Al2O3 substrate offers excellent mechanical strength and chemical resistance. Additionally, it can be employed to support and isolate conducting parts as an electrical insulator. It exhibits excellent thermal stability in high-temperature and high-power applications.

Benefits of Al2O3 Substrate

-High hardness and mechanical strength;

-Can endure a wide temperature range without degrading its performance significantly;

-High chemical resistance that can maintain stable in a variety of corrosive environments;

-Excellent electrical insulator, guaranteeing normal operation and safety of electronic circuits;

-Low dielectric loss;

-Outstanding flatness and surface finish;

-Cost-effective, making them an appealing solution for a variety of applications.

Standard Sizes of Al2O3 Substrate

Unipretec provides al2o3 substrates ranging in thickness from 0.015" (0.381mm) to 0.100" (2.54mm). Thicknesses ranging from 0.025" (0.635 mm) to 0.040" (1.016 mm) are the most economical. The specific dimensions are as follows:

Customized dimensions are available. Unipretec can provide laser cutting services and manufacture custom shapes and holes.

Custom Machining of Al2O3 Substrate

Unipretec offers laser machining services. Laser machining is a non-contact processing method that is employed to cut, drill, and engrave Al2O3 substrates. It can also be used to create intricate shapes.

Additionally, substrates can be ground and lapped to obtain particular surface finishes and flatness. After grinding and lapping, surface roughness can typically reach Ra0.3-0.6um. Unipretec offers polishing services, including single- or double-sided polishing with surface roughness Ra 0.05-0.10um, for improved surface roughness.

Principal Characteristics of Substrates of Aluminum Oxide

High Hardness and Mechanical Strength

Al2O3 substrates have strong mechanical and wear resistance. Applications requiring large mechanical loads and abrasive environments depend heavily on this characteristic.

Superb Thermal Stability

Up to 1600°C is the usual maximum temperature at which aluminum oxide may be used without losing its qualities. Application in high-temperature conditions need this thermal resilience.

Electrical Insulation

Having low electrical conductivity and great dielectric strength, Al2O3 is a superb electrical insulator. That qualifies it for use in electronic applications requiring electrical isolation.

Chemical Resistance

Acids, alkalis, and other strong chemicals do not readily corrode Al2O3 substrates. Their lifespan and durability in chemically hostile conditions are so guaranteed.

Low Thermal Expansion

Precision parts need dimensional stability under temperature variations, which is maintained in part by aluminum oxide's low coefficient of thermal expansion.

good thermal conductivity

Strong thermal conductivity of Al2O3 substrates facilitates effective heat dissipation in electronic equipment.

Uses of Aluminum Oxide Substrates

Electronics

Al2O3 substrates have extensive use in power electronics, hybrid microelectronics, and integrated circuits. Reliability and performance of electronic equipment depend on their electrical insulation and thermal management qualities.

Aerospace

In the aerospace sector, Al2O3 substrates are utilized in insulating materials and thermal barriers, among other components that need for high-temperature resistance and mechanical strength.

Medical Devices

Because it is durable, chemically resistant, and biocompatible, aluminum oxide finds use in medical equipment. Applications include diagnostic equipment, dental implants, and surgical tools.

Engine Electronics

Al2O3 substrates are utilized in engine control units and sensors, among other automotive electronics where dependable functioning depends on electrical insulation and thermal management.

Uses in Industry

Al2O3 substrates' hardness and chemical resistance find usage in industrial machinery applications including mechanical seals, cutting tools, and wear-resistant components.

Telecommunications

Signal integrity and performance are improved in high-frequency circuits of telecommunications equipment by the electrical insulation and thermal management features of Al2O3 substrates.

Production Methods of Al2O3 Substrates

Al2O3 substrate production entails a number of complex procedures to obtain the required material characteristics:

Powder Preparation

Aluminum oxide powder of high purity is usually produced by synthesising from aluminum salts or by the Bayer process. The powder is meticulously milled to the purity and distribution of particle sizes that are desired.

Forming

A uniform slurry or paste is created by combining the Al2O3 powder with binders and additives. Then, using a variety of methods including tape casting, dry pressing, or injection moulding, this mixture is formed into the required shape. The resulting forms, called green bodies, are then dried to drive out moisture.

A sinter

The dried green bodies are heated in a controlled atmosphere to high temperatures (usually above 1500°C) during the sintering process. The alumina particles join together during sintering to give the material its final mechanical and thermal characteristics and to densify it.

Machinery and Finishing

Al2O3 substrates are precision machiningd after sintering to produce smooth surface finishes and close dimensional tolerances by means of grinding, lapping, and polishing. Applications of metallization procedures can also be made to improve bonding with other materials or electrical conductivity.