Chemical etching stainless steel encoder disk for optical encoder
sensor
Encoder specification:
| Machining Type | photo chemical etching stainless steel precision optical encoder
disk |
| Material Capabilities | Brass, Bronze, Copper, Hardened Metals, Precious Metals, Stainless
Steel, Aluminum, Alloy (Thickness from 0.03 mm up to 1 mm) |
| Product Dimension | 220*280 mm |
| Product precision | 0.01 |
| Smallest open hole | D= 0.1mm when Thickness range from 0.03mm to 0.05mm
1.5*Thickness |
| Centre to Centre for holes | 1.5*Thickness |
| Surface treatment | Surface treatment |
Photo Etching is flexible, highly accurate and effective at any
volume. The photo etching process is known by many names, including
chemical etching, acid etching and photo chemical machining (PCM).
Metal Selection
Xinhaisen offer a huge range of metals for etching including:
Stainless Steels, Carbon Spring Steels, Copper, Brass, Nickel
Silver, Mild steel, Phosphor Bronze, Silver, Beryllium Copper,
Aluminium, Nickel, Mu Metal, Alloy 42, Alloy 52 & Many Others.
Benefits of Photo Etching
- Precise Tooling
The photo-tool artwork for photo chemical etching is free of charge
here at xinhaisen, as we like to invest in our customers future. - Risk-Free Design
With the ability to produce rapid prototypes with short lead times,
the complexity of your design is often not an issue. We will
manufacture to your required drawings and to your exacting
standards. - Right First Time
The chemical etching process does not use mechanical force or heat,
which means that the metals properties remain unchanged. The temper
of material is also not altered and parts are completely burr-free
and stress-free. - No Finishing Required
Our metal etching process leaves no rough edges or burrs, therefore
no additional deburring process is often required. - A variety of Thicknesses
A huge variety of different material types and thicknesses can be
photo etched, ranging from 0.0127mm through to 1.60mm thick. - Tolerances From ±0.025mm
As your components features are all etched simultaneously, the
complexity achievable can be impressive with profile tolerances
achievable from ±0.025mm.
