"photochemical etching process"
OEM/ODM メタルエッチング ウォッチダイアル & ステンレス鋼工業用ダイアル
OEM/ODM Metal Etching Watch Dials & Stainless Steel Industrial Dials Dials Overview Xinhaisen specializes in manufacturing precision-etched dials for instrumentation, control systems, and industrial equipment. Our chemical etching process produces burr-free dials that outperform laser engraving or screen printing in longevity and clarity. Ideal for applications requiring precise readability under harsh conditions. Manufacturing Process Our watch dials are crafted using a
要求の厳しい英国市場用途向けの超精密性能を備えた高度な金属エッチングブレード
Advanced Metal Etching Blades with Ultra-Precise Performance for Demanding UK Market Applications Metal Blades Overview Our precision metal blades are manufactured using advanced chemical etching technology, catering to applications demanding extreme sharpness, dimensional accuracy, and material integrity. Ideal for intricate cutting, slicing, or delicate material handling, these blades are engineered for consistency and reliability in high-performance environments.
日本製水素燃料電池用化学エッチングステンレス鋼/チタンバイポーラプレート
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
高精度化学エッチング フロープレート プリント基板熱交換器用
High Precision Chemical Etching Custom Printed Circuit Heat Exchanger Plates Xinhaisen adopts photochemical etching process to manufacture flow plates for printed circuit heat exchangers (PCHEs), with high accuracy micro channels and complex patterns. Description of Flow Plates for Printed Circuit Heat Exchangers What is Printed Circiut Heat Exchangers? Printed Circuit Heat Exchanger (PCHE) , also referred to as Diffusion Bonded Compact Heat Exchanger (DCHE) , is a next
燃料電池用フォトレジストニッケルエッチングプレート 0.5-3.0mm厚
Photo Chemical Nickel Etching Plates 0.5-3.0mm Thickness for Fuel Cells Product Overview Xinhaisen Technology specializes in high-precision nickel etched plates and components for industries demanding exceptional corrosion resistance, electrical conductivity, and durability. Using advanced chemical etching processes, we fabricate complex geometries with micron-level accuracy in pure nickel and nickel alloys. Product Features Extreme Precision & Complexity: Achieve fine
医療、航空宇宙、電子機器産業向けカスタムチタンエッチング部品
Custom Titanium Etched Products for Medical, Aerospace & Electronics Industries Titanium Etching Overview Xinhaisen Technology offers professional titanium etching services for manufacturing high-precision, custom titanium parts. Our advanced chemical etching process ensures exceptional accuracy, burr-free edges, and stress-free parts, making us the ideal partner for industries requiring complex geometries and strict tolerances. We support prototyping to mass production with
機械部品のための高精度不?? 鋼,銅,アルミシームのプロメタルエッチング
Professional Metal Etching High Precision Stainless Steel, Copper, Aluminum Shims for Machinery Parts Shims&Gasket are generally placed into an empty space to provide support and / or balance, the chemical etching process offers high precision parts, that have a burr free finish and has low cost tooling. Photo chemical etching shims and spacers are made from various grades of steel, traditionally mild steel, carbon steel and stainless steel. Specifications of Metal Etching
イスラエル市場向けマイクロエッチングフィルタースクリーンとステンレス鋼フィルターメッシュ
Micro-Etched Filter Screens & Stainless Steel Filter Meshes for Israel Market Filter Mesh Overview Our Precision Etched Filter Mesh is a high-accuracy metal mesh manufactured using advanced chemical etching technology. It is designed for demanding filtration, screening, and flow control applications across various industries, offering superior consistency and design freedom compared to traditional woven or stamped meshes. Manufacturing Process We produce our filter meshes
トルコ市場向けに幅広い材料の選択を伴う化学刻製金属スペーサー/ガスケット
Chemical Etched Metal Spacers/Gaskets With Wide Material Selection for Turkish Market Metal Gaskets Overview Xinhaisen specializes in the design and manufacturing of high-precision etched metal gaskets. Utilizing advanced chemical etching processes, we produce gaskets with exceptional accuracy, complexity, and consistency. Our metal gaskets serve as critical sealing, spacing, insulating, or shielding components in a wide range of demanding applications, from consumer
高品質のステンレス鋼ティーメーカー用化学エッチング茶漉し
Chemical Etching Stainless Steel Tea Strainers with High Precision Tea Strainer Overview Xinhaisen Technology crafts high-performance stainless steel tea strainers using advanced chemical etching technology. Our precision-etched mesh delivers optimal tea infusion while ensuring durability, easy cleaning, and elegant designs for both commercial and home use. Manufacturing Process We produce our tea strainers through a precise photochemical etching process: Material Selection:
±0.01mmの公差でステンレス鋼製カミソリ刃を化学エッチング
Custom Stainless Steel Razor Blades by Precision Chemical Etching with ±0.01mm Tolerance Razor blades Overview Xinhaisen Technology specializes in precision chemical etching for high-accuracy metal parts. Our razor blades are just one example of the many precision products we produce through our advanced photo chemical machining (PCM) process. With over a decade of expertise, we deliver burr-free, stress-free, and dimensionally stable parts that meet the highest industrial
携帯電話のスピーカーおよび受話器用のフォトケミカルエッチング音響メッシュ
Photo Chemical Etching Acoustic Meshes for Mobile Phone Speakers and Earpieces Speaker Meshes Overview Mobile phone speaker mesh, a critical metal acoustic part, is a precision-etched metal screen manufactured by Xinhaisen. It ensures optimal sound transmission while protecting internal parts from dust and debris. These meshes are essential for delivering clear, high-fidelity audio in modern smartphones and portable electronic devices. Manufacturing Process The mesh is
