scaffolding_material fiberglass scaffolding steel_scaffold
product description
Brand Name |
Dragon |
Place of Origin |
Guangzhou,Guangdong,China (Mainland) |
Main tube |
φ51x2mm or 3mm |
Material/Main tube |
aluminum 6082-T6/main tube:diameter:51x2mm or 3mm |
Size(WxL) |
1.35x2m/2.5m/3m |
Height |
2-15m per set, with attached scaffolding can be 40m |
Floors |
According to height or as requested |
Colour |
Silver |
Load capacity |
Each platform 272kg |
Usage |
people work in wider place , scaffolding platform and bridge |
Application |
used in making advertising,painting ceiling,building contruction, cleaning, repairing |
PRODUCTS FEATURES:
1.Light weight |
Aluminum scaffold is made of light but firm alluminum alloy6082-T6 so it is easy to assembled, move and keep. And its weight is 30% of steel, which avoids any damage to the floor. |
2.Safe and firm structure |
It is a safe and firm platform with all joints tightly engaged. With new cold-work technique of in-expand and out-compress, our joint is distributed with 4100- 4400 Kg, much stronger than the permitted one with 2100KG. The load of the 12M Double Deck reaches about 500Kg. Each deck can stand the weight of 272Kg and the complete tower of 900Kg. |
3.Easy assembly and dismantlement |
It is of "toy bricks" design,with standard parts. No assembling tools should be needed. An aerial platform of 20M will be assembled by two persons within a short time. |
4.Easy transit |
It has castors so that it can be moved and locked easily and work at different place. |
5.High applicability |
It is allowed to be erected on escalators and stairways. And the castors prevent any damage on the marble or wood floor and the lawn. And it is designed for use in confined spaces such as narrow alleyways and corridors. And it can be assembled in many ways. |
6.Flexible assembly |
It can be designed and assembled according to any operation request of any special maintenance in all working sites. |
7.Rust-proof,Corrosion- proof,Maintenance-free |
All parts of the ladderspan are anti-oxygenation, with interlocks made by casting of spray pellet, which provides itself a lifespan of 30 years more. |
Scaffolding Material: Fiberglass Scaffolding vs. Steel
When it comes to choosing the right scaffolding material for your construction project, two popular options are fiberglass and steel. Both materials have their own unique advantages and considerations that need to be taken into account.
Fiberglass scaffolding is known for its lightweight and non-conductive properties. This makes it an excellent choice for projects that require working near electrical sources or in areas where there is a risk of electrical shock. Additionally, fiberglass scaffolding is resistant to corrosion, making it ideal for outdoor use or in environments with high moisture levels. Its durability and strength also ensure a safe and stable working platform for workers.
On the other hand, steel scaffolding is renowned for its robustness and load-bearing capacity. It can withstand heavy loads and is often used in projects that require multiple workers and equipment. Steel scaffolding is also highly versatile, allowing for various configurations and adjustments to fit different project needs. Additionally, steel scaffolding is fire-resistant, providing an added level of safety in case of fire emergencies.
When deciding between fiberglass and steel scaffolding, it is essential to consider the specific requirements of your project. If electrical safety and corrosion resistance are crucial factors, fiberglass scaffolding may be the best choice. However, if heavy loads and versatility are your priorities, steel scaffolding is likely the better option.
In conclusion, both fiberglass and steel scaffolding have their own advantages and considerations. By carefully evaluating the specific needs of your project, you can make an informed decision on which material will best suit your requirements. Regardless of the choice, it is essential to prioritize safety and ensure that the scaffolding is properly installed and maintained throughout the construction process.