"stainless steel titanium etching"
Aluminium Photo Chemical Etching 0.1mm–1.0mm Precision Lightweight Bipolar Plates for Aerospace
Aluminium Photo Chemical Etching 0.1mm–1.0mm Precision Lightweight Bipolar Plates for Aerospace Xinhaisen specializes in precision aluminium photo chemical etching , providing high-quality metal etching services for lightweight and high-performance components. Our etched aluminium bipolar plates are just one example of our expertise — widely used in aerospace fuel cells, heat exchangers, and electronic cooling systems , where fine flow channels, corrosion resistance, and
알루미늄 에칭 맞춤형 정밀 부품 제조사 (버 및 응력 없음)
Aluminum Etching Custom Precision Burr-free and Stress-free Metal Parts Aluminum / Aluminum Alloy is also a commonly used material in precision metal etching processing. We commonly use aluminum to etch various products, involving fields such as automotive, aerospace, consumer electronics, medical, etc. The advantages of Aluminum /Aluminum Alloy Etching High Precision & Detail Reproduction Excellent Corrosion Resistance Lightweight & High Strength-to-Weight Ratio Fast Etching
고 정밀 애플리케이션을 위한 광화학 발사 구리 납 프레임
Photo Chemical Etching High Precision Copper Lead Frames For Electronics Xinhaisen - 13 years ISO-certified photochemical etching expert Specializes in semiconductor lead frames & precision metal components. Processes metal materials (stainless steel/copper/titanium) with ±0.01mm tolerance. Specifications of Copper Lead Frame: Material Copper, Brass Alloys etc. Brass Alloys +/-0.005mm Shape Customized Applications Semiconductor IC packaging Technique Chemical etching, Plating
고정밀 및 방진 기능을 갖춘 휴대폰 스피커용 마이크로 에칭 음향 메쉬
Micro-Etched Acoustic Mesh for Mobile Phone Speakers with High Precision & Dust Resistance Speaker Grilles Overview Our mobile phone speaker mesh is a precision-etched metal part designed for optimal acoustic performance in smartphones. It ensures clear sound transmission while protecting internal parts from dust and damage. Manufacturing Process Made using advanced chemical etching technology, we achieve precise patterns without burrs or stress, maintaining material
금속 사진 화학 에칭 고 정밀 맞춤 처리 서비스
Custom Metal Parts Photo Chemical Etching Processing Service with High Precision What is Photo Chemical Etching Photo chemical etching , also known as photochemical machining (PCM) or chemical etching , is a precision manufacturing process used to create complex and highly accurate metal parts . It involves selectively removing metal using chemical solutions and photoresist masks . Advantages of Photo Chemical Etching High Precision Burr-Free & Stress-Fress Unlimited Complex
고성능 제품용 정밀 구리 외각 서비스
Precision Copper Etching Services for High-Performance Products Copper Etching Overview Copper etching is a precision manufacturing process that creates intricate, high-accuracy components from copper materials. Ideal for applications requiring excellent electrical conductivity, thermal performance, and fine detail, this service is tailored to meet demanding industry standards with fast turnaround and consistent quality. Copper Etching Features Excellent Conductivity : Ideal
OEM 금속 화학 에칭 고정밀 금속 자동차 오토 스피커 그릴 및 스피커 커버
OEM Metal Chemical Etching High Precision Metal Car Auto Speaker Grilles And Speaker Covers Precision Etching for Automotive Speaker Grilles At Xinhaisen , we specialize in chemical etching (photo etching) for high-precision metal automotive speaker grills and covers . Our advanced etching technology ensures burr-free, flat, and highly detailed metal mesh patterns , providing excellent acoustic transparency and aesthetic appearance for premium car audio systems. Unlike
맞춤형 정밀 금속 에칭 가공 정밀 금속 부품 초박형 금속 심
Custom precise metal component via metal etching processing We specialize in precision metal etching processing, offering clients one - stop customized services that cover etching processing, stamping procesing and surface treatment etc. from prototype to mass production. Leveraging advanced Photochemical Metal Etching technology, we can achieve micron - level tolerance control. This enables our services to be widely applied in high - precision fields such as electronics,
화학적 발사 고성질의 연료전지용 양극판
Chemical Etching Bipolar Plates for Fuel Cell with High Corrosion Resistance Bipolar Plates Overview Xinhaisen Technology specializes in manufacturing high-performance chemically etched bipolar plates for fuel cells, flow batteries, and other electrochemical applications. Our precision etching process enables complex flow field patterns with exceptional dimensional accuracy and surface quality. Bipolar Plates Features Complex, Burr-Free Channels: Creates intricate, multi
자동 연료 전지를 위한 광화학 에칭 주문 금속 양극판
Photochemical Etching Custom Metallic Bipolar Plates For Automotive Fuel Cells Product Description of Etching Metallic Bipolar Plates Our Precision Metal Etching Bipolar Plate for Automotive Fuel Cells 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.
PEM 연료 전지용 맞춤형 에칭된 0.1mm 초박형 금속 바이폴라 플레이트
Custom Etched 0.1mm Ultra Thin Metallic Bipolar Plates for PEM Fuel Cell Descriptions of Etched Metallic Bipolar Plate: The bipolar plate distributes reactant gases, conducts electrons, and optimizes flow channels via corrosion-resistant materials (graphite/coated metals) for durable, cost-effective fuel cell performance. Specifications of Etched Metallic Bipolar Plate: Material Options Aluminum, stainless steel, titanium, copper, nickel alloys Thickness Range 0.1 mm to 3.0
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
