Acrylic electronic atomizer display stands serve a core function in retail outlets, serving as a showcase for brands and product displays. Their surface scratch resistance is directly impacted by the product's lifespan and visual appeal. Given the unique characteristics of acrylic, scratch resistance requires a systematic solution encompassing four key dimensions: material selection, surface treatment, structural design, and ongoing maintenance.
Material selection is the foundation of this process. High-quality acrylic sheets are produced through a casting process, which results in a tighter molecular structure and a surface hardness approaching that of aluminum, significantly surpassing the scratch resistance of extruded sheets. Some high-end acrylic electronic atomizer display stands utilize imported raw materials, which have a higher heat deflection temperature. This reduces the risk of internal stress caused by thermal expansion and contraction in the highly variable temperature environment of retail stores, thereby minimizing the risk of surface cracking. Material thickness is also crucial. When supporting multiple atomizers, the sheet must be thick enough to withstand long-term loads without deformation, preventing scratches caused by contact friction due to sheet bending.
Surface hardening is a key technology for enhancing scratch resistance. A nano-scale silica coating is applied to the acrylic surface through a vacuum coating process, increasing its surface hardness from a pencil hardness of 2H to over 6H. Some manufacturers use a double-layer coating technique: a bottom layer of elastic cushioning absorbs minor impacts, and a top layer of hard, wear-resistant coating that directly protects against scratches from hard objects such as keys and coins. Another process involves dipping the entire acrylic electronic atomizer display stand into a solution containing silicone. A chemical reaction forms a dense protective film on the surface. This treatment can cover even details like edges and corners, providing comprehensive protection.
Optimized structural design reduces the risk of scratches. The acrylic electronic atomizer display stand features rounded edges to prevent chipping caused by impacts with hard objects during transport or cleaning. In a layered design, the edges of each tray are chamfered to prevent friction when placing or removing products. Anti-slip silicone pads are added to the tray surface to secure the atomizer and prevent it from slipping while also preventing direct contact between the product and the acrylic. Some dynamic acrylic electronic atomizer display stands utilize a rotating structure, which uses a bearing system to achieve smooth rotation and reduce the risk of product collisions caused by shaking.
Manufacturing process control directly impacts scratch resistance. Laser cutting requires power adjustment to avoid excessive energy, which can cause charring of the cut surface. This reduces the hardness of the charred area and can easily cause scratches. When using shadowless adhesive for bonding, the UV curing time must be controlled. Too short a time can lead to a weak bond and scratches from product shaking; too long a time can cause the adhesive to ooze out, resulting in bumps on the surface. Heat bending requires precise temperature control. Excessively high temperatures can soften the sheet material in certain areas, resulting in an uneven surface and reduced scratch resistance.
Standardized procedures should be established for daily maintenance. Avoid using hard tools such as steel wool for cleaning. Instead, use a microfiber cloth and a neutral detergent to avoid alkaline detergents that can corrode the surface coating. For greasy stains, cover with plastic wrap. First, spray with detergent to soften the stain, then cover with plastic wrap and let it sit. Finally, wipe it to prevent scratches caused by repeated friction. For long-term display, it is recommended to polish the acrylic electronic atomizer display stand quarterly. Use a polishing paste containing abrasive particles to mechanically remove minor scratches and restore the surface gloss.
Transport protection requires customized packaging. The main body of the acrylic electronic atomizer display stand should be wrapped with EPE pearl cotton, with particular attention paid to protecting the edges and corners. Multi-layer acrylic electronic atomizer display stands should be packaged separately to avoid stacking and concentrated pressure. Transport vehicles should be equipped with anti-vibration devices to reduce the impact of bumps on the acrylic electronic atomizer display stand. Some manufacturers offer reusable plastic containers with slots inside to secure the acrylic electronic atomizer display stand and prevent collisions during transportation.
Anti-scratch treatments should be implemented throughout the entire life cycle of the acrylic electronic atomizer display stand. Technical control at every stage, from material selection to routine maintenance, directly impacts the final result. As consumers demand more quality in product displays, the anti-scratch treatment of acrylic electronic atomizer display stands has evolved from a basic function to an important vehicle for conveying brand value, achieving a balance between functionality and aesthetics through refined craftsmanship.
