光学玻璃是光电技能产业的根底和主要组成部分,光学玻璃透镜模压成型技能是一种高精度光学元件加工技能,它是把软化的玻璃放入高精度的模具中,在加温加压和无氧的条件下,一次性直接要求的光学零件。这个技术以及成了国际上最领先的光学零件制作技术之一。那光学玻璃制造光学零件的时候有哪些优点呢?
光学玻璃模压成型法制造光学零件有如下优点:
1、不需要传统的粗磨、精磨、抛光、磨边定基地等工序,就能使零件到达较高的尺度精度、面形精度和外表粗糙度;
2、光学零件和装置基准件能够制成一个全体;
3、能够模压小型非球面透镜阵列;
4、可很简单经济地实现精密非球面光学零件的批量生产;
5、只要精确地操控模压成型过程中的温度和压力等技术参数,就能确保模压成型光学零件的尺度精度和重复精度。
Advantages of Optical Glass Crystal Processing
Optical glass is the foundation and a key component of the optoelectronics industry. Optical glass lens precision molding is a high-accuracy manufacturing process for optical components. The process involves placing softened glass into a high-precision mold and shaping it under heat, pressure, and oxygen-free conditions to produce the desired optical component in a single step.
This technology has become one of the most advanced methods for manufacturing optical components worldwide.
Advantages of Optical Glass Precision Molding
1. Elimination of Traditional Processes:
High dimensional accuracy, surface precision, and surface roughness can be achieved without the need for traditional processes such as rough grinding, fine grinding, polishing, and edge grinding for base alignment.
2. Integration of Components:
Optical components and reference base parts can be manufactured as a single unit.
3. Production of Miniature Aspheric Lens Arrays:
Small aspheric lens arrays can be molded directly.
4. Economical Mass Production of Precision Aspheric Components:
Precision aspheric optical components can be mass-produced easily and cost-effectively.
5. High Dimensional and Reproducible Accuracy:
By precisely controlling parameters such as temperature and pressure during the molding process, dimensional accuracy and repeatability of the molded optical components can be ensured.
