"1 5mm titanium plates"
일본 연료전지 및 산화환원 흐름 배터리용 화학적 에칭 금속 양극판
Chemical Etched Metal Bipolar Plates for Japanese Fuel Cells & Redox Flow Batteries Product Overview Shenzhen Xinhaisen Technology Limited specializes in high-precision chemical etching for metal parts. Our etched bipolar plates are manufactured using advanced photochemical machining, delivering superior flatness, micro-channel precision, and design flexibility for hydrogen fuel cells, redox flow batteries, and PEM electrolyzers. With etching capabilities on materials from 0
연료 전지 적층을 위한 완벽한 평탄도를 갖춘 화학적 에칭 금속 양극판
Chemical Etched Metallic Bipolar Plates With Perfect Flatness for Fuel Cell Stacking Overview Xinhaisen specializes in high-precision chemical etching of metallic bipolar plates. Using advanced photochemical machining (PCM), we produce burr-free, stress-free bipolar plates for proton exchange membrane fuel cells (PEMFC), solid oxide fuel cells (SOFC), and PEM electrolyzers. Our process ensures ultra-flat channels, tight tolerances, and rapid prototyping to mass production.
티타늄 에칭 0.5mm 초 얇은 인쇄 회로 열 교환기 플릿 수소
Titanium Etching 0.5mm Ultra Thin Printed Circuit Heat Exchanger Plates For Hydrogen Introduction of Printed Circuit Heat Exchanger Plates: Our Hydrogen Printed Circuit Heat Exchanger (PCHE) Etching service delivers precision-engineered microchannel structures tailored for hydrogen energy applications. Utilizing advanced photochemical etching technology, we ensure ultra-high accuracy, excellent surface integrity, and optimal flow dynamics essential for next-generation heat
일본 연료 전지 및 전해조용 맞춤형 화학 에칭 금속 양극판
Custom Chemical Etched Metallic Bipolar Plates for Japanese Fuel Cells & Electrolyzers Product Overview Bipolar plates are critical parts in fuel cells and electrolyzers, responsible for distributing gases, conducting electricity, and removing heat. At Xinhaisen , we leverage advanced precision etching to manufacture high-performance bipolar plates. Using our expertise in processing ultra-thin metals, we produce flow field designs with exceptional accuracy, ensuring uniform
일본 연료 전지 및 열교환기를 위한 맞춤형 마이크로 에칭 티타늄 유량판
Custom Micro-Etched Titanium Flow Plate for Japanese Fuel Cells & Heat Exchangers Flow Plates Overview Our precision-etched metal flow plates are engineered for advanced fluid management applications, particularly in fuel cells, heat exchangers, and microfluidic systems. Manufactured using photochemical etching technology, these plates feature complex, high-density flow field patterns with exceptional accuracy and consistency. Ideal for applications requiring precise fluid
일본 수소 연료 전지용 화학 에칭 스테인레스 스틸/티타늄 양극판
Chemical Etched Stainless Steel / Titanium Bipolar Plates for Japanese Hydrogen Fuel Cells Product Overview Xinhaisen is a specialist in precision etching, and our Metal Bipolar Plates are a key product in this field. These plates are essential parts in Proton-Exchange Membrane Fuel Cells (PEMFC), where they distribute fuel and oxygen evenly across the cell.Using our advanced photochemical etching technology, we manufacture high-performance plates from thin metals like 316L
기계용 화학 알루미늄 발열 금속 이름판 일련 번호 태그
Chemical Aluminum Etching Half Etching Color Plating Metal Nameplates Overview: Chemical etched aluminum nameplates offer durable, permanent markings for machinery and industrial assets. Ideal for harsh environments in manufacturing, aerospace, and automotive sectors, ensuring compliance and traceability with crisp logos/serial numbers. Specifications of Metal Nameplate: Material Stainless Steel, Aluminum, Copper, etc. / Customized Thickness 0.5mm – 2.0mm Color Black, white,
일본 에너지 응용 분야를 위한 복잡한 유동장 설계를 갖춘 금속 에칭 양극판
Metal Etched Bipolar Plates with Complex Flow Field Designs for the Japanese Energy Applications Product Overview Bipolar plates are precision metal parts essential for fuel cells and flow batteries, serving as critical elements for current conduction, reactant distribution, and structural support. Xinhaisen specializes in the high-volume manufacturing of custom bipolar plates using advanced etching technology, delivering parts that meet the stringent requirements of next
정밀 금속 에칭 양극판 수소 연료 전지
Precision Metal Etching Bipolar Plates Fuel Cell For Hydrogen Our Precision Metal Etching Bipolar Plate for Hydrogen is a high-performance component designed for use in hydrogen fuel cells. Engineered with precision etching technology, this bipolar plate ensures optimal flow distribution, durability, and electrical conductivity, essential for efficient energy conversion in fuel cell systems. Specifications of Metal Etching Bipolar Plates: Material : Titanium, Titanium Alloy,
금속 화학 에칭 1.5mm 2.5mm PCHE 열교환기용 마이크로 채널 플레이트
Metal Chemical Etching 0.6mm 1.0mm Flow Plates For PCHE Heat Exchanger Description of Plates for PCHE Heat Exchanger: What is Printed Circiut Heat Exchangers? Printed Circuit Heat Exchanger (PCHE), also referred to as Diffusion Bonded Compact Heat Exchanger (DCHE), is a new generation of heat exchangers. It offers extremely high compactness and is capable of efficient heat transfer under demanding conditions such as high temperature and high pressure. By applying chemical
PEM 연료 전지를 위한 0.5mm ~ 2mm 금속 양극판을 에칭하는 맞춤형 정밀 금속
Custom Precision Metal Etching 0.5mm To 2mm Metallic Bipolar Plates For PEM Fuel Cells We specialize in producing metallic bipolar plates for fuel cells and electrolyzers using advanced photochemical etching machining . Our precision-engineered components drive sustainable energy innovation, empowering hydrogen production, transportation, and power generation with cleaner, more efficient solutions. By leveraging our expertise, industry leaders can accelerate the adoption of
정밀 금속 에칭 0.5mm 316L 인쇄 회로 열 교환판
Precision Metal Etching 0.5mm 316L Printed Circuit Heat Exchanger Plates Description of Printed Circuit Heat Exchanger Plates: What is Printed Circiut Heat Exchangers? Producing a printed circuit heat exchanger requires both chemical etching and diffusion bonding technologies. The flow channels are first etched onto metal plates using chemical etching, which are then stacked and solid-state joined through diffusion bonding to form a single, integrated block. Specifications of
