Name: Ultra-Vacuum Electrode Feedthrough Connector Flange Power Electrode Lead for High-Precision Applications
Brand: Kintek Solution
SKU: KT-VA09
Rating: 4.8 (16 reviews)

Ultra-Vacuum Electrode Feedthrough Connector Flange Power Electrode Lead for High-Precision Applications

Item Number : KT-VA09

Price varies based on specs and customizations

Flange specifications: CF16, CF25, CF40, CF63, CF100, KF16, KF25, KF40, KF50, KF63 (customizable)
Lead length: 100mm, 200mm, 300mm, 500mm, 1000mm (customizable)

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Product Application

The Ultra-Vacuum Electrode Feedthrough Connector Flange Power Electrode Lead is a specialized component designed to facilitate reliable connections in ultra-vacuum environments. This product is essential for high-precision applications where maintaining a stable and secure connection under extreme vacuum conditions is crucial. Its primary applications include:

Semiconductor Manufacturing Equipment: Used in wafer manufacturing, etching, and deposition processes to ensure the equipment operates reliably in ultra-high vacuum environments.
Particle Accelerators: Employed to connect the accelerator cavity with external circuits, ensuring the stable transmission of particle beams.
Space Simulation Equipment: Utilized to simulate space environments and provide reliable power connections for spacecraft testing.
High-Energy Physics Experiments: Used to connect particle detectors with data acquisition systems, ensuring the accuracy of experimental data.
Other Fields Requiring Ultra-High Vacuum Sealed Electrode Connection: Meets the specialized needs of various high-precision fields.

Product Feature

The Ultra-Vacuum Electrode Feedthrough Connector Flange Power Electrode Lead is engineered with several advanced features to ensure optimal performance in ultra-vacuum environments:

Ultra-High Vacuum Sealing: Utilizes special ceramic or metal sealing technology to achieve a vacuum sealing performance of more than 10^-10 Pa, meeting the stringent requirements of ultra-high vacuum environments.
Excellent Conductive Performance: The lead material is made from high-purity oxygen-free copper or silver-plated copper, offering excellent conductive performance and extremely low resistivity for stable and reliable signal transmission.
High Temperature and High Pressure Resistance: The sealing material is designed to withstand high temperatures and pressures, enabling stable long-term operation in high-temperature vacuum environments and extreme working conditions.
Multiple Specifications Available: Offers a variety of flange specifications and lead length options, including CF16, CF25, CF40, CF63, CF100, KF16, KF25, KF40, KF50, KF63, and customizable options to cater to different ultra-vacuum systems.
Easy Installation: Features a reasonable structural design for convenient and fast installation, facilitating easy maintenance and reducing installation time and costs.

Detail & Parts

Flange power supply electrode lead

Working Principle

The Ultra-Vacuum Electrode Feedthrough Connector Flange Power Electrode Lead operates on the principle of maintaining a stable connection between the power electrode and the external circuit in ultra-vacuum conditions. The key components and mechanisms include:

Sealing Technology: The product employs advanced ceramic or metal sealing techniques to achieve ultra-high vacuum sealing, ensuring that the internal environment remains isolated from external atmospheric pressures and contaminants.
Conductive Materials: High-purity oxygen-free copper or silver-plated copper leads are used to ensure minimal resistance and maximum conductivity, facilitating efficient power and signal transmission.
Structural Design: The design incorporates flange specifications and lead lengths that can be customized to fit various ultra-vacuum systems, ensuring compatibility and optimal performance.
Temperature and Pressure Management: The materials and design are selected to withstand high temperatures and pressures, enabling continuous operation in extreme conditions without compromising performance.

Product Advantage

The Ultra-Vacuum Electrode Feedthrough Connector Flange Power Electrode Lead offers several advantages that make it a superior choice for high-precision applications:

Professional Customization: Products can be customized in terms of specifications, materials, and lengths to meet the specific needs of customers, ensuring personalized solutions.
Quality Assurance: Manufactured using high-quality raw materials and advanced production processes, the product delivers stable and reliable performance, ensuring durability and longevity.
Reasonable Price: Provides competitive pricing without compromising on quality, offering high cost-effectiveness and saving costs for customers.

This product is designed to meet the stringent requirements of ultra-vacuum environments, ensuring reliable and efficient connections for a wide range of high-precision applications.

Technical specifications

Parameter Description	Options
Flange specifications	CF16, CF25, CF40, CF63, CF100, KF16, KF25, KF40, KF50, KF63 (customizable)
Lead length	100mm, 200mm, 300mm, 500mm, 1000mm (customizable)
Maximum operating temperature	400°C (customizable)
Maximum operating pressure	10^-10 Pa
Sealing material	Ceramic, metal

Designed for You

KinTek provide deep custom made service and equipment to worldwide customers, our specialized teamwork and rich experienced engineers are capable to undertake the custom tailoring hardware and software equipment requirements, and help our customer to build up the exclusive and personalized equipment and solution!

Would you please drop your ideas to us, our engineers are ready for you now!

FAQ

What Is An Electrode In Electrochemistry?

An electrode is a solid electrical conductor that serves as the point where current enters and leaves the electrolyte in an electrochemical cell. When the current leaves the electrode, it is called the cathode, and when it enters, it is called the anode. Electrodes are essential components of electrochemical cells, transporting produced electrons from one half-cell to another, which produces an electrical charge. The charge is based on a standard electrode system (SHE) with a reference potential of 0 volts and serves as a medium for any cell potential calculation.

What Are The 3 Electrodes In Electrochemistry?

The three electrodes commonly used in electrochemistry are the Working Electrode (WE), Reference Electrode (RE), and Counter Electrode (CE). The WE is where the electrochemical reaction occurs and the current is measured. The RE provides a stable reference potential for the measurement. The CE completes the circuit and balances the charge between the WE and RE. Proper preparation and use of each electrode is crucial for accurate electrochemical experiments.

What Are The Different Types Of Electrochemical Electrodes?

There are several types of electrochemical electrodes, each designed for specific applications. The most common types include working electrodes, reference electrodes, and counter electrodes. Working electrodes are the primary electrodes where the electrochemical reaction of interest takes place. Reference electrodes provide a stable reference potential against which the working electrode potential can be measured. Counter electrodes complete the circuit by providing a site for the flow of electrons to balance out the current passing through the working electrode.

What Materials Are Commonly Used For Electrochemical Electrodes?

Various materials can be used for electrochemical electrodes depending on the specific application and requirements. Common materials include noble metals such as platinum, gold, and silver, which provide excellent conductivity and chemical stability. Carbon-based materials like graphite or glassy carbon are also commonly used due to their high surface area and good electrical properties. Additionally, metal oxides, conductive polymers, and composite materials are employed for specific applications that necessitate unique properties such as catalytic activity or selectivity.

What Factors Should Be Considered When Selecting An Electrochemical Electrode?

When selecting an electrochemical electrode, several factors should be considered. The choice of electrode material is crucial, as it determines the electrode's conductivity, stability, and catalytic activity. The electrode size and geometry should match the specific experimental setup and requirements. Consideration should also be given to the compatibility of the electrode material with the electrolyte and the potential range of the electrochemical system. Additionally, cost, availability, and ease of fabrication should be taken into account when selecting an electrode for practical applications.

How Can Electrochemical Electrodes Be Used In Various Applications?

Electrochemical electrodes find applications in a wide range of fields, including energy storage and conversion, corrosion analysis, sensors and biosensors, electroplating, and water treatment. They are used in batteries and fuel cells to facilitate the electrochemical reactions that store and convert energy. Electrochemical sensors and biosensors utilize electrodes to detect and measure analytes in various samples. Electroplating and electrorefining processes rely on electrodes to deposit or extract metal ions. Additionally, electrochemical electrodes are employed in electrochemical machining, electroanalysis, and many other research and industrial applications that involve studying or manipulating electrochemical phenomena.

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