all with excellent thermal properties. On the interior it's possible to use a range of products including gypsum boards. View a range of assemblies here.
*FRAMECAD recommends running our software on systems running a minimum of Microsoft Windows 10. If you have any concerns please contact a FRAMECAD Representative.
Design Codes available are United States, Canada, Australia/New Zealand, China, Euro, Russia, Brazil, and South Africa.
Steel is used in various applications throughout the world particularly in the construction of bridges and buildings.
But, we are not talking about just any kind of steel. We are talking about structural steel. The properties of structural steel make it extremely strong and durable.
If you are interested in learning more about this critical resource, then you have come to the right place. We will be addressing our most frequently asked questions about structural steel.
Check it out.
Structural steel is a carbon based metal, available in many grades, that is used all over the world in the construction industry. To be considered structural steel in the United States, the product must meet industry standards set forth by ASTM International.
So, how is structural steel different from non-structural steel? Well, it comes down to the composition of the product. And, to understand this, we must first understand what steel itself is.
Steel is an alloy made out of iron and carbon. Most of us are familiar with these elements, but may not have known that it&#;s rare to find them existing in their pure forms.
So, how is steel made and how is it different from structural steel? Let&#;s jump to the next section to find out.
Before we get into the specifics of structural steel, let&#;s just discuss how steel in general is made.
There are two ways that steel can be made a) working with raw materials or b) recycling used materials.
We will touch on raw materials first.
The first step in making steel from raw materials is to extract iron from iron ore. Did you know that iron ore can be extracted from taconite in local Minnesota mines?
Yep, right here in our backyard.
The iron ore is extracted from taconite by first grinding it into small particles and then using magnets to pull out the iron ore.
This leads up to the next step in the process of making iron.
The iron ore is actually quite weak and needs carbon to provide it with strength. When working with raw materials, a blast furnace is used to heat iron ore and carbon will be added to the mixture.
Side note- Do you guys remember Henry Bessemer from history class? He&#;s the guy who created the blast furnace sometime in the mid s. Neat, huh?
You may be wondering what the source of carbon is. Typically, it&#;s a form of coal high in carbon called coke. This coke is mixed with iron ore under high temperatures. It&#;s the heat that creates the chemical reaction responsible for the carbons from coke bonding to the oxygens from iron oxides. This is called reduction.
At this point the material will contain too much carbon for the product to be considered steel. It&#;s the reduction of carbon that helps to provide the material with strength. So, the mixture will be heated and cooled strategically until the carbon content is less than 2.1% of the product&#;s weight. Structural steel must have a carbon content between 0.05-0.25%.
Ding Ding Ding!
We finally answered our original question. Structural steel has a carbon content between 0.05-0.25%. This is what makes it stand out among other types of steel.
Keep in mind, there are many varying compositions in steel, all designed for specific purposes. It just so happens that low carbon steel is the best for construction (and known as structural steel) because it has sufficient strength but is also more malleable than high carbon steel would be.
Is anyone interested in hearing about the other way to make structural steel from recycled material?
If not, just skip over this part.
When working with scrap metal, an Electric Arc Furnace (EAF) will be used.
*Electric Arc FurnaceEssentially, a crane will lift the scrap steel into the furnace. Once the furnace is full, the lid will be closed. This lid is important because it holds electrodes charged with an electric current which create large amounts of heat capable of melting the scrap metal down.
*Electric Arc furnace process for steelmakingThis is where certain alloys may be added to the metal in order to obtain various grades of steel.
Structural steel is primarily used for construction purposes, but it can also be found throughout the automobile & energy infrastructure industries. There may even be instances where structural steel is used to build various machinery, equipment storage tanks, tools, household appliances & for food and beverage packaging.
Since this blog is focusing primarily on the applications of structural steel in the construction industry, we will touch upon that a bit more here.
Let&#;s jump in.
In general, structural steel is a preferred material of engineers, designers, architects and contractors throughout the construction industry. Its strength is unmatched which makes it ideal for the building of the structures mentioned above.
However, the material itself must also be able to handle tension, be easy to work with, ductile and, of course, be affordable too. Structural steel possesses all of these qualities so you can see how it has become a popular material choice for structures of all kinds.
Another important quality of structural steel is machinability.
You may be wondering what this means? Well, machinability is defined as &#;the ease with which a metal can be cut (machined) permitting the removal of the material with a satisfactory finish at low cost.&#;
This quality is important because it allows for structural steel to be made into many unique shapes.
Listed below are some of these shapes aka structural sections.
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Structural steel shapes can be customized but traditionally all shapes will fall into one of the following 4 categories: beams, angles, channels or plates.
I-Beams:
A steel beam that is I-shaped in a cross section.
Almost all major structures will utilize I-Beams making them extremely common in the construction industry. They can be used in various ways including: embedded in concrete, stand alone or welded together to form a continuous beam.
U-Beams:
A steel beam that is U-shaped and is capable of supporting loads.
U-beams do not possess as much carrying capacity as I-beams, but they are capable of carrying various vertical loads and even horizontal loads in cross sections.
Round or square beams:
Solid structural steel beams that are either round or square shaped.
Goto Yunsheng to know more.
These beams aren&#;t found in building framing as much as they are within the industrial equipment and appliance industry.
Angled Beams:
A steel beam that is L-shaped with two legs that come together at a 90 degree angle. Their leg sizes can be equal or unequal.
Angled beams are known for anchoring floor systems to a structure&#;s foundation and for angular connections.
Hollow structural sections (HSS):
Circular steel bars with a hollow cross section.
Hollow structural sections are often found in welded steel frames where members experience loading in multiple directions. They can also be used as beams depending upon the situation. These beams have great resistance to lateral torsional buckling.
Flat bars:
A rectangular shaped flat piece of structural steel.
Flat bars are commonly used as connective members in residential and commercial framing
C-channels-
These structural steel units are hot-rolled into a C-shape. Similar to I-beams, their angle of attachment in between the flange and web is wider. They are usually used to support the main load-bearing beam for bracing and framing needs.
One last very common use for structural steel which has to be mentioned is reinforcement steel aka rebar.
Rebar:
Rebar is laid within concrete in order to provide additional strength. Without rebar, concrete would experience stress with temperature changes causing concrete failure. Since structural steel possesses the qualities of both tension and compression strength, it makes for a perfect pairing with concrete.
You may find rebar used in:
Iron ore is needed in order to make structural steel. Most iron ore has been mined from the Lake Superior area in Minnesota and Michigan. There is also an iron mine in Utah.
American steel mines are capable of producing more than 9 million tons of structural steel per year. 3.5 million tons were used in the United States in . You can see that American structural steel manufacturers are capable of meeting domestic demands.
However, structural steel imports have been drastically increasing since . In alone, more than 1 million tons of fabricated structural steel were imported from countries such as China, Mexico and Canada. This is a very controversial topic today. There are huge concerns surrounding American jobs, investment losses and of course the implications of handing over such a critical resource to foreign countries.
Like anything structural steel has both advantages and disadvantages. We&#;ll get into some of these here.
Durability- Structural steel will outlast most other construction materials. There are two important factors contributing to the overall durability of structural steel: high strength to weight ratio and a high tensile strength (tensile stress is a force that elongates or stretches building
Easy to build with- Structural steel possess qualities that allow for it to be fabricated into a variety of shapes and structures. This makes it very valuable as a building material. Not only does it come in many shapes and colors, it is also very easy to work with. Steel structures are bolted or welded together on site at a contractor&#;s leisure. This is a huge benefit especially when you consider other building materials, such as concrete, and the long curing process that comes with it. Lastly, structural steel offers design flexibility from an engineering standpoint. Steel beams distribute forces like compression and tension very effectively allowing for unique building designs as well as last minute design updates.
Budget Friendly- Oftentimes, steel frames are more affordable than other systems. Structural steel actually may lower costs in other areas of the building process too. How? Here&#;s a few ways.
Safety first- There are multiple governing bodies that regulate the proper manufacturing of structural steel. So, we know it&#;s built right. There are also some other safety factors worth mentioning.
Prone to corrosion- Steel is an alloy of iron and all alloys can corrode. In case you are wondering what specifically corrosion means it&#;s &#;the gradual deterioration of metals caused by the action of air, moisture, or a chemical reaction (such as an acid) on their surface&#;. Luckily, corrosion can be combated to a degree with water resistant or other coatings.
FireProofing- Fire proofing efforts are extensive since steel is not fireproof. Structural integrity can be lost when steel is exposed to extreme heat.
Not energy efficient- Structural steel simply doesn&#;t have the thermal resistance of other framing systems such as wood. Why is this? It&#;s due to a concept known as thermal bridging. Thermal bridging allows heat to move from inside a building towards the steel frame in the walls. This can lead to a cold drafty building.
Not all structural steel is created equal. There are multiple chemical compositions and mechanical properties (think yield & tensile strength) which determine the structural grade of the product. Throughout the world there are governing bodies that ensure structural steel products meet industry standards. In America, the governing body is ASTM.
The most popular structural steel grades in the United States are ASTM A36 and ASTM A572. These steel grades are great for bridge design and framing for buildings.
A36- This structural steel grade is a popular option for columns, beams, decking and finishing products. It&#;s low-carbon and affordable. On top of this the yield strength is unmatched.
A572- Like A36 structural steel, A572 has great yield and tensile strength. This grade stands out in situations where a project needs a higher strength to weight ratio. It is often found being used on bridges, transmission towers and even roller coasters.
A588- This grade has a higher tensile and yield strength than both A36 and A572. It&#;s this product&#;s unparalleled atmospheric corrosion resistance that makes it a great fit for outdoor projects.
A514- A514 can be found holding up very heavy loads because of its yield strength of a whopping 100,00 psi. It&#;s easy to work with and remains strong at low atmospheric temperatures. Other places you may find this grade of structural steel is in cranes or other frequently operated machines.
If you want to read more on this, here&#;s a link that lays out specific chemical compositions of various structural steel grades.
When structural steel is properly maintained, it can have a life expectancy of 50-100+ years.
Why?
Structural steel is very durable and is resistant to mold, moisture, termites and is able to hold up against wind and seismic forces due to tensile strength.
The short answer, yes, structural steel can rust. About 85% of steel produced is carbon steel which means it&#;s more likely to rust overtime.
However, structural engineers are well versed in understanding the properties that contribute to structural steel corrosion and will factor this in during the design phase of a project. There are also ways of preparing structural steel so it is more rust protective. Some methods are galvanization, primer & powder coats as well as bluing.
Some of the factors leading to rust could be (these factors will vary based upon the environment the structural steel is existing in):
Side note- In general, when a lot of humidity and salt water exist, structural steel is more prone to rust. Think the southern coast of the United States.
Below is a atmospheric corrosivity chart from the International Organization for Standardization (ISO). It can provide a general idea of structural steel thickness loss in various environments.
Remember though, within different areas, micro environments exist which can throw additional corrosive factors into the mix. It&#;s important to speak with your structural engineer about whether structural steel is a good fit for your project.
Structural steel design is the reason that steel buildings, bridges and towers remain standing over time. Structural engineers are trained to understand the characteristics of different types of steel and steel alloys and use their knowledge to design structures capable of carrying the live load, dead load, snow loads, wind and seismic stresses.
These factors will determine what type/size of steel beams, columns, braces, connectors and hangers will be needed. There is a lot of math that goes into structural steel design.
Another factor that structural engineers will consider during the design phase is the type of soil the structure will be built on. Knowledge on soil composition is very important for preventing things like frost heave as well as sagging, shifting and movement within a foundation and building.
The building materials used will also affect the foundation design. Structural steel framing has a greater strength-to-weight ratio than other types of building materials like wood. This means that less building material will be used when building with structural steel, ultimately resulting in a lighter structure. And, because of this, these structures will require less concrete for the foundation which will save on foundation costs.
If you have any questions relating to the design of your structural steel building plans, our engineers can help.
Let&#;s define what structural detailing is before we go any further.
Essentially, structural detailing is a set of instructions, created by a professional licensed engineer, that could be in a drawing form or written on a construction plan to ensure the building will withstand the test of time/is structurally sound.
To expand upon this, let&#;s discuss the process a bit.
Structural engineers work hand-in-hand with architects. Think of architects as artists and engineers as mathematicians.
If a client hires an engineering firm to do structural detailing for a project, they typically already have an architect they&#;ve been working with. If this is the case, the architect would send over the project blueprints to a structural engineer to add the proper structural detailing needed to make the plan stable and last over time.
Some structural engineers do what is called red-lining, where they literally hand write the proper detailing on the blueprint. Other engineers may use programs such as AutoCAD® to produce electronic details.
*Electronic plan with detailing *Example of part of a building plan with structural details included via red-liningWhat is included in structural detailing? Well, usually sizing for the following structural components:
Essentially, the structural engineer needs to analyze the blueprint and make sure that the load path, the direction in which each consecutive load will pass through connected members, will work and properly move loads down to the foundation, footings and soils.
What loads are considered?
Things like vibration limits, fatigue (the tendency of material to break under repeated stress) and torsion will be analyzed in order to make the proper material selections and design decisions. This process goes for all types of structural design and detailing regardless if the material is structural steel, wood or other.
Ok, there&#;s one more frequently asked question that we want to address.
What is the difference between structural detailing and structural design for structural steel buildings?
The terms are pretty similar really.
Typically though, structural design is a bit more comprehensive. Think, designing an entire structural system for a new construction build from scratch.
Structural detailing could also refer to engineering an entire blueprint, but usually refers to engineering a specific portion of a blueprint or projects like remodels, renovations, pergola & gazebos, foundations, retaining walls, and decks.
*Example of a structural drawing with structural detailingSometimes structural steel systems are required to be painted and other times not. See the photo below from the American Institute of Steel Construction for information on when structural systems may need to be painted.
There are also times when structural steel may be painted simply for aesthetic reasons. You may be wondering how to go about painting in this scenario.
The following steps are common when painting steel buildings-
Did you know that structural steel&#;s melting point is around degrees fahrenheit?
Crazy, right?
The next fun fact is that building fires typically max out around degrees fahrenheit.
So&#;..one may think steel does not need to be fireproofed. That would be a mistake. The steel probably won&#;t melt, but it is still losing structural strength. This is why building codes require steel to be fireproofed.
There are various resistance rating requirements, but most structural steel needs to meet a minimum of a 2-hour fire resistance rating.
If you are wondering where to look up fire ratings, see the photo provided by the AISC below.
Some structural steel can be galvanized. It is usually the material choice when dealing with highly corrosive environments ie) coastal areas.
Structural engineers are trained to understand how various steel materials act in different climates. They also recognize that galvanized steel is not as structurally strong as regular structural steel. It may however hold up free of maintenance for much longer periods of time. All of these factors will be considered during the planning phase of your project.
For more information on galvanized steel and the corrosion process click here.
Raw structural steel prices will vary upon market conditions. However, you could expect to pay about $0.90-$1.55 per pound if buying by the beam. Or, if buying by the ton, it could cost you about $90.00 per ton in bulk.
What about steel beams?
You could expect to pay $1,100-$4,300 ($90-$400 per square foot) to install an average sized steel beam. This price includes engineering, permits, materials, shipping and labor costs.
If you are looking for more detailed information on structural steel costs, check out this detailed and informative article here.
We hope
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