English
In industrial production, laboratory operation and logistics handling, test weight gloves are important protective tools to ensure the safety of workers' hands. However, during use, the surface of these gloves sometimes shows wear, cracks or deformation, which not only affects the protective performance of the gloves, but also may pose a threat to the safety of workers. This paper aims to explore the reasons for these phenomena on the surface of test weight gloves accessories in order to provide a theoretical basis for the improvement and maintenance of gloves.
The material selection of test weight gloves is one of the key factors affecting their surface state. Different materials have different wear resistance, aging resistance and tensile resistance. If the material of the gloves itself has poor wear resistance or insufficient aging resistance, it is easy to wear and crack during use. In addition, the tensile resistance of the material will also affect the deformation of the gloves. If the material's tensile resistance is not strong, the gloves are prone to deformation when subjected to external forces.
The manufacturing process is another important factor affecting the surface state of test weight gloves. During the production of gloves, if there are defects in the manufacturing process, such as loose sewing and uneven material splicing, it is easy to cause the gloves to wear, crack or deform during use. In addition, if the gloves are not vulcanized or cured properly, it will also affect the flatness and durability of the surface.
The use environment has a direct impact on the surface state of test weight gloves. First, factors such as temperature, humidity and chemicals in the working environment may have an adverse effect on the material of the gloves, causing wear, cracks or deformation on the surface of the gloves. For example, high temperature environment will accelerate the aging of the glove material, while humid environment is prone to mildew on the surface of the gloves. Secondly, factors such as the shape, size, weight and surface roughness of objects in the working environment will also affect the wear of the gloves. If the surface of the work object is rough or has sharp edges, it is easy to cause wear and damage on the surface of the gloves.
The way of use is also one of the important factors affecting the surface state of test weight gloves. First, if the staff does not operate properly when wearing the gloves, such as excessive force or frequent pulling of the gloves, it is easy to cause wear and cracks on the surface of the gloves. Secondly, if the staff does not use the gloves correctly when carrying heavy objects, such as using the gloves as a support point or dragging the objects with force, the gloves will also be subjected to additional pressure and friction, resulting in surface wear and deformation. In addition, if the staff wear the gloves for a long time without changing or resting, the material of the gloves will also fatigue and age, resulting in wear and cracks.
Improper maintenance is also one of the reasons for wear, cracks or deformation on the surface of test weight gloves. If the staff does not clean and maintain the gloves in time after using them, it is easy to cause dirt and chemicals to remain on the surface of the gloves, thereby accelerating the aging and wear of the gloves. In addition, if the gloves are not placed in a dry and ventilated place when stored, or rub and squeeze with other objects, it will also cause wear and deformation on the surface of the gloves.
There are many reasons for the wear, cracks or deformation on the surface of the test weight gloves accessories, including material factors, manufacturing process factors, use environment factors, use methods factors and improper maintenance factors. In order to extend the service life of the gloves and maintain their good protective performance, we need to start with improvements and maintenance from multiple aspects. For example, choose materials with better wear resistance, aging resistance and stretch resistance; optimize the manufacturing process to improve the durability and stability of gloves; improve the working environment to reduce adverse effects on gloves; use gloves correctly to reduce additional pressure and friction; and regularly clean and maintain them to extend the service life of gloves.
