Can the empty aluminum lipstick tube meet the diverse customization needs?

Although the empty aluminum lipstick tube is made of aluminum as the core material, the product system covers plastic and paper options. For aluminum materials, customers can further customize the alloy composition, tube wall thickness and surface characteristics to achieve deep customization from basic materials to functional characteristics.

Square and round tubes are not isolated options, but can be integrated with styles through fine-tuning designs such as chamfers and curved surfaces. For example, the R-angle treatment on the edge of the square tube can weaken the angularity, and the three-dimensional relief pattern on the round tube can enhance the grip touch, meeting the diverse needs from minimalist style to retro aesthetics. This design can not only retain the recognition of the basic shape, but also fit the brand tone through detailed adjustments.

The diameter and height of the tube can be flexibly adjusted according to customer needs to ensure seamless matching with lipstick pastes of different specifications. The inner diameter size can also be combined with the paste mold data provided by the customer to achieve zero tolerance assembly through precision machining to eliminate shaking or jamming problems. Whether it is a standard lipstick or a thin tube lip glaze, the user experience can be optimized through customized size.

The snap-on design achieves graded control of the opening and closing force through spring tension adjustment, the magnetic type uses high-strength magnets to ensure stable adsorption, and the button type provides both hidden and decorative versions, taking into account practicality and aesthetic expression. Different closing methods can be adapted to different usage scenarios. For example, the magnetic design is suitable for high-end products that pursue a sense of ritual, while the snap-on design focuses more on portability.

Through the innovation of the internal structure of the tube body, modules such as hidden makeup mirrors, replaceable liner or temperature-sensitive color-changing coating can be integrated, and even NFC chip implantation can be supported to achieve anti-counterfeiting traceability or interactive marketing functions. These extended functions not only enhance the added value of the product, but also establish a deeper connection between the brand and consumers.

Oxidation provides hard anodizing and natural color oxidation, the color gamut covers the basic color and supports gradient effects, retaining the metal texture of aluminum while enhancing wear resistance. In addition to conventional plating, electroplating can develop special plating such as antique copper and rose gold, and achieve patterned metal texture through partial shielding electroplating. Spray painting uses environmentally friendly paint to achieve a variety of paint effects such as matte, frosted, and metallic glitter. The color fastness and adhesion have passed industry standard tests. Laser engraving supports high-precision engraving, which can reproduce miniature brand LOGO, floral patterns and even customer handwritten signatures, and the engraving depth and clarity can be finely controlled.

Silk screen printing uses high-elastic ink to achieve fine line printing and gradient transitions. The color fastness passes international standard tests to ensure that the pattern is long-lasting and clear. Secondary oxidation forms a difference in oxide film thickness through laser pretreatment to achieve a multi-color contrast effect on monochrome aluminum, and the resolution far exceeds that of traditional printing processes. Hot stamping uses ultra-thin electrochemical aluminum foil to support a variety of foil options, with high hot stamping accuracy and no burrs on the edges, enhancing the luxury of the brand logo. Thermal transfer uses environmentally friendly thermal sublimation ink to reproduce photo-level full-color patterns, with strong adhesion and high color reproduction, suitable for complex pattern customization.