Sun Island Hotel Platform For International Exchange Of Membrane
Membrane structure which called tensioned Membrane structure, is a new kind of
building structure. It through the steel frame, Steel column or
waire make the Membrane material produce a certain tension, in
order to form a certain space shape, composition can bear a certain
tension stability catenary system. Membrane structure of the
Membrane material should be made concave and convex space curved
surface to ensure its stability, so the Membrane structure is
called space Membrane structure as well.
Membrane structure is simple, crisp and dynamic appearance and a strong body
sculpture, and firmness with gentleness, strength and beauty the
perfect combination, not only it can fully demonstrate the
humanistic spirit of the building, but also very modern.
A. Cost efficiency
Tensioned membrane architecture offers both the structure and the
roofing shell in one. Depending upon the requirements, shaped
fabrics under tension can span large areas at dramatically reduced
costs compared with conventional roofing systems. They are also
erected more efficiently reducing costs even further.
B. Design Freedom
Being a flexible and highly formable systems, tensile fabric
membranes are able to be formed into breathtakingly spectacular
designs. This allows architect to do things unthinkable with
conventional construction materials. A well designed tensile
structure instantly adds to a buildings aesthetics, giving it
notoriety whilst improving its functionality.
C. Noise pollution
Fabric roofing structures provide not only the benefit of reducing
climatic noise from rain, hail and wind, but also the curved
construction diffuses both internal and external sounds, whilst
absorbing them at the same time. This dramatically improves noise
D. Lower energy costs
Tensioned fabric structures have high sun reflecting properties and
low absorbency of sunlight. This greatly reduces the solar energy
and heat that enters the structure, whilst still maintaining
constant internal temperatures. Translucent materials provide a
comfortable and natural light source, removing the need for
artificial lighting during the daytime reducing energy cost even
E. Increased branding
Adding corporate identity to the fabric membrane provides a perfect
opportunity to improve notability and visual marketing of your
company or promotional brand. Illuminated correctly, they also
enhance your branding at night and enforce your market positioning.
Tensioned fabric architecture offers the ability to exploit
underutilised space whilst increasing marketing presence at the
F. Semi-permanent nature
Tension membrane structures ‘historically’ have been closely tied
to major events such as exhibitions, where shelters are needed for
short periods of time. Tension Fabric structures can be easily
designed for rapid relocation and re-erection; making them perfect
for high impact event structures. Not only does this help with
practicality it also helps with planning permission for fixed term
structures as they are classed by most authorities as
There are many more benefits which tension membrane structures
provide. Contact us directly to discover more reasons as to why you
should be looking at tensile fabric architecture.
Creating a tensile fabric structures which combine style, form,
functionality, practicality, durability and cost efficiency is
never easy; however, these are the challenges our designers and
architects have been excelling at for over 15-years. Utilising the
latest fabric technology and protective coating systems, we provide
structures which not only look beautiful, but structures which
complement their surroundings for years to come.
Working with your main contracted architect firm or independently,
our in-house architects are able to create stunning modern
architecture design concepts to enhance any building or landscape
With a broad spectrum of architectural materials, both in fabric
and framing system at our disposal, we are able to help our clients
fulfill their design aspirations.
|Technical||Technical Date||Executive Standard|
|Base Fabric||High Strength Low Yarn polyester Yarn||DIN EN 60001|
|Yarn count(yarn/cn)||1100dtex||DIN ISO 2060|
|Weave Style||12/12/yarn/cm||DIN EN 1049-2|
|Weight of Base Fabric (G/SQM)||Dyeing Cloth|
|Total Weight (G/SQM)||1000G/SQM|
|Tensile Stregth(N/5cm)||4400/4200N/5cm||DIN EN 1421|
|Tear Strength(N)||600/550N||DIN 53363|
|Threshold Temperature||(-30)℃---(+70)℃||DIN EN1876-1|
|Acoustical Weakening Index||15dBA|
|Surface Treatment||Double layer PVC ,clean by itsself|
|Flame Retardancy||DIN 4102B1 GB8624 B1|
Core skills and management procedures ensure our re-make rate is
exceptionally low and our highly skilled workforce enable us to get
the job right first time, on time, every time. Renowned problem
solving abilities also mean that complications are quickly
resolved, designs are improved and processes optimised.
An expansive, immaculately clean 2,000m2 production space and
state-of-the-art machinery allows us to handle the entire
manufacturing process for you, from fabric purchase through to
delivery of the finished product to site.
Extensive supplier relationships means we can offer the full range
of fabrics and materials sourced from across the globe - including
PVC, PTFE, PE, mesh and sustainable options such as silicone-glass
and recyclable PU. In short there is nothing we can’t handle.
1. Cost-effective: About 1/3 to 1/2 lower than conventional
structures on costs;
2. Short Construction time: Half time is saved compared to the
3.Various Shape: Changeful supporting structure can make lots of
different shapes of membrane structure with flexible membrane.
4.Seurity: Membrane Structure can keep the good stability under the
action of horizontal load such as earthquake.
5.Self-Cleaning: The rain getinto water to down on the surface of
membrane and clean itself;
6.Fireproof: Fireproof performance of membrane structure can fill
the requirements of US ,French,Germany ,Japan and other contries;
7.Large Span:The largest span of Tension membrane structures can
exceed to 200m.
This kind of Tension membrane structures can be widely used in
seasonal or permanent structuresfor indoor sports and recreational facilities
as gymnasiums, stadiums, swimming pools,
cafeterias and food courts, exhibition and conventional centers, canopies
and vehicle parkings, etc