In the realm of international trade, artificial plants have gained significant popularity, especially in coastal areas where natural plants may struggle to survive due to high – wind conditions. As a professional exporter of artificial plant products, Yiwu Huobanxiang Technology Co., Ltd. with our official independent website at https://lusharay.com/, is dedicated to providing high – quality artificial trees suitable for coastal areas. This article will guide you on how to pick high – wind – resistant artificial trees for OEM purposes, with a focus on the core keyword “Artificial plant”.
Artificial plants are an ideal solution for coastal regions. They offer the beauty of natural foliage without the need for constant maintenance. When it comes to high – wind – resistant artificial trees, there are several factors to consider. First, the material of the artificial plant is crucial. Most high – quality artificial trees are made of polyethylene (PE) or polyvinyl chloride (PVC). PE artificial plants are known for their durability and flexibility. They can withstand strong winds without breaking easily. The thickness of the PE material usually ranges from 0.2mm to 0.5mm for leaves, and for branches, it can be around 2mm to 5mm in diameter. PVC artificial plants, on the other hand, are more rigid and have good UV resistance. The density of PVC used in high – wind – resistant trees is typically around 1.3 – 1.4 g/cm³.
Another important aspect is the structure of the artificial tree. A well – designed structure can enhance the wind resistance of the plant. The trunk of the artificial tree should be sturdy. For large – sized artificial trees, the diameter of the trunk can be 10cm to 30cm, and it is often made of a combination of metal rods and plastic coatings. The branches should be evenly distributed and connected firmly to the trunk. The angle between branches and the trunk is usually around 45 – 60 degrees, which helps to reduce wind resistance.
Root system simulation also plays a vital role. In real plants, the root system provides stability. For artificial trees, a well – designed base can act as a substitute. There are two common types of bases: weighted bases and ground – fixing bases. Weighted bases are filled with sand or concrete, and their weight can range from 50kg to 200kg depending on the size of the tree. Ground – fixing bases are used when the artificial tree is installed on the ground. They are usually made of metal and can be anchored firmly into the ground.
When it comes to the foliage of the artificial plant, the arrangement is important. The leaves should be arranged in a way that allows wind to pass through easily. A loose and natural – looking arrangement can reduce wind drag. The number of leaves per square meter of the artificial tree canopy can vary from 50 to 150, depending on the type of tree.
In terms of size, the height of high – wind – resistant artificial trees for coastal areas can range from 2 meters to 10 meters. Smaller trees are more suitable for areas with relatively less wind, while larger trees can be used in open coastal spaces. The width of the tree canopy is also related to wind resistance. A narrower canopy can reduce the impact of wind. For example, a 5 – meter – high artificial tree may have a canopy width of 2 – 3 meters.
When choosing an OEM partner for high – wind – resistant artificial trees, you need to consider their production capacity and quality control. A reliable OEM partner should be able to produce a large number of artificial trees within a reasonable time frame. They should also have strict quality control measures in place. For example, they should test the wind resistance of the artificial trees in a wind tunnel, with wind speeds ranging from 30m/s to 60m/s.
In conclusion, picking high – wind – resistant artificial trees for coastal areas OEM requires a comprehensive understanding of the product’s material, structure, foliage, size, and the capabilities of the OEM partner. By considering these factors, you can select the most suitable artificial plants for your coastal projects.