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Zirconia – Definition, Advantages, Properties and Applications

November 27, 2024

What is Zirconia

Zirconia (ZrO2) is one of the most widely studied and used advanced ceramic materials. Compared with other Technical ceramic materials, the most prominent feature of zirconia is its extremely high fracture toughness, which makes it have super wear and impact resistance, so it is also named "ceramic steel."
 
Low thermal conductivity is another unmatched property of zirconia ceramics, attributed to its many microscopic pores and crystal structure. This particular ceramic crystalline structure gives zirconia an excellent thermal insulation effect.
 

The Structure of Zirconia (ZrO2)

Zirconia ceramics have three different phases due to temperature changes, which are:
 From room temperature to 1170℃, it is monoclinic (M-ZrO2) phase;
 
 Between 1170℃ and 2370℃, it is transformed into tetragonal (T-ZrO2) phase;
 
 When the temperature exceeds 2370℃, it is transformed into a cubic (C-ZrO2) phase.
Schematic Diagram of Crystal Structures
The three phases of ceramic zirconia can be transformed into each other at different temperatures. The same Zirconia Ceramic parts with different phases have various sizes, volumes, and mechanical and chemical properties.
 

Other Advantages of Zirconia (ZrO2) 

 High strength: The compressive strength can reach over 1000MPa, above 5 times that of steel.
 
 High-temperature resistance: The service temperature of zirconia can be up to 1000℃
 
 High density: It’s a highly dense ceramic material, the density is up to 6.1 g/cm3 
 
 High hardness: The MoHS of zirconium oxide ceramic hardness is up to 8.5, similar to sapphire
 
 Corrosion resistance: ZrO2 doesn’t react with most acids, alkalis, salts, and other chemicals
 
 Resistant crack propagation:  It’s the real cause of why zirconia zro2 ceramic has superb fracture toughness.
 
 Self-lubricity: Zirconium oxide ceramic has a much lower friction coefficient; it’s only ½ of alumina ceramics
 
 More Fine Surface: The much higher density and high compactness of zirconium oxide make the texture of the ceramic body fine
 
 Resistant to molten metal: ZrO2 ceramic is not easily wetted by liquid metal, so it is highly resistant to corrosion in molten metal.
 
 Electrical Insulation: ZrO2 ceramic has a high resistivity at room temperature and can be used as a Ceramic Insulator, but when the operating temperature exceeds 650℃, it will become an electrical conductor.
 

Types of zirconia materials

Doped with different stabilizers have a significant impact on zirconia materials. According to the main categories of stabilizers, zirconia ceramics can be divided into three types:
 

1. Yttria stabilized zirconia (YSZ)

Zirconia (ZrO2) material was prepared by adding 3 mol of yttrium dioxide called yttria, which is partially stabilized zirconia. YSZ zirconia presents a stable tetragonal crystal structure at room temperature and has high strength, corrosion resistance, high-temperature resistance, good biocompatibility, wear resistance, and good ionic conductivity. With the increase of Y2O3 content, stabilized zirconia ceramics can be transformed from tetragonal phase (partially stabilized) to cubic phase, that is, fully stabilized zirconia (FSZ)
 

2. Magnesium stabilized zirconia (MSZ)

Adding an appropriate amount of magnesium oxide to zirconium oxide can adjust its performance. Magnesium-stabilized zirconia has good mechanical strength, thermal stability, and chemical stability.
 

3. Cerium-stabilized zirconia (CSZ)

This toughened ceramic is made by using cerium oxide as a stabilizer, uniformly doped in zirconia at a molecular content of 8% to 16%.
 
 

Zirconia Ceramic Material Properties

Electrical Properties

 
Property Unit 3Y-TZP MSZ Ce-TZP
Dielectric strength ac - KV/mm 11.7 9.4 9.8
Dielectric constant
@ 1MHz
(E) 29 28 29.2
Dielectric loss
@ 1MHz
--- 0.001 0.0018 -
Volume resistivity, 25℃ ohm. cm 1*1013 1*1013 1*1013
Volume resistivity, 500℃ 1*107 1*107 1*107
Volume resistivity, 1000℃ <1*103 <1*103 <1*103
 
 

Thermal Properties

Property Unit 3Y-TZP MSZ Ce-TZP
CTE @ 25~1000℃ 10-6/℃ 10.3 10.2 10.3
Thermal Conductivity
@ 25℃
W/m.K 2.2 3 3.5
Specific Heat
@ 100℃
J/kg*k 400 400 400
Max. Service Temperature (Without loading) 500 1200 530
 

Physical Properties

Property Unit 3Y-TZP MSZ Ce-TZP
Density g/cm3 ≧6.0 ≧5.72 ≧6.1
Hardness GPa 12.7 11.8 10
Flexural strength @ 25℃ MPa 1200 900 551
Fracture toughness MPam1/2 13 11 15
Tensile strength (3 point) @ 25℃ MPa 690 483 337
Compressive strength @25℃ MPa ≧2480 ≧1750 ≧2000
Elastic modulus GPa 210 200 180
Poisson’s ratio -- 0.30 0.30 0.25

 

 

Applications of Zirconia Ceramics

1. Typical Applications of YSZ Zirconia

YSZ zirconia is the most widely used of all zirconia categories. Its applications include: 
 Ceramic wear parts
 Zirconia ball valves and seats
 Pump seals and shaft bearings
 Solid oxide fuel Cell (SOFC)
 Precision ZrO2 ceramic nozzles
 Ceramic cutting tools and blades
 Oxygen sensor, nitrogen oxide sensor
 Ceramic rollers and guides for wire forming
 Ceramic thread and yarn guides for textile machinery
 Functional ceramics and structural Ceramic Components
 

2. Typical Applications of MSZ Zirconia

 Engineering applications: mechanical seals, stamping & extrusion dies and wear parts
 Optical communication device: ceramic sleeves, ceramic capillary, ceramic holders
 Biomedical science: bone tissue repair materials, biosensors, Fracture internal fixator, and drug carriers
Refractories: high-temperature furnace parts, Ceramic parts for aerospace engines, and structural materials for spacecraft 
 

3. Typical Applications of CSZ Zirconia

 Grinding medium: Suitable for grinding all kinds of high-viscosity materials
 Structural ceramic parts: mainly used in high hardness, high-temperature resistance occasions
Automotive catalytic systems: Ceria stabilized zirconia as a catalyst carrier can improve catalytic efficiency and reduce pollutant emission
 
 

Final Thoughts

Thanks to its excellent mechanical and thermal properties, chemical inertness, and high-temperature stability, the use of zirconia ceramics will be further deepened and expanded with the innovation of science and technology and the continuous improvement of production processes, moving towards higher performance, more diversified functions, and low cost of the advanced ceramic material.
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