Excellent quality Filament Wound Carbon Fiber - Horizontal filament winding – Huabin
Excellent quality Filament Wound Carbon Fiber - Horizontal filament winding – Huabin Detail:
Product Profile
Horizontal filament winding machine means that the structure design is horizontal. It is suitable from lab scale to continuous mass production scale. This structure design is easy to shipping, installation and disassembles. This type of machine has following performance:
■ 2 axis or 4 axis motion
■ Mandrel shape: cylindrical or cone type or pipe type
■ Winding angle: 0°- 90°or 55°- 89°
■ Tension controller can be installed together with the machine
■ Creel installing mode: fixed independently or move horizontally synchronously with the winding car
■ High automatic and computer control
Product Application
This type filament winding machine is used to produce various composite products (FRP/GRP/GRE/GRVE products) that widely used in military field, aerospace field, electronic insulation field, liquid transport field and so on.
Above underground drainage pipeline
Marine pipeline
High low pressure pipeline for oil field
FRP fitting
FRP pole
Product detail pictures:
Related Product Guide:
Adhering for the theory of "quality, services, performance and growth", we have received trusts and praises from domestic and worldwide shopper for Excellent quality Filament Wound Carbon Fiber - Horizontal filament winding – Huabin, The product will supply to all over the world, such as: Las Vegas, luzern, Czech republic, Ensuring high product quality by choosing the best suppliers, now we have also implemented complete quality control processes throughout our sourcing procedures. Meanwhile, our access to a large range of factories, coupled with our excellent management, also ensures that we can quickly fill your requirements at the best prices, regardless the order size.
By Carlos from Greece - 2017.11.01 17:04
It is a very good, very rare business partners, looking forward to the next more perfect cooperation!
By Pag from Israel - 2017.08.18 11:04