I. Material Selection
Agricultural Greenhouse materials must be able to withstand various loads inside and outside the greenhouse, including wind loads, snow loads, and crop loads.

The strength and stability of the materials must meet the structural requirements of the greenhouse, ensuring its safety and stability under natural conditions such as wind and rain.
Agricultural Greenhouse materials need to have good corrosion resistance to resist erosion from harsh environments such as humidity and salinity.
Common corrosion-resistant materials include aluminum alloys, hot-dip galvanized steel pipes, and stainless steel.
The construction cost of the Vegetables Greenhouse should be controlled within a reasonable range to improve the economic efficiency of the greenhouse.
While aluminum alloy frames are aesthetically pleasing and strong, they are relatively expensive; hot-dip galvanized steel pipe frames are less expensive and have good corrosion resistance; stainless steel frames are suitable for applications requiring high corrosion resistance.
II. Agricultural Greenhouse Structural Design
The span and height of the greenhouse should be determined based on the crop's growth needs and operating space.
A reasonable span ensures uniform light distribution inside the greenhouse, while the height affects ventilation and ease of operation.
When designing the structure of an greenhouse Agricultural Greenhouse, it is necessary to calculate the loads it will bear, including dead loads such as the frame and covering materials and live loads such as wind loads and snow loads.
Load calculation is a crucial step in ensuring the structural safety and stability of the greenhouse.
The connection nodes of the Vegetables Greenhouse must be designed reasonably to ensure secure connections and ease of installation.
The connection nodes should employ reliable and safe connection methods and undergo necessary inspections and tests.
