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02B01
HaoRui
Let's start by getting to know ceramic zirconia and its excellence.
As a special class of ceramic material, zirconia (ZrO2) has a number of compelling attributes that are appreciated in a wide range of industries. These include excellent corrosion and ageing resistance, extremely high hardness and puncture resistance, good electrical insulation and excellent processing properties.
Ceramic zirconia is more resistant to the effects of environmental changes than other materials such as metal or plastic that may be used in the production of V-grooves and will remain stable for a longer period of time. For example, when operating in wet environments, metals can rust and plastics can deform, but with ceramic zirconia there is no need to worry about these issues.
Ceramic zirconia also excels in terms of hardness and damage resistance. This means that the "V" shaped grooves are less susceptible to scratches or deformation, even after extensive and frequent handling, thus ensuring precise alignment of the fibre optic cable ports and the quality of the final connection. In fact, ceramic zirconia can be found in many high-strength applications such as industrial manufacturing, medical instruments and even in aerospace technology!
In fusion splicing machines, choosing the right material for the V-shaped fibre optic groove is crucial. And blue zirconia has become a favoured option. This is due to its multiple advantages in meeting high demands for visibility, abrasion resistance and reflectivity.
Because ceramic zirconia is inherently electrically insulating and does not absorb moisture, grease, etc., these characteristics make it ideal for use in "V" shaped fibre optic slots. After all, it is unacceptable to use any material that could lead to errors or interference in high-precision equipment.
The choice of using blue zirconia ceramic as a material in the manufacturing process has significant advantages in terms of ensuring operational stability, improving connection quality or extending equipment life. It also reduces fibre loss due to material defects, further improving the overall efficiency of fibre-optic network systems.
Although the "V" shaped fibre optic slot is only a small part of the overall fibre optic network system, its importance cannot be ignored. The choice of ceramic zirconia as the material for its manufacture highlights the key role of the "V" slot in achieving efficient and stable information transmission. With the continuous development and reform of science and technology, we expect more innovative designs and excellent materials to be applied to this kind of key equipment in the future, and HaoRui Ceramics has been working in this area for many years, and made many kinds of V-grooves.
Zirconia Ceramic Performance Table | |||
Property | Item | Data | Unit |
Mechanical Characteristics | Color | BLUE | - |
Density | 6.02 | g/cm3 | |
Bending Strength | 800 | MPa | |
Compressive trength | 3000 | MPa | |
Elastic Modulus | 200 | GPa | |
Fracture Toughness | 8 | MPa m1/2 | |
Weber Coefficient | 15 | m | |
Vickers Hardness | 1200 | HV 0.5 | |
Thermal Characterics | Coefficient of Line Thermal Expansion | 10 | 10-6K-1 |
Thermal Conductivity | 3 | W/mK | |
Thermal Shock Resistance(Put in Water) | 300 | ΔT °C | |
Max Working Temperature | 1000 | °C | |
Electrical Characteristics | Volume Resistance at 20°C | >1013 | Ωcm |
Dielectric Strength | 11×106 | V/m | |
Dielectric Constant | 33 | εr | |
One MHZ Dielectric Loss Angle at 20°C | 0.0016 | tanδ | |
Chemical Characteristics | Nitric Acid (60%) 90°C | ≒0.00 | WT Loss mg/cm^2/day |
Sulphuric Acid (95%) 95°C | 0.04 | ||
Caustic Soda (30%) 80°C | 0.08 |
Let's start by getting to know ceramic zirconia and its excellence.
As a special class of ceramic material, zirconia (ZrO2) has a number of compelling attributes that are appreciated in a wide range of industries. These include excellent corrosion and ageing resistance, extremely high hardness and puncture resistance, good electrical insulation and excellent processing properties.
Ceramic zirconia is more resistant to the effects of environmental changes than other materials such as metal or plastic that may be used in the production of V-grooves and will remain stable for a longer period of time. For example, when operating in wet environments, metals can rust and plastics can deform, but with ceramic zirconia there is no need to worry about these issues.
Ceramic zirconia also excels in terms of hardness and damage resistance. This means that the "V" shaped grooves are less susceptible to scratches or deformation, even after extensive and frequent handling, thus ensuring precise alignment of the fibre optic cable ports and the quality of the final connection. In fact, ceramic zirconia can be found in many high-strength applications such as industrial manufacturing, medical instruments and even in aerospace technology!
In fusion splicing machines, choosing the right material for the V-shaped fibre optic groove is crucial. And blue zirconia has become a favoured option. This is due to its multiple advantages in meeting high demands for visibility, abrasion resistance and reflectivity.
Because ceramic zirconia is inherently electrically insulating and does not absorb moisture, grease, etc., these characteristics make it ideal for use in "V" shaped fibre optic slots. After all, it is unacceptable to use any material that could lead to errors or interference in high-precision equipment.
The choice of using blue zirconia ceramic as a material in the manufacturing process has significant advantages in terms of ensuring operational stability, improving connection quality or extending equipment life. It also reduces fibre loss due to material defects, further improving the overall efficiency of fibre-optic network systems.
Although the "V" shaped fibre optic slot is only a small part of the overall fibre optic network system, its importance cannot be ignored. The choice of ceramic zirconia as the material for its manufacture highlights the key role of the "V" slot in achieving efficient and stable information transmission. With the continuous development and reform of science and technology, we expect more innovative designs and excellent materials to be applied to this kind of key equipment in the future, and HaoRui Ceramics has been working in this area for many years, and made many kinds of V-grooves.
Zirconia Ceramic Performance Table | |||
Property | Item | Data | Unit |
Mechanical Characteristics | Color | BLUE | - |
Density | 6.02 | g/cm3 | |
Bending Strength | 800 | MPa | |
Compressive trength | 3000 | MPa | |
Elastic Modulus | 200 | GPa | |
Fracture Toughness | 8 | MPa m1/2 | |
Weber Coefficient | 15 | m | |
Vickers Hardness | 1200 | HV 0.5 | |
Thermal Characterics | Coefficient of Line Thermal Expansion | 10 | 10-6K-1 |
Thermal Conductivity | 3 | W/mK | |
Thermal Shock Resistance(Put in Water) | 300 | ΔT °C | |
Max Working Temperature | 1000 | °C | |
Electrical Characteristics | Volume Resistance at 20°C | >1013 | Ωcm |
Dielectric Strength | 11×106 | V/m | |
Dielectric Constant | 33 | εr | |
One MHZ Dielectric Loss Angle at 20°C | 0.0016 | tanδ | |
Chemical Characteristics | Nitric Acid (60%) 90°C | ≒0.00 | WT Loss mg/cm^2/day |
Sulphuric Acid (95%) 95°C | 0.04 | ||
Caustic Soda (30%) 80°C | 0.08 |