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Key Factors for Improving Sapphire Metallization Yield
Fundamental Challenges Sapphire’s exceptional hardness (Mohs 9), chemical inertness, and optical transparency make it ideal for LED/RF applicati…
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Precision Glass Thinning Technology: Enhancing Performance and Expanding Applications
Core Technology Overview Precision glass thinning has emerged as a critical process for meeting advanced technical requirements in electronics, optica…
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Optical Lens Coating Technology: Enhancing Performance and Expanding Applications
Core Technology Overview Optical lens coating has become pivotal for enhancing performance across diverse applications – from camera lenses and eyewea…
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Market Analysis and Application Prospects of Glass Etching Technology
As technology advances and electronic products continue to miniaturize, glass etching technology has gained significant traction across multiple indus…
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Analysis of Glass Via Electrical Performance and Its Application in Modern Electronic Packaging
In modern electronic packaging technology, glass has become a critical high-performance material widely used in various advanced technological product…
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Sapphire Metallization Technology: The Deep-Sea Shield for Nuclear Submarine Sensors
How to Protect the “Sensory Nerves” of Underwater Equipment in Extreme Environments Nuclear submarine sensors function like the sensory or…
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Repair Solutions and Technological Advancements for Air Tightness Failures in Sapphire Welding
In high-end electronic devices, laser equipment, and optical communication fields, sapphire has become a critical material due to its exceptional mech…
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JC/T 2201-2022 Target for Coated Glass
This document specifies the terms and definitions, classification, requirements, inspection methods, inspection rules, packaging, marking, transportat…
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What are the main types of infrared transmitting optical glass?
Infrared transmission optical glass There are mainly the following categories: (1) Infrared transmitting optical quartz glass (JGS3) Infrared transmit…
