2024-08-15
1. Structural stability:
The welding points must be firm and able to withstand high-intensity use and external impacts to ensure that the table does not deform or have loose structures under various working conditions.
The overall frame design of the table should be reasonable and have good mechanical properties to ensure the stability of long-term use.
2. Precision and dimensional accuracy:
The dimensions and shapes of each component must precisely conform to the design requirements with minimal error ranges to meet specific assembly and usage needs.
The flatness and levelness of the tabletop should reach a very high standard, without obvious concavities, convexities or tilts.
3. Material quality:
The steel or other metal materials used should have high strength, wear resistance, corrosion resistance and other properties.
The chemical composition and mechanical properties of the materials must comply with military standards and specifications.
4. Welding quality:
The weld seams should be uniform and smooth, without pores, slag inclusions, cracks and other defects.
The welding strength must undergo strict testing and verification to ensure compliance with relevant standards.
5. Surface treatment:
The surface should undergo rust prevention and anti-corrosion treatment, with a uniform and firm coating that can withstand harsh environments.
The surface should not have burrs, sharp edges or other defects that may cause harm to personnel.
6. Safety:
The design and manufacture of the table should comply with safety standards to avoid causing harm to personnel during use.
For example, the corners should be rounded to prevent bumps.
For instance, welded tables used on warships need to remain stable under turbulent sea conditions, and the strength of the welding points and the structural design need to undergo strict simulation tests; while in some military laboratories, the precision requirements for the tables may be extremely high to ensure the accurate placement and operation of experimental equipment.