Process Capability

CNC Machining Alkali-Free Glass

CNC Machining Alkali-Free Glass: Alkali-Free Glass, CTE 3.2 x 10^-6 /K; +/-0.01 mm positional. No MOQ, prototypes in 5-10 days, DFM review with every RFQ.

CNC Machining Alkali-Free Glass

CNC Machining Alkali-Free Glass – Alkali-Free Glass (CTE 3.2 x 10^-6 /K, 350 nm – 2.0 um); CNC Machining to +/-0.01 mm positional. No minimum order; DFM review included with every RFQ.

Ask any process engineer what makes alkali-free glass difficult and the answer is specific: thin sheets below 0.3 mm demand carrier-supported handling through every step. Our cnc machining line is tooled around exactly that – 4-axis machining centers with diamond tooling and through-spindle coolant – holding +/-0.01 mm positional on parts from 0.5 – 50 mm thick.

Specification envelope

Material Alkali-Free Glass (AF32 / EAGLE-class display glass)
Thermal expansion (CTE) 3.2 x 10^-6 /K
Service temperature 600 C (Tg 717 C)
Transmission range 350 nm – 2.0 um
Density 2.43 g/cm3
Knoop hardness 590 kg/mm2
Refractive index 1.51 @ 587 nm
Stock thickness 0.10 – 1.1 mm
Maximum blank size 400 x 300 mm
Process CNC Machining
Working tolerance +/-0.01 mm positional
Minimum feature 0.4 mm slot width
Surface finish Ra 0.4 um ground, optional polish
Thickness window 0.5 – 50 mm
Edge condition chamfered 0.1 – 0.5 mm as standard
RFQ inputs PDF/DXF/STEP drawing, quantity brackets, surface and edge spec

Manufacturing capability

The core strength of CNC Machining is complex 3D geometry – pockets, steps, counterbores and compound edges in one setup. The honest limit: internal corners carry a minimum radius equal to the smallest practical tool, typically R0.5 mm. Both belong on the drawing before quoting, not after.

One material, many routes: on Alkali-Free Glass we also quote double-side polishing, lapping, grinding, etching, and multi-step drawings are the norm rather than the exception.

Design guidance

Before sending the RFQ, check these against your drawing:

  • Material note: thin sheets below 0.3 mm demand carrier-supported handling through every step.
  • Process boundary: internal corners carry a minimum radius equal to the smallest practical tool, typically R0.5 mm.
  • Over-specification is the quiet budget killer: a 20/10 scratch-dig face costs roughly three times an 80/50 face, so grade each surface individually.

The full rules live in our tolerance design guide and holes and edges design guide.

Typical applications

cnc machining alkali-free glass shows up across oled packaging (cover lids, frit-seal frames, fill-port plates); industrial displays (touch covers, gauge windows, printed bezels); ccd inspection equipment (CCD cover plates, reference grids, stage glass). Background reading on the underlying material science: SCHOTT AF 32 eco.

Dimensions still moving? Configure this part live in the 3D builder below, or open the full custom glass machining 3D builder to start from a blank canvas.

Useful companion pages: alkali-free display glass, alkali-free glass wafers, CNC machining capability.

Buyer questions, answered

What tolerances are achievable on Alkali-Free Glass parts?

Ground features hold +/-0.01 mm and lapped thickness reaches +/-0.003 mm. Thin sheets below 0.3 mm demand carrier-supported handling through every step.

What thickness range do you stock for Alkali-Free Glass?

Standard stock spans 0.10 – 1.1 mm, with blanks up to 400 x 300 mm. Other formats are sourced per order.

How does Alkali-Free Glass behave under heat?

CTE is 3.2 x 10^-6 /K and continuous service reaches 600 C (Tg 717 C), which is what drives its use where no alkali ion migration into TFT or sensor layers matters.

What accuracy does cnc machining hold?

+/-0.01 mm positional with minimum features of 0.4 mm slot width. Internal corners carry a minimum radius equal to the smallest practical tool, typically R0.5 mm.

What equipment runs the cnc machining work?

4-axis machining centers with diamond tooling and through-spindle coolant.

Specifications on this page were last reviewed by our engineering team in July 2026.

Configure in 3D

3D Builder

PRECISION GLASS 3D
3D Precision Glass Configurator Build a visual 3D preview for custom precision glass parts, including wafers, microfluidic chips, coated glass, optical filters, and machined quartz plates. This tool is for visual configuration only. Final dimensions, tolerances, materials, coatings, and manufacturability will be reviewed from your drawing or specification.
3D GLASS PREVIEW Visual Specification

Custom Glass Builder

Interactive visual preview for custom precision glass configuration.

SP SPEC SUMMARY:
Import Code (One-Click Recall)

Save this code before you leave — it is the only way to recall this exact model. If you lose it, your configuration cannot be restored.

SUBMIT RFQ — ENGINEERING REVIEW Your current 3D configuration and specification summary are attached automatically. Attach a drawing if you have one.
Arithmetic verification image

FREQUENTLY ASKED QUESTIONS
What if my part does not match any standard builder?

Use the custom glass builder: choose shape (including ring or drawing-defined), size, thickness, optional holes, coating and edge/surface finish, set a tolerance, preview it in 3D and attach a drawing to the RFQ.

Which materials can the custom builder use?

Fused silica, quartz, JGS1/JGS2, Borofloat 33, alkali-free and borosilicate glass, optical and soda-lime glass, or a named custom material such as sapphire or Zerodur.

Need a different product family? Open the full 3D builder.

Engineering Review

Have a drawing for this process?

Upload it with your RFQ - engineering replies with a DFM note and firm lead time.