Blue Zirconia Ceramic Locating Pins

Blue Zirconia Ceramic Locating Pinsmerits

Blue zirconia ceramic locating pins combine a number of core advantages such as high toughness, chipping resistance, super abrasion resistance, high precision, electrical insulation, corrosion resistance and high temperature resistance. Compared with ordinary aluminum oxide or metal positioning pins, zirconia is more outstanding in terms of fracture resistance and long-term dimensional stability, and is more suitable for high-frequency insertion and removal, high-precision, high-clean and high-reliability automated equipment systems. It can not only significantly improve the repeatable positioning accuracy of the equipment, but also effectively extend the life of the fixture and reduce maintenance costs, which makes it an ideal upgraded positioning element in the field of high-end industrial automation and precision electronic assembly.

Categories: 氧化锆陶瓷零件Tags: 陶瓷结构件

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Description

Description

Advantages of blue zirconia ceramic locating pins

Blue zirconia ceramic locating pins are used in precision automation equipment, semiconductor fixtures, electronic assembly fixtures, and high repetitive positioning mechanisms, where locating pins play an important role in datum positioning, repetitive assembly, guiding correction and accuracy maintenance. Blue zirconia ceramic locating pins are made of high-performance zirconia ceramics through high-temperature sintering and precision cylindrical grinding, which have excellent dimensional consistency, and are also more outstanding in terms of strength, toughness, abrasion resistance, and insulating properties, which are suitable for use in high-end precision positioning systems.

High toughness and more resistant to chipping, suitable for high-intensity repetitive insertion and removal.
Superior abrasion resistance, long-term maintenance of positioning accuracy
High dimensional accuracy to meet micron-level positioning requirements
Excellent electrical insulation properties, suitable for electronic semiconductor equipment

Application of magnesium-stabilized zirconia ceramics

Magnesium-stabilized zirconia ceramics are widely used in several fields due to their unique performance characteristics:

1. Industrial applications:
Wear-resistant parts: Used in the manufacture of highly wear-resistant mechanical parts, such as pump bushings, sealing rings and valve components, which can significantly extend the service life of the equipment.
Cutting tools: Used in the manufacture of cutting tools and cutting tools, due to its high hardness and wear resistance can maintain good performance in high-precision machining.

2. Aerospace:
High-temperature components: Used as high-temperature structural components in aero-engines and gas turbines, capable of withstanding extremely high temperatures and pressurized environments.
Thermal Barrier Coatings: Surface coatings for turbine blades and other high-temperature components that provide excellent thermal protection.

3. Electronic and electrical:
Insulators and substrates: Used as insulators and substrates for high-frequency circuits and power electronics due to their excellent electrical insulation properties and thermal stability.

4. Chemicals and energy:
Catalyst Carrier: Used in the chemical industry as a catalyst carrier, providing good chemical stability and high temperature performance.
Fuel Cell Components: Used as an electrolyte material in solid oxide fuel cells, its ionic conductivity and high temperature resistance enhance cell efficiency and life.

Magnesium-stabilized zirconia ceramics play a key role in a variety of fields thanks to their excellent physical and chemical properties, significantly enhancing the performance and durability of equipment.

Basic properties of magnesium-stabilized zirconia ceramics

Magnesium-stabilized zirconia ceramics use magnesium oxide (MgO) as a stabilizer for zirconia, and the crystal structure is cubic lattice after molding, which is more stable. Magnesia-zirconia has better resistance to high temperature and humidity because it is not affected by phase migration. Magnesia-zirconia maintains its strength even in humid, high-temperature environments where the mechanical properties of yttrium oxide partially stabilized zirconia begin to deteriorate.

Color: yellow
Density: 5.7 g/cm3
Hardness: 11.8 GPa
Maximum working temperature: 2000°C
Thermal conductivity: 2.2W.(MK)-1
Flexural strength: ≥900 Mpa
Fracture toughness: >7.0 (Mpa.m1/2)
Coefficient of thermal expansion (0~1400℃): 10.2×10-6/℃

Suppliers of Magnesium-stabilized zirconia ceramics

To Good Ceramics is a professional ceramic supplier, we have many years of experience in producing high quality precision ceramic parts. We utilize our experienced team and in-depth knowledge of ceramic materials to create the best precision ceramic products for our customers at competitive prices.