"precision metal etching"
プロフェッショナルなフォトエッチングサービス エネルギー、医療、自動車向けのカスタム金属部品
Professional Photo Etching Service Custom Metal Parts for Energy & Medical & Automotive With more than 13 years of expertise, Xinhaisen—an ISO 9001 and ISO 14001 certified photo chemical etching manufacturer—delivers high-precision metal parts for various industry applications. Our state-of-the-art PCE process enables the production of burr-free, stress-free, and ultra-flat parts with micron-level tolerances, ensuring full compliance with strict medical standards. Xinhaisen's
高精度ステンレス鋼 フィルタリングのための写真刻印の繊細金属フィルター網膜
High Precision Stainless Steel Photo-etched Fine Metal Filter Mesh Screen For Filtration Our high precision stainless steel photo-etched filter mesh screens are manufactured using advanced photo chemical etching technology , enabling the production of ultra-fine, burr-free filtration components with excellent dimensional accuracy and consistency. Compared with woven wire mesh or mechanically punched screens, chemical etching provides superior control over micro hole geometry
メキシコ市場向けにカスタマイズされた化学エッチングされた外科用シェービングブレード
Chemical Etched Surgical-Grade Shaving Blades Tailored for the Mexican Market Product Overview Our precision shaving razor blades are engineered for exceptional sharpness, durability, and consistency. Manufactured using advanced chemical etching technology, these blades offer superior performance for both consumer and professional grooming tools. We specialize in producing ultra-thin, ultra-sharp blades with complex edge geometries that ensure a smooth, comfortable, and close
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
自動車サウンドを強化するための高精度ステンレス鋼スピーカーグリルのエッチングのカスタムサービス
Custom Service for Etching Premium Precision Stainless Steel Speaker Grill For Enhanced Automotive Sound Xinhaisen is one of the market-leading supplier of photo-etched speaker grilles in China, including BYD and Honda etc.. Our chemical etching process specialises in providing high-quality, high-aesthetic interior trim components. Speaker Grilles in Car Audio: Key Role of Metal Designs Speaker Grilles in Automotive Audio: Metal's Vital Role Modern car audio systems require
オプティカルディスクエンコーダのためのカスタム化学エッチングサービス
Chemical Etching Custom High Precision 0.05-1.0mm Metal Optical Encoder Disc High Precision Metal Optical Encoder Disc: Using photo chemical etching machining technique, Xinhaisen manufactures custom metallic encoder discs with customer’s drawings. So that we can fabricate metal encoder discs with a wide variety of precise patterns, such as, capacitive encoder disc, optical encoder disc, reflective encoder disc, and magnetic encoder disc etc. Specifications of High Precision
304 316L ステンレス鋼 フォトケミカル エッチング エッチドフィルターメッシュ メーカー
304 316L Stainless Steel Photochemical Etching Etched Filter Mesh Manufacturer Brief Introduction of Etched Filter Mesh: The High Precision Metal Chemically Etched Filter Mesh is an advanced filtration solution crafted for demanding industrial uses. Utilizing state-of-the-art chemical etching methods, it delivers micron-level precision, smooth edges, and exceptional filtration performance. Perfect for tasks requiring accuracy, corrosion resistance, and extended service life.
金属化学エッチングフローフィールドプレート 印刷回路熱交換器 メーカー
Metal Chemical Etching Flow Field Plates for Printed Circuit Heat Exchanger Manufacturing Xinhaisen utilizes the photochemical etching process to produce flow plates for printed circuit heat exchangers (PCHEs), enabling the creation of precise microchannels and intricate designs. Description of Flow Field Plates for Printed Circuit Heat Exchangers What is Printed Circiut Heat Exchangers? The Printed Circuit Heat Exchanger (PCHE), or Diffusion Bonded Compact Heat Exchanger
Etching Ultra Thin Vapor Chamber for Efficient Heat Dissipation in Slim Consumer Electronics
Ultra-Precision Dimensional Control This ultra-thin heat spreader employs advanced precision machining technology to achieve dimensional tolerances as tight as ±0.01mm—a level of accuracy unmatched in thermal management components. Its core advantage lies in consistently machining ultra-thin metal sheets down to 0.02mm thickness. Whether working with copper, aluminum, or stainless steel, it maintains material integrity while realizing complex three-dimensional cavity
電子機器と航空宇宙のための超精密な彫刻金属シームとスペース
Ultra-Precise Etched Metal Shims & Spacers for Electronics and Aerospace Metal Shims Overview Xinhaisen specializes in manufacturing high-precision metal shims through advanced chemical etching. Our shims are engineered for superior sealing, insulation, and spacing in demanding applications across various industries. We ensure exceptional flatness, burr-free edges, and consistent quality, making them a reliable solution for your most critical assemblies. Manufacturing Process
0.6mm 厚さ マイクロフローチャネル メタリック・バイポーラ・プレート
Titanium Etching Service For Custom 0.6mm Micro Flow Channel Metallic Bipolar Plate Titanium etching services are dedicated to manufacturing customised titanium metal bipolar plates featuring ultra-fine flow channels for high-end applications such as hydrogen fuel cells and electrolytic cells through precision chemical etching processes. This represents a technical solution pursuing high performance, lightweight construction and extended service life within demanding
精密なステンレス鋼写真エッチング 0.6mm カスタムマイクロフローチャネル金属双極板
Precision Stainless Steel Photo Etching for 0.6mm Custom Micro Flow Channel Metallic Bipolar Plates This product is a customized microchannel metallic bipolar plate manufactured using advanced precision photochemical etching technology on 0.5-1.0mm thick stainless steel sheet. Designed specifically as a core component for high-performance fuel cells, electrolysers, and other electrochemical devices, it represents an ideal solution for achieving efficient energy conversion and
