The load-bearing capacity of corner codes varies depending on factors such as material, manufacturing process and size, and is usually between 500 and 3000 kg. The following is a detailed explanation of the load-bearing capacity of diagonal codes:
First, bearing capacity range
Aluminum alloy corner code, plastic corner code, stainless steel corner code and other different types of corner code, due to their physical characteristics, the bearing capacity is different. Generally speaking, the load-bearing capacity of metal corner codes is strong, such as stainless steel corner codes and aluminum alloy corner codes, while the load-bearing capacity of plastic corner codes is relatively weak.
Whether the manufacturing process is exquisite or not will also affect the load-bearing capacity of the corner code. The high quality manufacturing process ensures dimensional accuracy and material properties of the corner code, thereby increasing its load-bearing capacity.
The size of the corner code, including the bottom length, height, etc., is also an important factor in determining its load-bearing capacity. Generally speaking, the larger size of the corner code has a stronger load-bearing capacity.
Second, the calculation method of load-bearing capacity
The load-bearing capacity of corner code can be obtained by theoretical calculation. This usually involves collecting basic information such as the material, size, manufacturing process and installation method of the corner code, and then applying mechanical principles to the calculation. Specific formulas may include parameters such as the coefficient of friction, angular mass, Angle, or bending strength of the material. In addition, on the basis of the calculated load-bearing capacity, it is usually necessary to multiply a safety factor (such as 1.5 or higher) to ensure that the middle Angle code has sufficient redundancy in actual use.
Third, experimental test verification
In addition to theoretical calculation, experimental testing method is also an important means to verify the load-bearing capacity of corner code. This usually involves the use of test equipment such as pressure sensors, load meters, etc. to directly measure the load-bearing capacity of the Angle code. The load-bearing capacity of the corner code can be accurately evaluated by simulating the stress of the corner code in the actual application scenario and gradually increasing the load until the failure point is reached.
Fourth, practical application considerations
In addition to its load-bearing capacity, it is also necessary to consider its actual application scenarios and requirements when selecting corner codes. For example, in heavy structures such as building curtain walls, metal corner codes with strong load-bearing capacity should be selected; In light structures such as furniture assembly, plastic corner codes with relatively weak load-bearing capacity can be selected.
To sum up, the load-bearing capacity of corner code is a complex problem that needs to consider several factors. When selecting corner codes, you are advised to consider them based on actual requirements and application scenarios, and select well-known brands and products with guaranteed quality.
