Zerodur

Thermal expansion coefficient as low as 0 ± 0.007 × 10^-6/K

Zerodur glass-ceramic has an ultra-low coefficient of thermal expansion, which allows it to maintain excellent dimensional stability even under temperature fluctuations, with minimal changes in mechanical and thermal properties, making it suitable for a variety of high-precision applications

优势

Supports High-precision machining.
Highly stable against temperature fluctuations.
High material homogeneity, purity, and structural uniformity for consistent performance.
Minimal deformation under load.
Exceptional resistance to chemicals, including acids and bases.
Outstanding vacuum compatibility.
Transparent across a wide wavelength range.
Extremely low thermal expansion coefficient: 0 ± 0.007 × 10⁻⁶/K.
Tolerates high operational temperatures.

应用

激光陀螺仪反射镜、支架和组件
Synchrotron X-ray mirrors
干涉仪、光学工作台和长度测量系统
光谱仪光学元件
Laser interferometers and planar wavefront sensors
Gravitational wave detectors
Optical components for satellites and astronomical telescopes (e.g., Hubble main mirror)
Ultra-precision optics and large telescope mirror substrates
X-ray telescope substrates
Ring laser gyroscope applications
用于空间探测器（如彗星探测器）的光学元件
Flat optics and optical flats
Low-expansion laser optics for space technology
Glass standards for high-precision optical measurement
Mechanical laser resonator parts
光纤元件和支架
Lightweight honeycomb satellite mirror mounts

Zerodur Properties

Mechanical properties

物理特性	ZERODUR®	ZERODUR® K20
Density ρ [g/cm³]	2.53	2.53
泊松比	0.24	0.25
CTE 25°C – 600°C	112 × 10⁻⁷/°C	62 × 10⁻⁷/°F
Knoop Hardness HK 0.1/20 (ISO9385)	620	620
Refractive index nd	1.5424	——
Abbe number vd	56.1	——
Thermal conductivity λ at 20°C [W/(m·K)]	1.46	1.63
Thermal diffusivity index at 20°C [10⁻⁶ m²/s]	0.72	——
Heat capacity cp at 20°C [J/(g·K)]	0.8	0.9
Young’s modulus E at 20°C [GPa] (mean value)	90.3	84.7
Internal transmittance Ti at 580 nm / 5 mm thickness	0.95	——
Internal transmittance Ti at 580 nm / 10 mm thickness	0.9	——
Stress optical coefficient K at λ = 589.3 nm [10⁻⁶ MPa⁻¹]	3	——
Electrical resistivity at 20°C [Ω·cm]	2.6 × 10¹³	——
Tk100 [°C], Temperature for ρ = 10⁸ [Ω·cm]	178	——

Chemical Properties

Chemical properties	ZERODUR®	ZERODUR® K20
Stain resistance	Class 0	-
Climate resistance	Class 1	-
Acid resistance class (ISO 8424)	1	-
Alkali resistance class (ISO 10629)	1	-
Hydrolytic resistance class (ISO 719)	HGB 1	-
Helium permeability at 20°C [Atoms/(cm·s·bar)]	1.6 × 10⁶	-
Helium permeability at 100°C [Atoms/(cm·s·bar)]	5.0 × 10⁷	-
Helium permeability at 200°C [Atoms/(cm·s·bar)]	7.2 × 10⁸	-

热膨胀

Thermal expansion	ZERODUR®
CTE Grades	CTE (0°C–50°C)*
ZERODUR® Expansion Class 2	0 ± 0.100 × 10⁻⁶/K
ZERODUR® Expansion Class 1	0 ± 0.050 × 10⁻⁶/K
ZERODUR® Expansion Class 0	0 ± 0.020 × 10⁻⁶/K
ZERODUR® Expansion Class 0 SPECIAL	0 ± 0.010 × 10⁻⁶/K
ZERODUR® Expansion Class 0 EXTREME	0 ± 0.007 × 10⁻⁶/K
ZERODUR® TAILORED	TAILORED ± 0.020 × 10⁻⁶/K (+0.010 ~ +0.010 × 10⁻⁶/K upon request)

注：此值仅供参考，根据批次情况可能略有不同。

Machining Zerodur

Precision components made from Zerodur are typically processed using diamond grinding techniques, followed by optical polishing with chemical-mechanical methods as needed. When machining Zerodur, it is crucial to select appropriate cutting tools, control cutting speeds, and carefully manage heat to avoid material damage. After machining, thorough inspection is essential to ensure that the parts’ surfaces are free from cracks or chipping. In some cases, ultra-precision polishing may be required to achieve the desired finish and performance standards.

Jundro 陶瓷公司 leverages years of expertise in precision machining to produce high-quality Zerodur components that consistently meet or exceed customer specifications, ensuring both everyday functionality and specialized performance. If you require precision Zerodur machining, our team of experts is ready to assist you with tailored solutions. 联系我们 today for your machining needs.

Zerodur 5-Axis Machining

Our video shows the process of using CNC to process Zerodur Prototype

常见问题

What is Zerodur Glass-Ceramic?

Zerodur is a highly specialized glass-ceramic material known for its near-zero thermal expansion, making it ideal for precision optical and mechanical applications, such as telescopes and metrology equipment.

What are the main Applications of Zerodur?

Zerodur is commonly used in high-precision instruments, including telescopes, mirrors for scientific devices, laser optics, and semiconductor equipment, due to its exceptional dimensional stability and thermal properties.

How does Zerodur Glass-Ceramic differ from traditional ceramics?

Zerodur has a unique composition and structure that offers near-zero thermal expansion, unlike traditional ceramics that often experience significant dimensional changes with temperature fluctuations. This makes Zerodur ideal for applications requiring high stability.

Is Zerodur Glass-Ceramic resistant to thermal shock?

Yes, Zerodur has excellent resistance to thermal shock, which makes it suitable for high-temperature environments where rapid temperature changes may occur, without risking damage or distortion.

What industries use Zerodur Glass-Ceramic?

Zerodur is widely used in industries such as aerospace, optics, astronomy, and precision metrology, where high stability and thermal resistance are critical for the performance of equipment and instruments.

Can Zerodur be easily machined or processed?

Zerodur can be machined with high precision, but it requires specialized tools and techniques due to its hardness and brittleness. It is often processed using diamond cutting or grinding tools to achieve the desired shape and surface finish.