Shopping on line can be easy, simple and save you lots of money. It can also take a lot of your time, frustrate you, and result in unwanted purchases. Now the same can be said for regular high street shopping, but with the vast opportunity presented by the Internet it will pay you to spend a few minutes reading this and understanding how to better optimize your Formwork shopping experience:

1. Compare - without doubt the biggest advantage that the Formwork offers shoppers today is the ability to compare thousands of Formwork at a time. This is a great thing, but not necessarily all the time! Too much can be daunting at times so take advantage of the great comparison sites and where possible let them do the hard work for you.

2. Research - if it has been said it will be on the internet. Ignorance is no longer a justifiable reason for buying the wrong thing. Take the time to research in detail everything that you could possible want to know about

3. Testimonials - don't know anybody that has bought a Formwork? Wrong! If the Formwork is good the internet will let you know. Use the Internet as a friend and get testimonials before you buy.

4. Questions - Got a question about Formwork then search the Forums, FAQ's, Blogs etc. Don't be afraid to ask .....

5. Reputation - Never heard of the company selling Formwork? Don't worry, no reason why you should know every company in the world, but you know someone that does! Use the internet to find out what people are saying about Formwork and build up a picture of their reputation for sales, returns, customer service, delivery etc.

6. Returns - still worried that even after all of the above your Formwork wont be what you want? Check out the returns policy. There is so much competition now that someone, somewhere is bound to offer the terms that you are comfortable with.

7. Feedback - happy with your Formwork then let people know, after all you are depending on others people input in your buying decision, so why not give a little back.

8. Security - check for the yellow padlock on the Formwork site before you buy, and the s after http:/ /i.e. https:// = a secure site

9. Contact - got a question about Formwork, or want to leave a comment then check out the sites contact page. Reputable companies have them and respond.

10. Payment - ready to pay for your Formwork, then use your credit card or PayPal! Be aware of companies that don't accept them, there may be genuine reasons but given the huge amount of choice you have when buying online there is no reason at all not to buy via credit card or PayPal.

.

Formwork is the term given to either temporary or permanent Molding (process)s into which concrete or similar materials are poured. In the context of concrete construction, the falsework supports the shuttering moulds.

Formwork types Formwork comes in three main types:



Slab Formwork History domeSome of the earliest examples of concrete slabs where built by Roman engineers. Because concrete cannot absorb Tensile stress or torsional stress, these early structures consisted of arches, Vault (architecture) and domes. The most notable concrete structure from this period is the Pantheon, Rome in Rome. To mold these structure, temporary scaffolding and formwork or falsework was built in the future shape of the structure. These building techniques were not isolated to pouring concrete, but were and are widely used in Masonry. Because of the complexity and the limited production capacity of the building material, concrete’s rise as a favored building material did not occur until the invention of Portland cement and reinforced concrete.

Traditional Slab Formwork .On the dawn of the rival of concrete in slab structures, building techniques for the temporary structures were derived again from masonry and carpentry. The traditional slab formwork technique consists of supports out of lumber or young tree trunks, that support rows of stringers assembled roughly 3 to 6 feet or 1 to 2 meters apart, depending on thickness of slab. Between these stringers, joists are positioned roughly 12 inches, 30 centimeters apart upon which boards or plywood is placed. The stringers and joists are usually 2 by 4 inch or 2 by 6 inch lumber. The most common imperial plywood thickness is ¾ inch and the most common metric thickness is 21 millimeters.

Timber Beam Slab Formwork Similar to the traditional method, but stringers and joist are replaced with engineered wood beams and supports are replaced with metal props. This makes this method more systematic and reusable.

Metal Beam Slab Formwork Similar to the traditional method, but stringers and joist are replaced with aluminum or steel beams and supports are replaced with metal props. This also makes this method more systematic and reusable.to be completed

Modular Slab Formwork With preassembled timber modules or steel or aluminum modules.to be completed

Table or Flying Form Systems United States Patent 4036466.

These systems consist of slab formwork “tables” that are reused on multiple stories of a building without being dismantled. The assembled sections are either lifted per elevator or “flown” by crane from one story to the next. Once in position the gabs between the tables or table and wall are filled with “fillers”. They vary in shape and size as well as their building material. The use of these systems can greatly reduce the time and manual labor involved in setting and striking the formwork. Their advantages are best utilized by large area and simple structures. It is also common for architects and engineers to design building around one of these systems.

Structure A table is built much the same way as a beam formwork but the single parts of this system are connected together in such a way making them transportable. The most common sheathing is plywood, but steel and fiberglass are also in use. The joist are either made from timber, wood I-beams, aluminum or steel. The Stringers are sometimes made of wood I-beams but usually from steel channels. These are fastened together (screws, weld or bolted) to become a “deck”. These decks are usually rectangular but can also be other shapes.

Support All support systems have to be height adjustable to allow the formwork to be placed at the correct height and to be removed after the concrete is cured. Normally adjustable metal props similar to (or the same as) those used by beam slab formwork are used to support these systems. Some systems combine stringers and supports into steel or aluminum trusses. Yet other systems use metal frame shoring towers, which the decks are attached to. Another common method is to attach the formwork decks to previously cast walls or columns, thus eradicating the use of vertical props altogether. In this method, adjustable support shoes are bolted through holes (sometimes tie holes) or attached to cast anchors.

Size The size of these tables can vary from 70 sqft. to 1500 sqft. or 8m² to 150m². There are two general approaches in this system.

Crane handled

This approach consists of assembling or producing the tables with a large formwork area that can only be moved up a level by crane. Typical widths can be 15, 18 or 20ft. or 5 to 7 meters but their width can be limited, so that it is possible to transport them assembled, without having to pay for an oversize load. The length vary and can be up to 100ft. (or more) depending on the crane capacity. After the concrete is cured, the decks are lowered and moved with rollers or trolleys to the edge of the building. From then on the protruding side of the table is lifted by crane whiles the rest of the table is rolled out of the building. After the center of gravity is outside of the building the table reattached to another crane and flown to the next level or position.This technique is fairly common in the United States and east Asian countries. The advantages of this approach are the further reduction of manual labor time and cost per sqft. or m² of slab and a simple and systematic building technique. The disadvantages of this approach are the necessary high lifting capacity of building site cranes, additional expensive crane time, higher material costs and little flexibility.

crane fork or elevator handledBy this approach the tables are limited in size and weight. Typical widths are between 6 to 10ft. or 2 to 3 meters, typical lengths are between 12 and 20ft. or 4 to 7 meters, though table sizes may vary in size and form. The major distinction of this approach is that the tables are lifted either with a crane transport fork or by material platform elevators attached to the side of the building. They are usually transported horizontally to the elevator or crane lifting platform single handedly with shifting trolleys depending on their size and construction. Final positioning adjustments can be made by trolley.This technique enjoys popularity in the US, Europe and generally in high labor cost countries. The advantages of this approach in comparison to beam formwork or modular formwork is a further reduction of labor time and cost. Smaller tables are generally easier to customize around geometrically complicated buildings (round or non rectangular) or to form around columns in comparison to their large counterparts. The disadvantages of this approach are the higher material costs and increased crane time (if lifted with crane fork).

Cassette Formwork to be completed. see structural Coffer

Usage For removable forms, once the concrete has been poured into formwork and has set (or cured), the formwork is struck or stripped (removed) to expose the finished concrete. The time between pouring and formwork stripping depends on the job specifications, the cure required, and whether the form is supporting any weight, but is usually at least 24 hours after the pour is completed. For example, the California Department of Transportation requires the forms to be in place for 1-7 days after pouring, 90-7 (from the California Department of Transportation Standard Specifications, 2006 while the Washington State Department of Transportation requires the forms to stay in place for 3 days with a damp blanket on the outside 6-02.3(11) (from the Washington State Department of Transportation Standard Specifications, 2006.

Spectacular accidents have occurred when the forms were either removed too soon or had been under-designed to carry the load imposed by the weight of the uncured concrete. Less critical and much more common (though no less embarrassing and often costly) are those cases in which underdesigned formwork bends or breaks during the filling process (especially if filled with a high-pressure concrete pump). This then results in liquid concrete escaping out of the formwork in a form blowout, often in large quantities.

Concrete exerts less pressure against the forms as it hardens, so forms are usually designed to withstand a number of feet per hour of pour rate to give the concrete at the bottom time to firm up. For example, wall or column forms are commonly designed for a pour rate between 4-8 ft/hr. The hardening is an asymptotic process, meaning that most of the final strength will be achieved after a relatively short time, though some further hardening can occur depending on the cement type and admixtures.

Wet concrete also applies hydrostatic pressure to formwork. The pressure at the bottom of the form is therefore greater than at the top. In the illustration of the column formwork to the right, the 'column clamps' are closer together at the bottom. Note that the column is braced with steel adjustable 'formwork props' and uses 20 mm 'through bolts' to further support the long side of the column.

References

See also Terminology

External links From a private website for builder's do it yourself

Companies

Trade fairs Trade fairs that are relevant to Formwork The industries largest annual event. This 33 year old event is the most important for the north American construction industry (in particular for masonry and concrete), with roughly 1,800 exhibitors and 100,000 visitors. The WOC 2008, 2009 and 2010 will take place in Las Vegas, Nevada. The equivalent of it’s American counterpart, the WOC Mexico is positioned the most important business event in the concrete and construction industry of Mexico. A tri-yearly event that takes place in Munich, Germany. With an attendance of roughly 500,000 visitors and 2,801 exhibitors the 28th Bauma 2007 is the most important trade fair for the construction industry in Europe. A bi-yearly event that takes place in Shanghai, China. The equivalent of it’s European counterpart the Bauma China premiered in 2002. In 2006 the event attracted some 80,000 visitors.

.

Formwork is the term given to either temporary or permanent Molding (process)s into which concrete or similar materials are poured. In the context of concrete construction, the falsework supports the shuttering moulds.

Formwork types Formwork comes in three main types:



Slab Formwork History domeSome of the earliest examples of concrete slabs where built by Roman engineers. Because concrete cannot absorb Tensile stress or torsional stress, these early structures consisted of arches, Vault (architecture) and domes. The most notable concrete structure from this period is the Pantheon, Rome in Rome. To mold these structure, temporary scaffolding and formwork or falsework was built in the future shape of the structure. These building techniques were not isolated to pouring concrete, but were and are widely used in Masonry. Because of the complexity and the limited production capacity of the building material, concrete’s rise as a favored building material did not occur until the invention of Portland cement and reinforced concrete.

Traditional Slab Formwork .On the dawn of the rival of concrete in slab structures, building techniques for the temporary structures were derived again from masonry and carpentry. The traditional slab formwork technique consists of supports out of lumber or young tree trunks, that support rows of stringers assembled roughly 3 to 6 feet or 1 to 2 meters apart, depending on thickness of slab. Between these stringers, joists are positioned roughly 12 inches, 30 centimeters apart upon which boards or plywood is placed. The stringers and joists are usually 2 by 4 inch or 2 by 6 inch lumber. The most common imperial plywood thickness is ¾ inch and the most common metric thickness is 21 millimeters.

Timber Beam Slab Formwork Similar to the traditional method, but stringers and joist are replaced with engineered wood beams and supports are replaced with metal props. This makes this method more systematic and reusable.

Metal Beam Slab Formwork Similar to the traditional method, but stringers and joist are replaced with aluminum or steel beams and supports are replaced with metal props. This also makes this method more systematic and reusable.to be completed

Modular Slab Formwork With preassembled timber modules or steel or aluminum modules.to be completed

Table or Flying Form Systems United States Patent 4036466.

These systems consist of slab formwork “tables” that are reused on multiple stories of a building without being dismantled. The assembled sections are either lifted per elevator or “flown” by crane from one story to the next. Once in position the gabs between the tables or table and wall are filled with “fillers”. They vary in shape and size as well as their building material. The use of these systems can greatly reduce the time and manual labor involved in setting and striking the formwork. Their advantages are best utilized by large area and simple structures. It is also common for architects and engineers to design building around one of these systems.

Structure A table is built much the same way as a beam formwork but the single parts of this system are connected together in such a way making them transportable. The most common sheathing is plywood, but steel and fiberglass are also in use. The joist are either made from timber, wood I-beams, aluminum or steel. The Stringers are sometimes made of wood I-beams but usually from steel channels. These are fastened together (screws, weld or bolted) to become a “deck”. These decks are usually rectangular but can also be other shapes.

Support All support systems have to be height adjustable to allow the formwork to be placed at the correct height and to be removed after the concrete is cured. Normally adjustable metal props similar to (or the same as) those used by beam slab formwork are used to support these systems. Some systems combine stringers and supports into steel or aluminum trusses. Yet other systems use metal frame shoring towers, which the decks are attached to. Another common method is to attach the formwork decks to previously cast walls or columns, thus eradicating the use of vertical props altogether. In this method, adjustable support shoes are bolted through holes (sometimes tie holes) or attached to cast anchors.

Size The size of these tables can vary from 70 sqft. to 1500 sqft. or 8m² to 150m². There are two general approaches in this system.

Crane handled

This approach consists of assembling or producing the tables with a large formwork area that can only be moved up a level by crane. Typical widths can be 15, 18 or 20ft. or 5 to 7 meters but their width can be limited, so that it is possible to transport them assembled, without having to pay for an oversize load. The length vary and can be up to 100ft. (or more) depending on the crane capacity. After the concrete is cured, the decks are lowered and moved with rollers or trolleys to the edge of the building. From then on the protruding side of the table is lifted by crane whiles the rest of the table is rolled out of the building. After the center of gravity is outside of the building the table reattached to another crane and flown to the next level or position.This technique is fairly common in the United States and east Asian countries. The advantages of this approach are the further reduction of manual labor time and cost per sqft. or m² of slab and a simple and systematic building technique. The disadvantages of this approach are the necessary high lifting capacity of building site cranes, additional expensive crane time, higher material costs and little flexibility.

crane fork or elevator handledBy this approach the tables are limited in size and weight. Typical widths are between 6 to 10ft. or 2 to 3 meters, typical lengths are between 12 and 20ft. or 4 to 7 meters, though table sizes may vary in size and form. The major distinction of this approach is that the tables are lifted either with a crane transport fork or by material platform elevators attached to the side of the building. They are usually transported horizontally to the elevator or crane lifting platform single handedly with shifting trolleys depending on their size and construction. Final positioning adjustments can be made by trolley.This technique enjoys popularity in the US, Europe and generally in high labor cost countries. The advantages of this approach in comparison to beam formwork or modular formwork is a further reduction of labor time and cost. Smaller tables are generally easier to customize around geometrically complicated buildings (round or non rectangular) or to form around columns in comparison to their large counterparts. The disadvantages of this approach are the higher material costs and increased crane time (if lifted with crane fork).

Cassette Formwork to be completed. see structural Coffer

Usage For removable forms, once the concrete has been poured into formwork and has set (or cured), the formwork is struck or stripped (removed) to expose the finished concrete. The time between pouring and formwork stripping depends on the job specifications, the cure required, and whether the form is supporting any weight, but is usually at least 24 hours after the pour is completed. For example, the California Department of Transportation requires the forms to be in place for 1-7 days after pouring, 90-7 (from the California Department of Transportation Standard Specifications, 2006 while the Washington State Department of Transportation requires the forms to stay in place for 3 days with a damp blanket on the outside 6-02.3(11) (from the Washington State Department of Transportation Standard Specifications, 2006.

Spectacular accidents have occurred when the forms were either removed too soon or had been under-designed to carry the load imposed by the weight of the uncured concrete. Less critical and much more common (though no less embarrassing and often costly) are those cases in which underdesigned formwork bends or breaks during the filling process (especially if filled with a high-pressure concrete pump). This then results in liquid concrete escaping out of the formwork in a form blowout, often in large quantities.

Concrete exerts less pressure against the forms as it hardens, so forms are usually designed to withstand a number of feet per hour of pour rate to give the concrete at the bottom time to firm up. For example, wall or column forms are commonly designed for a pour rate between 4-8 ft/hr. The hardening is an asymptotic process, meaning that most of the final strength will be achieved after a relatively short time, though some further hardening can occur depending on the cement type and admixtures.

Wet concrete also applies hydrostatic pressure to formwork. The pressure at the bottom of the form is therefore greater than at the top. In the illustration of the column formwork to the right, the 'column clamps' are closer together at the bottom. Note that the column is braced with steel adjustable 'formwork props' and uses 20 mm 'through bolts' to further support the long side of the column.

References

See also Terminology

External links From a private website for builder's do it yourself

Companies

Trade fairs Trade fairs that are relevant to Formwork The industries largest annual event. This 33 year old event is the most important for the north American construction industry (in particular for masonry and concrete), with roughly 1,800 exhibitors and 100,000 visitors. The WOC 2008, 2009 and 2010 will take place in Las Vegas, Nevada. The equivalent of it’s American counterpart, the WOC Mexico is positioned the most important business event in the concrete and construction industry of Mexico. A tri-yearly event that takes place in Munich, Germany. With an attendance of roughly 500,000 visitors and 2,801 exhibitors the 28th Bauma 2007 is the most important trade fair for the construction industry in Europe. A bi-yearly event that takes place in Shanghai, China. The equivalent of it’s European counterpart the Bauma China premiered in 2002. In 2006 the event attracted some 80,000 visitors.



 

Formwork



 
Copyright © 2008 Hintcenter.com - All rights reserved.
Home | Terms of Use | Privacy Policy
All Trademarks belong to their repective owners. Many aspects of this page are used under
commercial commons license from Yahoo!