In construction, the success of a project doesn't rely on an elegant design or a magnificent structure but also on a solid and stable foundation. Hence, the spun pile plays an important role in ensuring the safety and durability of building structures.
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In this article, we will discuss the spun pile, including its functions, advantages, and types, ranging from wood to concrete. Let's learn more about it here!
A spun pile is a tool that provides stability and strength to the building structure. It binds the building to the ground or rock surface, ensuring the building does not shift or collapse.
The spun pile has a long and cylindrical shape with pointed ends. Its pointed shape at the end plants the pile into the ground.
Spun piles are often used as foundations in various constructions, such as toll road structures, buildings, bridges, and other infrastructure projects. For example, spun piles are planted in the ground to provide strong support, making the fence not easily wobble or collapse when receiving pressure.
Likewise, spun piles are used as supports when building staircases, ensuring the structure remains sturdy and safe.
As mentioned above, the spun pile helps provide stability and strength to the building structure. The detailed explanation of its functions is as follows:
Spun piles have several advantages that make them an important component in the construction structure. They're made of steel or concrete, which helps them withstand the pressure and large loads of the building structure.
Spun piles are also available in several forms, such as wooden, steel, and concrete. This allows contractors to choose the type most suitable for their project.
Along with their availability, spun piles are known for their stability. They can prevent shifting or collapse, ensuring buildings stand firmly for many years.
Furthermore, spun piles help minimize the risk of damage. With their ability to withstand loads and dampen vibrations, they can reduce the risk of damage to the building structure. This will extend the lifespan of the building and reduce long-term maintenance costs.
Last but not least, spun piles are durable materials in various conditions. Even when used in slightly risky soil, a spun pile can still prove to be a reliable element.
Read also: Effective Tips to Save Money on Building Material Costs
If you wonder what various spun pile types are made of, read the following explanation:
People often choose wooden spun piles because of their wide availability and affordable price. The installation requires simple tools like a hammer. Hence, the wooden spun pile is an ideal choice for temporary or light construction projects.
However, wooden-spun piles tend to have a low resistance to weather and pest attacks, such as termites. This characteristic makes them less suitable for either long-term projects or projects with heavy loads.
Steel-spun piles are the top choice for permanent construction projects or projects with heavy loads. They have high strength and are resistant to corrosion, making them suitable for building foundations, main structures, or fences.
However, steel-spun piles tend to be more expensive than wooden ones. You also need additional, heavier tools to install them. That said, this investment is worth the long-term reliability.
This product is characterized by long poles with sizes varying from 6 to 24 meters, circular with a cavity in the middle that is between 300 mm and mm in diameter.
As a prestressed product, it can transmit vertical and horizontal loads to the ground.
Spun piles can be used in almost all types of soil and can withstand loads with a capacity of up to 800 tons.
Concrete spun piles can benefit the construction of high-rise building structures, bridges, docks, and overpasses. For concrete quality, spun piles fall into the high concrete quality category up to K-500.
Read also: Knowing the Importance of Concrete Treatment
Geotechnics is a branch of civil engineering that studies the properties of soil and rock. In construction projects, geotechnical analysis helps determine the right type of spun pile. Soil strength, density, and moisture affect the selection and installation of a spun pile.
Soft soils require longer or stronger spun piles, such as those made of steel or concrete. On the other hand, hard soils may require special installation techniques and heavy equipment. In addition, environmental factors such as groundwater and earthquake risk should also be considered. For example, concrete spun piles are most suited in earthquake-prone areas as they can withstand vibrations well.
Once installed, spun piles require regular maintenance to keep them functioning properly. Wooden spun piles need a thorough inspection to ensure there is no damage from pests or weathering. If you find any damages, you should replace the spun pile or repair it immediately.
A regular check for steel-spun piles can help detect signs of corrosion. If there is corrosion, you need to perform the anti-rust coating treatment. Meanwhile, concrete spun pile maintenance includes checking for cracks or structural damage. When you find damages, repair the spun pile immediately to prevent further damage.
With proper maintenance, spun piles can provide reliable and durable support for buildings, reduce the risk of structural failure, and ensure the safety and stability of buildings in the long run.
That was all about spun piles, their functions, advantages, and types. When selecting building materials, you should pay attention to the quality. Aside from spun piles, another construction material that can build a stronger structure is cement.
Through our subsidiary, Merah Putih Beton, we provide solutions for ready-mix concrete, precast concrete, Value Added Solution, and aggregate needs. We provide high-quality ready-mix concrete that complies with the latest construction standards, as well as efficient and durable precast concrete for various projects.
Our Value Added Solution includes consulting services and innovative product development to support your construction needs. In addition, we also provide quality aggregates that are essential to ensuring the stability and strength of building structures.
Contact us now to get the best construction solution for your project! We are ready to help you achieve project success with superior concrete products and services.
DUL concrete piles in the form of PC spun piles (rarely use the word centrifugal) are often found in Japan or Korea. They are not common in Europe. In Europe, DUL square and triangle piles are used.
Goto Jianhua Holdings Group to know more.
In our country today, some factories (Phan Vu, BT620, BCC, Phu My) can manufacture both types of piles and are commercializing both types, but mainly round piles are still used.
+ The cost advantage compared to RC piles is not very large, because concrete is more expensive (high grade), PC bar reinforcement (with strength fy = - kg/cm2) must be imported from Indo, Thailand, Malaysia or Han, Japan, the price is twice as expensive and you have to buy in reserve because you don't have enough time.
+ Its outstanding advantage is progress. If casting regular piles or UDL square piles, the accelerated curing technique cannot be applied. After steaming for about 2-3 hours, it has hardened (reached the mark) so it can be immediately transported to the construction site the next day.
+ There are two types of PS spun piles: PC and PHC, PC piles include steam curing at normal pressure (with t=70-80oC), and concrete uses common additives (in Vietnam). are Sikament R4, Sikament FF when needed), PC40 cement (ATSM C150 type I) cement grade is only 400 kg/cm2) but thanks to centrifugal compaction, after heat curing it can easily reach 700kg/cm2 .
But to further improve, people use PHC piles, which are exactly the same as PC piles, except for the heat curing step. People use heat + pressure curing by putting them in the autoclave to get a large batch of piles in just one hour. , put it in the car and go to the construction site.
But this method is too costly to invest in the autoclave, Vietnam cannot afford it (it increases the cost), but we only use silicafume-based additives to speed up the process of early strength increase when heat curing at normal pressure. (using the same PC pile production equipment system as before), but spending money to buy additives that the investor does not require urgent progress (like the Western style) is not worth it because it increases the price. Therefore, only PC piles are currently popular.
Thanks to the centrifugal rotation technique (spinning), the concrete layer spreads into shells on both sides that are just hard enough (average shell wall thickness is 50-70cm depending on pile diameter. This helps save materials (transfer materials, light pile driving). softer).
The steel reinforcement is created and placed in the mold. After centrifugation, it is located in the middle of the concrete wall and participates in bearing force (pulling the concrete tightly). The important thing in making steel is to cut the steel evenly, with an error of 1mm/15mm, then the two ends of the steel wire are pressed tightly combined with passing high intensity current (low pressure). cross to create a garlic-like knot at each end (called the heading stage).
A pile usually has 8-16 steel bars (depending on design). The main steel and stirrup steel are put through a caging machine to create steel. Put the ***g into the mold, use the flange (also the piece to connect the pile head later) to make a place to lock the steel bar, then use a hydraulic jack to stretch the steel bar, anchoring the flange to the mold (requires the mold to be sufficient). tension-bearing capacity of steel bars (70-120 tons).
After the concrete reaches its strength (right after leaving the curing tank), the mold is released, which means letting the tension of the steel bar that is applied to the mold be transferred to the concrete (stress inducement). After this process, the piles can be immediately transported to the construction site.
Compression capacity of the pile: a little larger than regular concrete piles, the reason is that the concrete grade is much higher than regular piles, so even if the amount of pre-compressive stress caused by the steel bar is subtracted, it is still large. . But the important thing is that the bending moment is very high. This is more important for piles if we want to have long piles to reduce joints, and want to have light piles for easy construction. .
The forte of this pile is to drive in weak areas, requiring long piles, but when driving on sandy soil, the bearing capacity is still better than regular piles, but it cannot promote its advantages compared to regular piles so it is rarely used ( uneconomical).
Piles are usually 12m long, rarely 15m long, mainly due to transportation and pile driving conditions, not at all due to production techniques. Diameter is usually 500-600-900mm.
The bearing capacity of this pile is the same as that of conventional RC piles, mainly controlled by ground conditions, not exceeding the strength threshold due to the material.
The length of a D300-400 pile is about 8-10m, a D500-600 pile is about 12-15m, D900-D piles can be made for marine construction. When connecting two pile segments together, use weld to weld the two pile flanges together. The total pile length is usually about 45-60m, this is determined by geological conditions.
Currently, Vietnam has not issued standards for PC piles, so manufacturers have to search for projects mainly designed by foreign countries. And because there are no standards, our design engineers are also afraid to incorporate it into the project; Safety is also a difficult problem for this type of pile entering the construction industry. And not only pre-stressed pile technology but many other technologies will also suffer from our Vietnamese style of promulgating standards.
In addition (in the South), centrifugal electric poles have also been converted to be manufactured using this method, no longer using PC as before.
I would like to say a few more things about construction in Vietnam, but it is not "technical".
+ Regarding additives in Vietnam, it is still mainly Sika, not because Sika is better than MBT, but because its names are easy to call for our people, especially workers and small contractors - a large number of unskilled engineers. Regarding construction materials (Structural KS etc.) additives are also called Sika thot (just like our people call motorbikes Hong-dza (honda)).
Do you see it or not, but the Holcim cement guy is doing very expensive name change campaigns to give it a name for globalization. Previously, when they entered Vietnam (), they entered into a joint venture with Vietnam Cement Corporation (In Vietnam, cement is still a monopoly, the price of cement is 2.5 times more expensive than in Thailand), they chose a very good name: Sao Mai Cement (Morning Star), as a result, part of their retail market share was lost to someone else. However, overall, they have their own reasons for choosing that way.
Today, Vietnam has a few "strange" cement brands from a number of construction enterprises investing in cement production; Buying clinker from Thailand (mainly Siemens) to grind for sale, competing with the "big brothers" is also possible, mainly thanks to relationships and when the market builds demand a little more than supply.
But construction enterprises (as well as other domestic enterprises in other industries) have a "civilized" way of doing business: debt to each other, keeping each other's capital as long as possible even though the contract may be "payment". within 1 month after acceptance), this culture slows down production too much, but it is chronic and not as clear-cut as the community of foreign companies in Vietnam.
Sika entered Vietnam in , before MBT, their market share is currently larger than MBT. There are a few types of additives in the country but they only live in each related project, without enough potential for development.
That "sewage" additive is sold at an exorbitant price. In the past, our concrete factory bought original chemicals from abroad and mixed them with additives equivalent to the types of Sika (sikament R4, NN), which were cheap but only used for our concrete station to creating a small competitive advantage compared to other concrete factories.
Trying the same criteria as Sika, even at a large thermal power plant, it has surpassed the competition with Sika, but if you mix it manually, large production is not suitable.
In general, concrete is a mixture of stone and sand, the cement particles are only to bind and position the stone and sand, the additives are to reduce friction to help the particles fit tighter, the higher the grade (if water is added to it). reducing friction will reduce the grade), silicafume because it is "fume" is very smooth and the greater the compaction effect, the higher the grade will be.
+ Regarding pre-stressed concrete, in Vietnam there is a French company that has entered into a joint venture with Vinaconex to set up a factory in the north to produce small beam components and prefabricated floors, but due to the inherent limitations of prefabricated concrete, The factory's production cannot develop.
As for piles (reinforced concrete or reinforced concrete) cast at the factory, they are more advantageous than floor columns but are not the solution that contractors choose for their pile foundations or buildings at the construction site.
– In terms of manufacturing cost, the advantage of reinforced concrete piles compared to reinforced concrete piles is not significant in terms of steel savings, but depreciation on machinery increases, so the efficiency is not much.
– In addition, design engineers often do not include reinforced concrete piles in their projects at the design stage, so the constructor cannot change or suggest using another type of pile, (hehe.. just adjust The length of each pile section while still maintaining the total pile length is already a lot of work, let alone asking to change the mechanical pile design..)
– Another big problem that I saw you mentioned is traffic infrastructure, that's true, it cannot meet the needs of transporting heavy goods like reinforced concrete on the road and therefore bribery costs (money given to the police) traffic so they ignore it and let me pass) is very high. Construction contractors prefer to choose the solution of self-casting regular reinforced concrete piles at the construction site.
– VAT for piles produced at the factory is also 10% while it should only be 5% to be comparable to other product factories, this does not encourage the construction industry to "industrialize" production. .
Another special issue to note in reinforced concrete compared to reinforced concrete is the "inflexibility" that makes its design process take into account the sudden loss of stress force, leading to the need to add backup steel, increasing the Production expense.
Excessive brittleness is very dangerous, for example, if an electric pole is accidentally hit by a vehicle, it will only bend and break, but the steel reinforcement will still bear the force so that the wire does not fall on the spot, but if If it is a BTDUL column, the column seems to have been cut by a knife, the entire top of the column collapsed on the spot and the consequences of the 220V current are needless to say.
A reinforced concrete floor will usually sag slowly before collapsing while the same thing does not happen with a reinforced concrete floor. It is recommended to calculate the safety factor for reinforced concrete structures to satisfy these conditions.
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