High Performance Membrane Pvc Roof – Steel Truss PVDF membrane structure Roof For Tennis Stadium – HJZC
High Performance Membrane Pvc Roof – Steel Truss PVDF membrane structure Roof For Tennis Stadium – HJZC Detail:
Product Description
High-strength membrane materials and reinforcing members (steel frame, steel column or steel cable) to generate certain pre-tension stress in its interior in a certain way to form a certain spatial shape, which can be used as a covering structure and bear certain external load.
According to the structure, membrane structures can be divided into:skeleton membrane structure , Tension membrane structure and Pneumatic membrane structure.
Advantage
Beautiful architectural style
Membrane structure architecture is the most representative and promising architectural form in the 21st century with its unique beautiful curved surface shape, the perfect combination of simplicity, brightness, rigidity and softness, strength and beauty, giving people a refreshing feeling, and at the same time providing architects with more imagination and creative space.
Good environmental protection, light transmission and self-cleaning PVDF (polyvinylidene fluoride) coating or titanium dioxide coating is used on the surface of the film, which has a good heat insulation effect. It can reflect 70% of solar heat, absorb 17% of the heat and transfer 13% of the heat. However, the light transmittance is above 20%. After 10 years of direct sunlight irradiation, its brightness can still keep 70%.
Covering large-span space
The membrane material used in the membrane structure is about one kilogram per square meter. Because of its light weight and the adoption of high-strength materials of steel cables and steel structures, it is simple and reasonable with the stress system-most of the force is transmitted by axial force, which makes the membrane structure suitable for spanning large space and forming an open long-span structure system without columns.
Fire resistance and earthquake resistance
The membrane materials used in membrane structures have excellent flame retardancy and high temperature resistance, so they can meet the fire protection requirements. Because of its light weight, flexible structure and large deformation capacity, the structure has good seismic performance. Short duration:
Film cutting.
The steel structures and steel cables for assembling and framing are all manufactured in the factory, and the construction is simple and convenient, so the construction period is shorter than that of traditional buildings.
Specifications
Item | PVDF | PTFE |
Base Fabric | Ultra-low shrinking high-strength polyester filament coating | Fiberglass cloth |
Total Thickness | 0.85+-0.02mm | 0.80mm |
Total Weight | 1100g/m2 | 1300g/m2 |
Tensile Strength(w/f) | 5500/5200 N/5cm | 6000/5000 N/5cm |
Tear Strength(w/f) | 600/550N | 400/350N |
Threshold Temperature | (-40℃)-(+70℃) | (-70℃)-(+250℃) |
Translucency | 6-8% | 12-14% |
Flame Retadacy | B1 | A |
Product detail pictures:
Related Product Guide:
We have many excellent staff members good at marketing, QC, and dealing with kinds of troublesome problem in the production process for High Performance Membrane Pvc Roof – Steel Truss PVDF membrane structure Roof For Tennis Stadium – HJZC, The product will supply to all over the world, such as: Qatar, Sweden, venezuela, Meanwhile, we're building up and consummating triangle market & strategic cooperation in order to achieve a multi-win trade supply chain to expand our market vertically and horizontally for a brighter prospects. development. Our philosophy is to create cost-effective products, promote perfect services, cooperate for long-term and mutual benefits, firm a comprehensive mode of excellent suppliers system and marketing agents, brand strategic cooperation sales system.
By Carol from America - 2017.12.19 11:10
The factory workers have a good team spirit, so we received high quality products fast, in addition, the price is also appropriate, this is a very good and reliable Chinese manufacturers.
By Elva from Bangalore - 2018.12.28 15:18