High-Precision Fabrication: From 0.21mm Substrates to Finished R-Angle Lenses
Processing ultra-thin glass requires a delicate balance of speed and stability.
At YOUJIA OPTICAL, we utilize advanced laser technology to transform pristine 0.21mm Schott D263T® substrates into high-precision optical components.
Video 1 (The Process): Precision R-Angle Cutting
Caption: Watch our high-precision laser profiling 0.21mm ultra-thin D263T glass. We achieve smooth R-angles (rounded corners) with zero edge chipping, preserving the mechanical strength of the glass.
Video 2 (The Substrate): 0.21mm Thickness Validation
Caption: A close-up look at our 0.21mm Schott D263T eco thin glass substrate before processing. This high-purity material is the ideal foundation for biosensors and mobile electronics.
At YOUJIA OPTICAL, we specialize in the high-precision processing of ultra-thin glass substrates. Our advanced laser profiling technology allows us to handle delicate materials like Schott D263T® eco with unmatched accuracy, delivering chip-free edges and complex geometries for the most demanding optical applications.
| Feature | Capabilities |
| Primary Material | Schott D263T® eco / Borosilicate Glass |
| Thickness Range | 0.1mm, 0.145mm, 0.175mm, 0.21mm up to 1.1mm |
| Processing Method | High-Precision Laser Cutting / CNC Profiling |
| Edge Geometry | Custom R-Angles (Rounded Corners), Circles, Step Cuts |
| Dimensional Tolerance | Down to +/- 0.05mm (customizable to tighter specs) |
| Surface Quality | Pristine, as-drawn surface (Fire-polished) |
(Why Choose Us)
- Mastery of Thinness: Handling 0.21mm glass requires specialized vacuum chucks and tension control. We ensure high yield rates even for the most fragile prototypes.
- R-Angle Precision: Many applications in mobile and medical devices require smooth rounded corners to fit compact housings. Our laser path optimization ensures perfect R-angles every time.
- No Tooling Costs: Our laser-driven workflow means no expensive molds are required, making rapid prototyping (5-7 days) cost-effective.
- Applications: Ideal for Biosensors, Microfluidic Chips, CMOS/CCD Cover Glass, and Touch Panel substrates.