Nuestras tecnologías fundamentales
About
Our Facility
We have expanded to a 20000 sqm manufacturing facility in 2010. This expansion was to execute a fully integrated operation that ensures maximum efficiency and minimum waste & energy consumption.
Plus, our factory is powered by clean, sustainable solar power as we take corporate social responsibility and environmental protection seriously.
Our synthetic thatched roof and synthetic bamboo products are:
The most appropriate manufacturing process for the production of JHYBAMBOO synthetic products depends on many different factors, including materials, components, customer geographic conditions, project requirements, geometry, required tolerances, and the quantity to be produced. It is also important to consider the requirements for design flexibility, as tools for some processes, such as extrusion and injection molding, can be expensive and the cost of design changes can be high.
Molding and extrusion processes
Extrusion involves squeezing plastic through a mold to make continuous lengths of sheet, bar, tube or custom profile. Injection molding involves squeezing plastic into a mold and then removing the molded parts after cooling. JHY's basic equipment is the leading plastic extruder and injection molding machine, so we can mold or extrude the synthetic thatch roof or synthetic bamboo to the customer's needs.
Manufacturing and assembly
Synthetic thatch roof components can be assembled in a number of different ways, including adhesive bonding, solvent welding, hot gas welding and joining by mechanical fasteners. We have extensive experience in many different types of thatched roof assembly components.
thermoforming
Thermoforming involves using heat to soften thermoplastic sheets and then reforming them into finished parts. There are many types of thermoforming, including bending plastic sheets on strip heaters and forming complex parts by vacuum forming. Tooling costs for thermoformed parts tend to be lower because thermoformed tools typically do not have to operate under the high temperatures and pressures associated with injection molding.
