"photochemical etching process"
미국 전자 산업에 대한 화학 금속 에칭 EMI 보호
Chemical Metal Etching EMI Shieldings for the US Electronics Industry EMI Shiedings Overview Xinhaisen Technology specializes in the manufacturing of high-precision metal EMI (Electromagnetic Interference) shielding parts through advanced chemical etching processes. Our shields are designed to effectively block or contain electromagnetic radiation, ensuring the optimal performance and regulatory compliance of sensitive electronic devices across various industries. Manufacturi
실험실, 제약, 커피 머신 및 HVAC를 위한 고유량, 초미세 디자인의 맞춤형 에칭 필터 메쉬
Custom Etched Filter Mesh with High-Flow, Ultra-Fine Design for Lab, Pharma, Coffee Machine & HVAC Product Overview Xinhaisen specializes in the design and manufacturing of high-precision metal filter meshes through advanced chemical etching technology. Our filter meshes are engineered to deliver exceptional performance in filtration, screening, and fluid management applications across a diverse range of industries. Ideal for demanding environments, they offer reliable
독일 시장을 위한 화학 에칭 고충실도 음향 금속 자동차 스피커 메쉬
Chemical Etched High-Fidelity Acoustic Metal Car Speaker Meshes for the Germany Market Company Profile Shenzhen Xinhaisen Technology Limited is a professional manufacturer specializing in precision metal etched components. We serve various industries including automotive, communication, medical, and home appliances. Our products include speaker meshes, metal parts for mobile phones, nameplates, filtration nets, and more. We are capable of etching a wide range of metal
일본 연료전지 및 배터리 스택을 위한 맞춤형 에칭 금속 양극판
Custom Etched Metal Bipolar Plates for Japanese Fuel Cell & Battery Stacks Product Overview Xinhaisen’s precision-etched bipolar plates are key parts for proton exchange membrane fuel cells (PEMFC) and electrolyzers. Using advanced chemical etching, we produce ultra-flat, corrosion-resistant plates with complex flow field designs. Our process ensures burr-free, stress-free plates ideal for efficient gas distribution and current collection. What Is Chemical Etching? Chemical
금속 에치드 차 인부저 & 유리 차 냄비
Metal Etched Tea Infusers & Glass Teapots with Micro- Holes for Optimal Steeping Teapot Overview Xinhaisen specializes in the manufacturing of high-precision, durable metal components for teapots. Our core products include the essential teapot filter mesh, decorative nameplates, and various internal metal parts. We utilize advanced chemical etching technology to produce components that are not only highly functional but also aesthetically superior, enhancing the user
자동차 산업용 화학적 인 에칭 금속 스피커 그릴
Chemical Etching Metal Speaker Grilles for Automotive Industry Speaker Grilles Overview Xinhaisen Technology specializes in manufacturing high-performance automotive speaker grilles through precision chemical etching. Our metal grilles combine superior acoustic transparency with rugged durability, meeting OEM standards for both aesthetic appeal and functional performance in vehicle audio systems. Speaker Grilles Features Custom Designs: Complex shapes & fast samples Excellent
모바일 장치 및 광 시스템에서 예외적인 정확도를 가진 화학적 발각 EMI 보호
Chemical Etched EMI Shieldings with Exceptional Accuracy for Mobile Devices and Optical Systems EMI Shielding Overview EMI Shieldings are precision-engineered metal parts designed to protect sensitive electronic devices from external electromagnetic radiation and prevent internal emissions from interfering with other devices. Xinhaisen specializes in manufacturing high-performance, custom-etched EMI shielding cans, frames, and covers. Our products ensure signal integrity,
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
0.02mm ~ 1.5mm 두께의 화학 에칭 니켈 부품
Chemically Etched Burr-free Precision Nickel Parts From 0.02mm to 1.5mm Thickness Chemically etched nickel components utilize precision etching technology to produce ultra-thin, lightweight parts with complex patterns for filters, meshes, and connectors. Offering exceptional durability, conductivity, and corrosion resistance, these high-accuracy components serve critical applications in aerospace, electronics, medical devices, and industry equipments. Specifications of
산업 및 상업용 고정밀 화학 에칭 필터 스크린
Chemical Etched Filter Screens for Industrial & Commercial Applications Filter Screens Overview Xinhaisen specializes in the production of high-precision metal etched filter screens. These parts are essential for filtration, separation, and protection in a wide range of industries. Utilizing advanced chemical etching technology, we manufacture screens with exceptionally fine and accurate holes, ensuring reliable performance and durability. Manufacturing Process Our filter
일관되고 편안한 성능을 제공하는 전기 면도기용 맞춤형 금속 에칭 블레이드
Custom Metal Etched Blades for Electric Shavers with Consistent & Comfortable Performance Shaver Blades Overview Our precision etched shaver blades and foils are engineered for ultimate sharpness, comfort, and durability. Using advanced chemical etching, we produce blades with incredibly sharp, burr-free edges and foils with perfectly uniform micro-holes for an exceptionally close and smooth shave. Manufacturing Process We utilize state-of-the-art photochemical etching . This
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
