Be-Win durable acrylic blocks are transparent or colored solid materials made from polymethyl methacrylate (PMMA, commonly known as organic glass) through a precision polymerization process. It not only has a high light transmittance of more than 92% (close to the clarity of optical glass), but also has good weather resistance, impact resistance and excellent plasticity. At the same time, acrylic cubes’ weight is only half of that of ordinary glass, combining safety and aesthetics.
Compared with traditional glass, Be-win acrylic blocks are not easy to break, acid and alkali corrosion resistant, and can be made into frosted, fluorescent, gradient color and other effects by adding masterbatch or surface treatment process to meet the decoration and functional requirements of different scenes. In addition, Be-win acrylic round blocks are easy to cut, engrave, hot bend and polish, which makes them very advantageous in customized applications and become a suitable material choice for modern design, industrial manufacturing and creative fields.
Thickness: 3mm, 5mm, 10mm, 20mm, etc. (customizable)
Size: square, round, special-shaped cutting
Surface treatment: high gloss, matte, texture engraving
Display – acrylic display stand, jewelry stand, product stand
Decoration design – art sculpture, lighting, home decoration block
Industrial application – instrument panel, dust cover, laboratory equipment
DIY handicraft – model making, creative assembly, customized gifts
Be-win acrylic blocks processing technology mainly includes: cutting process, molding process, surface treatment, connection process, and secondary processing. These five process links constitute a complete acrylic processing technology chain. Each link contains a variety of professional processing methods, which can be flexibly combined and applied according to acrylic squares design requirements to achieve full-process manufacturing needs from basic processing to high-end customization. Process selection needs to comprehensively consider multiple factors such as material properties, processing accuracy, and production efficiency.
