精密丝网印刷技术:以200目高密度网版+德国纳米油墨,在玻璃边缘印制0.03mm超细黑边,误差≤0.01mm,完美贴合曲面/直面屏弧度
以200目高密度网版+德国纳米油墨,完美贴合曲面/直面屏弧度
双层防护结构:黑边区域嵌入0.1mm柔性缓冲胶层,跌落时分散冲击力
9H钢化玻璃基材,形成「边缘+中央」双重防爆屏障[
边缘防碎裂,1.5米跌落测试中,丝印钢化膜的边缘碎裂率较普通膜降低68%
植入光学级纳米镀膜,精准拦截415-455nm有害蓝光波段(过滤率≥42%),
同时保留色彩显示完整性,护眼与画质兼得(通过TÜV低蓝光认证)
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Enhanced edge protection against edge breakage: The silk-screened black edge layer can absorb edge impact force, reducing the probability of edge breakage during drops, making it especially suitable for curved screen phones. Anti-curling edge: The black edge material has stronger adsorption and adhesion, reducing the risk of curling edges after film application and extending the service life. Visual optimization: The black border design can cover the tiny gaps between the film and the screen, preventing dust accumulation from affecting the viewing experience, while also creating a visual transition with the phone's frame. Hand feel improvement: The silk-screen printing process can achieve 2.5D or 3D arc edge treatment, with smooth edges that do not cut the hand, providing a more fluid touch experience
Blue light is high-energy short-wave blue light with a wavelength of around 435-440 nanometers in visible light. It mainly comes from sunlight, electronic screens (such as mobile phones and computers), and LED lamps. At present, the scientific community generally believes that prolonged exposure to high-energy blue light may cause damage to retinal cells and may interfere with the body's circadian rhythm. Short-term effects may lead to visual fatigue and dry eyes, while long-term excessive high-energy blue light may accelerate oxidative damage in the macular area of the retina
Intelligent spectral filtering - Specifically targeting the directional blocking of high-energy short-wave blue light at 415-455nm, it retains beneficial light, ensuring the screen colors remain vivid. The transparency rate is 95% - with a light transmittance close to that of a bare screen. When watching TV series, playing games, or editing photos, details are not compromised, and the visual experience is not compromised
采用先进的AR(抗反射)技术,它通过在钢化膜表面镀上多层高低折射率材料,精妙调控光线传播路径。当光线照射,膜表面与内部反射光相互干涉抵消,大幅削弱反射光强度。普通钢化膜在强光下反射率可达 10% 甚至更高,而 AR 磨砂钢化膜能将反射率降低至 1% - 3% ,反光问题迎刃而解
透光率超过95%,将屏幕亮度提升到新的高度。超薄0.2mm玻璃基板,确保透光率≥95%,提供逼真的彩色显示,无任何色彩失真。增强了AR(抗反射)技术,即使在强光条件下,每个细节都保持清晰,提供升级的视觉体验。
一秒钟应用-静电粘附自动释放空气,双重保护-30°隐私视角+9H耐刮耐磨。 完全兼容-支持Face ID,与曲面屏幕兼容(如果需要,选择3D热弯曲版本)。注意事项:轻微影响亮度,建议不灵巧者使用。必须使用自动调整
利用高温离子交换技术,在玻璃表面形成致密的硬化层,莫氏硬度达到9H。实验室测试表明,这种玻璃可以承受超过10,000次的钢丝绒摩擦而没有任何划痕。先进的纳米涂层技术填充了玻璃表面极细的孔隙,使其更加光滑,并为钢化玻璃膜的抗刮擦性增加了一层额外的保护。
采用离子回火技术,表面硬度达到莫氏9级(金刚石级)。被钥匙、沙子和石头划伤也不会留下任何痕迹。屏幕仍然像新的一样透明。即使用一个64G的铁球从2米的高度落下,也不会破裂(实验室测试数据)。即使不小心掉落,也能有效保护屏幕不受伤害,给你充分的安全感。回火膜表面覆盖了一层纳米涂层,不仅增强了回火膜的拒油性和拒水性,使屏幕更容易清洁,防止指纹和油渍粘附。同时,纳米涂层还可以增强回火膜的韧性,进一步提高其防爆性能。
利用高温离子交换技术,在玻璃表面形成致密的硬化层,莫氏硬度达到9H。实验室测试表明,这种玻璃可以承受超过10,000次的钢丝绒摩擦而没有任何划痕。先进的纳米涂层技术填充了玻璃表面极细的孔隙,使其更加光滑,并为钢化玻璃膜的抗刮擦性增加了一层额外的保护。
嵌入式定位设计:精密成型和动态校准:薄膜采用实装模具和动态校准设计。3D激光扫描技术捕捉设备的精确曲率。l型定位框架:该薄膜采用“l型定位框架”,与手机边缘完美匹配。用户只需对准框架,胶片就会自动附着在正确的位置上。高附着力全粘接层(粘接>1500g/25mm):动态排风通道:粘接层含有蜂窝状微孔结构。当使用薄膜时,用手指轻轻推动,引导气泡到边缘,让粘合剂填充屏幕上任何微小的不规则处。无气泡效果:使用后,没有气泡留下,确保无缝贴合。
回火膜厚度多为0.2-0.3mm(主流),部分高端机型可达0.15mm。触摸延迟几乎可以忽略不计(< 5ms)。优质AF层(如纳米级二氧化硅涂层)可降低摩擦系数(滑动阻力< 5g),使手指滑动更平滑,减少指纹残留。防静电涂层减少灰尘附着在屏幕上。间接增强了灵敏度,触摸平滑度与裸屏一致
