Overview of Sapphire Capillary Tubes

Sapphire Capillary Tubes are precision-engineered hollow microtubes fabricated from synthetic single-crystal sapphire (Al₂O₃). This advanced material is recognized for its exceptional hardness, optical clarity, and resistance to aggressive chemicals. The combination of mechanical robustness and high tolerance to sudden temperature changes makes sapphire tubes an ideal solution for challenging scientific and industrial uses.

Unlike glass or ceramic alternatives, sapphire maintains dimensional accuracy and durability even when exposed to temperatures beyond 1700 °C and highly corrosive atmospheres. These properties allow sapphire capillaries to excel in analytical chemistry instruments, high-temperature furnace systems, and vacuum environments.

Typical applications range from chromatography and blood analysis to fiber optic shielding and sensor protection. The meticulously polished internal surface ensures smooth fluid transport with minimal friction, reducing contamination risks and enabling reliable laboratory performance.

Advantages and Key Properties

• Thermal Stability: Withstands extreme heat without distortion or cracking.

• Chemical Inertness: Maintains integrity when exposed to acids, bases, and solvents.

• Optical Transmission: Transparent from UV through IR wavelengths.

• Mechanical Strength: Resists scratching and abrasion better than quartz or ceramics.

• Biocompatibility: Safe for pharmaceutical, diagnostic, and biomedical applications.

Manufacturing Approaches

Sapphire capillary tubes are produced using specialized crystal growth and machining techniques:

1. Kyropoulos (KY) Method

   • Produces bulk sapphire boules with high optical uniformity.

   • Tubes are formed through cutting, ultrasonic/laser drilling, and precision polishing.

   • Best suited for applications requiring optical-grade finish and tight dimensional control.

2. Edge-defined Film-fed Growth (EFG) Method

   • Directly grows sapphire into hollow tubular shapes using a shaped die.

   • Enables long, uniform tubes with reduced machining.

   • Preferred for industrial-scale production where cost and throughput are important.

3. Post-Processing

   • Grinding, bore polishing, and ultrasonic cleaning ensure final quality.

   • KY tubes often serve in optics and medical systems, while EFG tubes are common in thermal or structural uses.

Typical Parameters

Application Areas

1. Life Sciences & Medicine

   • Microfluidics, diagnostic analyzers, and DNA testing systems.

   • Biocompatible, ensuring safe transport of blood, serum, and reagents.

2. Optical & Laser Systems

   • Protects fiber optics, guides laser beams, and supports spectroscopic tools.

   • Transparent from UV to IR, enabling precise optical performance.

3. Semiconductor Processing

   • Used in plasma etching, gas handling, and deposition systems.

   • Dimensionally stable under thermal cycling and chemically inert.

4. Analytical & Chemical Instrumentation

   • HPLC, GC, and spectroscopy sample lines.

   • Smooth bore prevents adsorption and contamination in trace analysis.

5. Aerospace & Defense

   • Provides robust channels for fluids, optics, and sensors.

   • Built to endure vibration, high altitude, and harsh thermal shifts.

FAQ

Q1. What are Sapphire Capillary Tubes made from?
A: Synthetic single-crystal aluminum oxide (Al₂O₃), renowned for its hardness, thermal endurance, and optical transparency.

Q2. What dimensions are available?
A: Standard IDs range from 0.1 mm to 3 mm, ODs from 0.5 mm to 10 mm or larger. Customized options are available.

Q3. Why choose sapphire instead of glass or quartz?
A: Sapphire offers greater hardness, superior chemical resistance, high thermal endurance, and extended service life.

Q4. Are they suitable for biomedical applications?
A: Yes, the non-reactive and biocompatible nature of sapphire makes it suitable for medical devices and diagnostic tools.

Q5. Can they be customized?
A: Yes, options include diameter, length, end-shape (tapered, flared), and surface finish (polished or ground).

Related Products

Sapphire tube EFG double side polish for Laser and Optical Systems

High Purity Sapphire Tube With Extreme Heat Resistance 99 995% Length 1-1500mm EFG Technology

About Us

ZMSH specializes in high-tech development, production, and sales of special optical glass and new crystal materials. Our products serve optical electronics, consumer electronics, and the military. We offer Sapphire optical components, mobile phone lens covers, Ceramics, LT, Silicon Carbide SIC, Quartz, and semiconductor crystal wafers. With skilled expertise and cutting-edge equipment, we excel in non-standard product processing, aiming to be a leading optoelectronic materials high-tech enterprise.