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Sapphire Lift Pin Wafer Transfer Sapphire Lift Rod Wafer Lift Pin Made Of Al2O3

Product Details

Place of Origin: China

Brand Name: ZMSH

Model Number: sapphire lift pin

Payment & Shipping Terms

Delivery Time: 2-4weeks

Payment Terms: T/T

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Al2O3 wafer lift pin

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sapphire lift pin

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wafer transfer sapphire lift pin

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1≦a≦4:
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Sapphire Lift Pin Wafer Transfer Sapphire Lift Rod Wafer Lift Pin Made Of Al2O3

 

sapphire lift pin wafer transfer sapphire lift rod wafer lift pin made of Al2O3

 

sapphire lift pin‘s abstract

Sapphire Lift Pin  Wafer Transfer Sapphire Lift Rod  Wafer Lift Pin Made Of Al2O3 0

Sapphire Lift Pins play a crucial role in wafer transfer processes, offering exceptional mechanical strength and precise dimensional stability, even in high-temperature and chemically aggressive plasma environments. Their reliable performance ensures the safe and accurate handling of wafers during critical semiconductor manufacturing stages, thereby enhancing overall process efficiency and yield. With extensive experience in the production of high-quality semiconductor materials, Stanford Advanced Materials (SAM) is a trusted supplier of these specialized components.

 


 

sapphire lift pin‘s properties

 

The sapphire lift pin has several important properties that make it ideal for use in semiconductor manufacturing and other high-precision industries:

  1. High Hardness: Sapphire is extremely hard, second only to diamond, making it resistant to scratches and wear during repeated use.

  2. Thermal Stability: Sapphire can withstand high temperatures without degrading, making it suitable for environments that require stability under extreme heat.

  3. Chemical Resistance: Sapphire is resistant to most chemicals, making it ideal for use in chemically harsh environments, such as those found in semiconductor processing.

  4. Precision: Sapphire lift pins are manufactured with high dimensional accuracy, ensuring precise control and alignment during wafer handling.

  5. Low Friction: The smooth surface of sapphire reduces friction during movement, minimizing the risk of wafer damage.

  6. Non-Conductive: As an insulator, sapphire does not conduct electricity, making it safe for use in electronic applications where conductivity must be avoided.

  7. Transparency: Sapphire is optically transparent in the visible, UV, and infrared ranges, which can be beneficial in certain applications where visibility or light transmission is needed.

These properties ensure that sapphire lift pins provide reliable performance in demanding applications, particularly in environments that require durability, precision, and resistance to harsh conditions.

 


 

sapphire lift pin‘s applications

  1. Semiconductor Manufacturing: Sapphire lift pins are widely used in the semiconductor industry for the precise handling of wafers during various stages of processing, such as etching, deposition, and inspection.

  2. LED Production: In the production of LEDs, sapphire lift pins are crucial for handling sapphire substrates, ensuring they are carefully moved between different manufacturing processes without damage.

  3. Optoelectronics: Used in the manufacturing of optoelectronic devices, such as lasers and photodetectors, sapphire lift pins provide safe and precise handling of delicate components.

  4. High-Temperature Processing: Sapphire’s thermal stability makes these lift pins ideal for use in environments where wafers or other materials are subjected to high temperatures, such as during annealing or thermal oxidation.

  5. Cleanroom Environments: In cleanrooms, where contamination control is critical, sapphire lift pins are preferred due to their chemical resistance and low particle generation, helping maintain the purity of the environment.

  6. Precision Instrumentation: Sapphire lift pins are used in precision instruments where exact positioning and minimal mechanical stress are required, such as in microscopes and other optical devices.

  7. Research and Development: In R&D labs, sapphire lift pins are used in experimental setups that involve high-precision material handling, especially in studies related to new materials and nanotechnology.

These applications leverage the unique properties of sapphire, such as its hardness, thermal stability, and chemical resistance, making sapphire lift pins an essential tool in various high-tech and industrial processes.

 


 

sapphire lift pin‘s photo

 

Sapphire Lift Pin  Wafer Transfer Sapphire Lift Rod  Wafer Lift Pin Made Of Al2O3 1Sapphire Lift Pin  Wafer Transfer Sapphire Lift Rod  Wafer Lift Pin Made Of Al2O3 2

 


 

Q&A

 

Q:What are the advantages of using sapphire lift pins over other materials like quartz or ceramic?

 

A:Sapphire lift pins offer significant advantages over quartz and ceramic alternatives, including superior hardness, enhanced thermal stability, and excellent chemical resistance. These properties ensure greater durability, precision, and reliability, especially in demanding environments such as semiconductor manufacturing. Sapphire's low particle generation and improved strength make it ideal for cleanroom applications and high-stress situations, providing a longer lifespan and better performance than other materials.