RF+DC Magnetron Ion Sputtering Coater Coating Machine For Non-Metals, Oxide, Ceramics

RF+DC  Magnetron Ion Sputtering Coater Coating Machine For Non-Metals, Oxide, Ceramics     Model: TMAX-BY-JS12| – Product Specifications Technical Specifications Parameter Specification Vacuum Pump System Rotary Vane Pump (Oil-lubricated) + Oil-Free Turbo Molecular Pump Set Rotary Pump Speed 50Hz: 16m³/h (4.4 L/s) | 60Hz: 19.2m³/h (5.2 L/s) Molecular Pump Speed 300 L/s Ultimate Vacuum 5 × 10⁻⁴ Pa Working Pressure 0.5 – 5 Pa Pump-Down Time >10 min (to 10 Pa) Vacuum Measurement Range: Atmosphere to 10⁻⁴ Pa Gas Control Mass Flow Controller (MFC) Chamber Size φ260mm × 200mm (Metal Chamber) Magnetron Target Source Target Size: φ50mm × 3mm (Copper)  Compatible with Weakly Magnetic Materials Operation Method Manual Control (Instruction Manual Provided) Weight / Dimensions 100kg / 610mm (L) × 420mm (W) × 490mm (H) Power Supply AC 110V 60Hz or AC 220V 50Hz Power Consumption <3000W Cooling System Air Cooling (Pump) + Water Cooling (Sputtering Target) Warranty 1-Year Limited Warranty with Lifetime Technical Support Key Features & Applications Core Advantages 1. Multi-Mode Sputtering Supports RF (Radio Frequency), DC (Direct Current), and RF+DC Hybrid modes for conductive, insulating, and composite material coatings. 2. High Vacuum Stability Turbo molecular pump (300 L/s) combined with a rotary pump ensures an ultimate vacuum of 5×10⁻⁴ Pa, guaranteeing high-purity and uniform films. 3. Flexible Compatibility ·Chamber size (φ260mm × 200mm) accommodates small to medium-sized samples. ·φ50mm target supports copper and weakly magnetic materials for diverse applications. 4. Efficient Cooling System ·Water-cooled target minimizes thermal load during high-power sputtering. · Air-cooled pump reduces maintenance costs for continuous operation. Typical Applications ·Research Fields Thin film deposition, nanostructured coatings, semiconductor device development. ·Industrial Uses Optical coatings, wear-resistant layers, surface modification of electronic components.       html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; } html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; } html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; }

Small Multi-target Metal Ion Sputtering Coater Machine

Small Multi-target Metal Ion Sputtering Coater Machine  TMAX-BY-JS11-Triple-Target Ion Sputtering Coater – Product Specifications Key Features · Triple-target design for multi-material deposition in a single run · DC sputtering technology ensures reliable, high-quality thin-film coating · Versatile applications for SEM sample preparation, conductive layer coating, and protective film deposition · Adjustable parameters (gas, current, vacuum) for optimized film properties Technical Specifications Parameter Details Target Materials Standard: Au (50mm × 0.1mm)   Optional: Ag, Al, Pt, and more Target Size 47mm diameter Control Mode Manual operation Chamber Dimensions Ø160mm × 120mm (H) Sample Stage Adjustable (Ø50mm/70mm standard, customizable) Sputtering Gas Ar, N₂, and others (selectable for different applications) Sputtering Current Max 50mA (recommended ≤30mA) Deposition Rate >40nm/min Vacuum System High-performance vacuum pump included Why Choose this? ✔ Multi-material coating – Deposit three different materials without breaking vacuum ✔ Enhanced SEM imaging – Reduces charging effects on non-conductive samples ✔ Precision control – Adjustable gas flow, current, and vacuum for optimal film uniformity ✔ Wide compatibility – Supports biological, polymer, and advanced material samples Applications · Electron-beam-sensitive samples (e.g., biological, polymers): Protective coating prevents beam damage · Non-conductive samples: Eliminates charging effects for crisp SEM imaging · Advanced materials research: Electrode fabrication and thin-film studies Standard Package Includes · Main unit with triple-target configuration · Gold target (50mm × 0.1mm) · High-performance vacuum pump · Adjustable sample stage (50mm/70mm) Optional Accessories · Additional target materials (Ag, Al, Pt, etc.) · Custom sample stage sizes Note: This machine is ideal for research labs, material science, and electron microscopy applications. Custom configurations available upon request. Optimized for Performance · Designed for Researchers (For detailed inquiries, contact our technical team for tailored solutions.)       html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; } html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; }

Auto Vaccum DC Sputter Coater For Multilayer Thin Film Fabrication

Auto Vaccum DC Sputter Coater For Multilayer Thin Film Fabrication       Model: TMAX-BY-JS10 – Product Specifications 1. Technical Specifications Table Parameter Specification Model Number TMAX-BY-JS10 Vacuum Pump Oil-required Rotary Vacuum Pump (Explicit oil filling needed) Pumping Speed 50Hz: 16 m³/h (4.4 L/s) • 60Hz: 19.2 m³/h (5.2 L/s) • 20% speed boost at 60Hz Ultimate Vacuum 2 Pa Max Sputtering Current 1.6A Operating Pressure Range 20 Pa – 8 Pa Pump-Down Time <5 min (to 2 Pa) Vacuum Measurement Range Atmospheric pressure to 2×10⁷ mbar Gas Control System Precision Gas Flow Controller Chamber Specifications Ø350 × 240mm (H) • Scratch-resistant quartz glass viewport Target Specifications Ø200mm • Materials: Au, Ag, Pt, Cu (noble/conductive metals) Operation Instruction manual guided Dimensions/Weight 490(L) × 400(W) × 590(H) mm • 70 kg Power Requirements Dual-voltage: AC 110V/60Hz (Americas) or AC 220V/50Hz (Europe/Asia) Power Consumption <1500W Warranty & Support 1-year limited warranty + lifetime technical support 2. Key Features & Competitive Advantages Precision-Oriented Design · Dual-Frequency Pumping: Automatically adapts to 50Hz/60Hz power grids (19.2 m³/h vs 16 m³/h) for global compatibility. · Scratch-Resistant Quartz Viewport: Ensures long-term visibility during deposition without degradation. · Oil-Lubricated Vacuum Pump: Delivers stable 2 Pa base pressure (vs. dry pumps), critical for consistent thin-film quality. Material Versatility · Broad Target Compatibility: Supports Au/Ag/Pt/Cu targets for conductive/noble metal coatings. · Rapid Process Setup: <5-minute pump-down enables efficient batch processing. User-Centric Engineering · Global Voltage Support: No external converter needed for 110V/220V operation. · Compact Footprint: Benchtop design (0.49×0.4×0.59m) saves lab space.       html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; } html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; }

PVD DC Sputtering Coating System For Oxides & Ceramics & Semiconductors

PVD DC Sputtering Coating System For Oxides & Ceramics & Semiconductors   Model: TMAX-BY-JS09| – Product Specifications Product Overview The TMAX-BY-JS09 is a compact, high-vacuum magnetron sputtering system specifically designed for glovebox-integrated applications. Its space-saving flush-mount design allows the observation window to align perfectly with the glovebox wall, eliminating internal space occupation—a common limitation of traditional sputtering systems. Since its launch, this system has been widely adopted by research institutions for its efficiency and precision. Technical Specifications Category Specification Vacuum System Rotary vane pump (oil) + Turbo molecular pump (oil-free) Pumping Speed Rotary pump: 16 m³/h (4.4 L/s) @50Hz / 19.2 m³/h (5.2 L/s) @60Hz  Turbo pump: 300 L/s Ultimate Vacuum 5×10⁻⁵ Pa Working Pressure 0.5–5 Pa Pump-Down Time ≤10 min (to 10⁻³ Pa) Vacuum Measurement From atmosphere to 10⁻⁶ Pa Gas Control Precision gas flow controller Chamber Size φ260 mm × 200 mm (metal) Sputtering Target φ50 mm × 3 mm (Cu target); suitable for weakly magnetic materials Power Supply AC 220V 50Hz or AC 110V 60Hz Power Consumption ≤3000 W Cooling System Air cooling (pump) + Water cooling (sputtering target) Dimensions & Weight 610 mm (L) × 420 mm (W) × 490 mm (H) / ~100 kg Warranty 1-year limited warranty, lifetime technical support Key Features & Customer Benefits 1. Space-Saving Glovebox Integration · Problem Solved: Traditional sputtering systems occupy valuable glovebox space, limiting workflow efficiency. · Our Solution: The flush-mounted design minimizes protrusion, allowing seamless integration without compromising internal workspace—ideal for labs with limited glovebox capacity. 2. High-Performance Vacuum & Fast Pump-Down · Achieves 5×10⁻⁵ Pa ultimate vacuum, ensuring ultra-clean deposition conditions for sensitive materials (e.g., semiconductors, optical coatings). · Rapid pump-down (≤10 min to 10⁻³ Pa) reduces idle time, enhancing lab productivity. 3. Precision Process Control · Stable gas flow control enables repeatable deposition rates, critical for uniform thin-film growth. · Broad vacuum measurement range (atmosphere to 10⁻⁶ Pa) ensures accurate monitoring across all process stages. 4. Versatile Material Compatibility · Supports argon and other process gases for reactive/non-reactive sputtering. · Accommodates 50mm targets (Cu standard, customizable for weakly magnetic materials). 5. Reliable Cooling & Safety · Hybrid air + water cooling prevents overheating during extended operation, ensuring system longevity.       html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; }

High-Precision PVD Magnetron Sputtering & Thermal Evaporation Carbon Coating Machine

High-Precision PVD Magnetron Sputtering & Thermal Evaporation Carbon Coating Machine     Dual-function SEM Sample Preparation Instrument 1. Technical Specifications Vacuum System Parameter Specification Rotary Pumping Speed 50 Hz: 8 m³/h (2.2 L/s) / 60 Hz: 9.6 m³/h (2.6 L/s) Vacuum Limit 2 Pa Max Sputtering Current 100 mA Max Evaporation Current 100 A Sputtering Working Pressure 20 Pa – 8 Pa Evaporation Working Pressure 6 Pa – 4 Pa Working Vacuuming Time < 5 min (to 2 Pa) Vacuum Measurement Atmosphere to 2×10 mbar Gas Control Gas Flow Controller Chamber Size Ø150 × 120 mm (height), scratch-resistant quartz glass Magnetron Target Source Ø50 × 0.1 mm (Au) / Optional: Au, Ag, Pt Evaporation Target Source Carbon Rope Operation Method Manual (instruction manual included) Dimensions (Main Unit) 360 mm (L) × 300 mm (W) × 380 mm (H) Dimensions (Evaporation Unit) 360 mm (L) × 300 mm (W) × 160 mm (H) Weight 55 kg Power Supply AC 110V 60Hz or AC 220V 50Hz Power Consumption < 2000 W Cooling Method Air Cooling (Evaporation) + Water Cooling (Sputtering) Warranty 1-year limited warranty with lifetime product support Sputtering Parameters · Sputtering Targets: Au (standard), optional Ag, Pt, Cr, Al, Cu · Target Size: Ø50 mm · Sample Stage: Adjustable height, accommodates Ø50 mm and Ø70 mm samples (customizable) · Sputtering Voltage: 0–1600 V (DC, adjustable) · Sputtering Current: 0–50 mA · Sputtering Time: 0–360 s Evaporation Parameters · Evaporation Material: Carbon fiber rope · Evaporation Current: 0–100 A (AC) · Evaporation Voltage: 0–30 V · Evaporation Time: 0–1 s · Micro Vacuum Valve: Compatible with Ø3 mm tubing General · Input Voltage: 220 V (110 V optional), 50 Hz · Vacuum Pump: 2 L/s rotary vane pump (domestic VRD-8) 2. Key Features Dual-Function Advantages · Integrated Design: Combines metal sputtering and carbon evaporation in one compact system · Process Flexibility: Switch between conductive metal coatings (Au/Ag/Pt) and ultra-thin carbon films · Time Efficiency: 5-minute pump-down enables rapid sample processing User-Centric Design · Transparent chamber for real-time monitoring · Ergonomic controls with preset programs · Tool-free target replacement system html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; 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Versatile Magnetron Sputtering Coater For Conductive Metal Thin Film Layer Deposition

Versatile Magnetron Sputtering Coater For Conductive Metal Thin Film Layer Deposition   Model: TMAX-BY-JS06-Benchtop System for R&D and Educational Laboratories Overview The TMAX-BY-JS06 is a compact, cost-effective, high-vacuum magnetron sputtering system designed for pilot-scale experiments in research and educational laboratories. It integrates key components, including a sputtering vacuum chamber, permanent magnet targets (strong/weak magnetic fields), a fiber-optic rotary stage (customizable), DC power supply, gas supply system, pumping system, water cooling system, film thickness monitoring, vacuum measurement, electronic control system, and a sturdy mounting frame. Key Parameters Parameter Specification Sputtering Gas Adjustable (e.g., argon, nitrogen, etc., depending on experimental requirements). Target Material Standard: Gold target; Optional: Silver, copper, chromium, etc. Target Configuration 50mm (weak magnetic target) / 60mm (strong magnetic target). Sputtering Current 0–500mA Ultimate Vacuum ≤5×10−4 Pa Chamber Dimensions Diameter: 180mm; Height: 200mm Sample Stage Fiber-optic rotary stage (customizable). Operating Voltage 230V, 50Hz Applications & Features 1. Coating for Electron Beam-Sensitive Samples · Ideal for: Biological specimens, polymers, and other beam-sensitive materials. · Advantage: In SEM imaging, high-energy electron beams can cause thermal damage to delicate samples. A thin sputtered conductive coating (e.g., gold or carbon) acts as a protective layer, preserving sample integrity while enhancing imaging quality. 2. Non-Conductive Samples · Ideal for: Insulating materials (e.g., ceramics, glass, or organic compounds). · Advantage: Non-conductive samples accumulate surface charges ("charging effect") under electron beams, distorting SEM images. A sputtered conductive metal layer (e.g., gold or platinum) dissipates charges, eliminating artifacts and improving signal-to-noise ratio for clearer imaging. 3. Electrode Fabrication & Conductivity Studies · Ideal for: Novel materials requiring conductive electrodes for electrical property analysis. · Advantage: Enables precise deposition of thin conductive films for experimental electrode fabrication, facilitating studies on material conductivity.     html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; 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} img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; } html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; 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Glovebox Dual-Target Sputtering Coating Machine Coater For Oxides & Ceramics & Semiconductors

Glovebox Dual-Target Sputtering Coating Machine Coater For Oxides & Ceramics & Semiconductors     Model: TMAX-BY-JS05 – Product Specifications 1. System Overview The TMAX-BY-JS05 is a compact, benchtop magnetron sputtering system designed for high-performance thin-film deposition in research and laboratory environments. Featuring a dual-target configuration, it supports the deposition of single or multilayer functional films, including conductive, dielectric, optical, and hard coatings. The system combines high vacuum performance, precise process control, and user-friendly operation, making it ideal for material science, semiconductor research, and advanced coating development. 2. Technical Specifications 2.1 General Parameters Parameter Specification Model TMAX-BY-JS05 Type Benchtop Laboratory System Dimensions (W×D×H) 610 × 420 × 490 mm Weight 100 kg Power Supply AC 220V 50Hz / 110V 60Hz Power Consumption <3 kW Cooling Method Water-cooled (target) + Air-cooled (pump) Warranty 1 year limited (lifetime support) 2.2 Vacuum System Parameter Specification Pump Configuration Rotary Pump (4.4 L/s) + Turbo Pump (300 L/s) Base Pressure ≤5×10⁻⁵ Pa Working Pressure 0.5–5 Pa Pump-Down Time (to 10⁻³ Pa) ≤10 minutes Vacuum Measurement Full-range gauge (Atmosphere to 10⁻⁵ Pa) 2.3 Deposition System Parameter Specification Target Configuration Dual magnetron targets (independent control) Target Size Ø50 × 3 mm (standard: Cu & Al) Target Materials Metals, alloys, oxides, ceramics Magnetic Compatibility Weak magnetic materials supported Deposition Rate Adjustable (process-dependent) 2.4 Process Control Parameter Specification Gas Flow Control Mass flow controller (Ar/other inert gases) Power Supply DC: 0–600V, 0–1.6A; RF: 300W/500W (optional) Thickness Monitoring Real-time touchscreen control with 257 preloaded materials Operation Interface Dual-screen VPI control system 2.5 Chamber & Substrate Parameter Specification Chamber Material Stainless steel Chamber Dimensions Outer: Ø260 × 500 mm; Inner: Ø210 × 270 mm Substrate Holder Customizable (max Ø200 mm) 3. Key Features & Benefits · Dual-Target Flexibility: Enables co-deposition or sequential layering of dissimilar materials (e.g., metal/oxide stacks). · High Vacuum Performance: Achieves 5×10⁻⁵ Pa base pressure for contamination-free films. · Precision Control: Touchscreen interface with real-time thickness monitoring and gas flow regulation. · Compact Design: Optimized for small labs with limited space. · Material Versatility: Supports metals, oxides, polymers, and magnetic materials.   html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; } html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; 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Lab Ion Sputtering & Evaporation PVD Coater Machine for SEM for Glove Box

Lab Ion Sputtering & Evaporation PVD Coater Machine for SEM for Glove Box    TMAX-BY-JS03- Ion Sputtering & Evaporation Coater for SEM Specification Integrated with sputtering and thermal evaporation functions, this compact and user-friendly instrument is designed for high-quality thin-film deposition, particularly for SEM sample preparation. It supports multiple metal targets for sputtering and carbon fiber evaporation, offering precise control over coating parameters. Technical Specifications Parameter Value Dimensions 305 mm × 400 mm × 390 mm (W×D×H) Vacuum Chamber Material Borosilicate glass, 160 mm × 110 mm (D×H) Target (Upper Electrode) 50 mm × 0.1 mm (D×H) Sputtering Targets Au (standard), optional Ag, Pt, etc. Target Size φ50 mm Sample Stage Compatible with 50 mm/70 mm diameter; customizable Sputtering Voltage 0–1600 V (DC), adjustable Sputtering Current 0–50 mA Sputtering Timer 0–360 s Carbon Evaporation Current 0–100 A (AC) Evaporation Material Carbon fiber Evaporation Voltage 0–30 V Evaporation Time 0–1 s Gas Inlet Valve Compatible with φ3 mm tubing Process Gases Multiple options Power Supply 220 V (110 V optional), 50 Hz Vacuum Pump 2L rotary vane pump (VRD-8, domestic) Key Features 1. Dual-Function Design ·Combines ion sputtering (Au, Pt, Ag, Cu, etc.) and thermal evaporation (carbon fiber) for versatile applications. ·Ideal for high-resolution microscopy (SEM, TEM, EBSD) requiring ultra-fine carbon films (<1 nm). 2. Precision Control ·Adjustable sputtering current, vacuum pressure, and gas selection to optimize coating rate and particle size. ·Digital timer for reproducible processes. 3. Enhanced Sample Protection ·Conductive coatings eliminate charging effects in non-conductive samples. ·Carbon films protect beam-sensitive materials (e.g., biological/plastic samples) from electron beam damage. 4. Efficiency & Reliability ·Compact footprint with automated vacuum protection to prevent short circuits. ·Uniform film deposition with short processing time. Applications · Electron Beam-Sensitive Samples (e.g., polymers, biological tissues): Coating mitigates structural damage. · Non-Conductive Materials: Metal layers (Au, Pt) dissipate charge, improving SEM imaging. · Advanced Materials: Enhances conductivity and surface analysis (EBSD, microprobe) for semiconductors/composites. html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; 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Mini DC Ion Sputtering Carbon Coater Coating Machine System

Mini DC Ion Sputtering Carbon Coater Coating Machine System     Product Overview The TMAX-BY-JS02 Ion Sputtering Coater is a DC (direct current) sputtering deposition system based on a two-electrode DC sputtering principle—a simple, reliable, and cost-effective coating technology widely adopted in industrial applications. Beyond its fundamental design, the TMAX-BY-JS02 features: · A dedicated sample sputtering chamber · Vacuum gauge and sputtering current meter · Adjustable sputtering current controller · Micro vacuum valve and timer · Integrated automated circuitry for precise control of chamber pressure, ionization current, and process gas selection, ensuring optimal coating quality. Key Innovations · Durable rubber-sealed bell jar design prevents vacuum leakage and edge chipping during prolonged use. · Ceramic-sealed high-voltage electrode outperforms conventional rubber seals in longevity. · Large-capacity sputtering chamber and optimized target area ensure uniform, contaminant-free coatings. · High-stability solenoid valves and a dual-gas-path automatic control system enhance sample protection and film quality. Ideal for: · SEM sample preparation in electron microscopy labs · Electrode fabrication for R&D research Technical Specifications Parameter Details Sputtering Gas Argon, nitrogen, or other gases (selectable per experiment) Target Material Standard: Gold target (50mm × 0.1mm thick). Optional: Silver, platinum, etc. Sputtering Current Max: 50mA Deposition Rate >4nm/min Chamber Dimensions Ø160mm × 120mm (H) Sample Stage Compatible with Ø50mm and Ø70mm stages (customizable) Power Supply 220V AC (110V optional), 50Hz   Features Highlight 1. Leap Vacuum Pump: High-performance pumping for consistent vacuum levels. 2. Dual-Gas Control: Isolated gas paths safeguard sample integrity. 3. User-Centric Design: Timed sputtering, adjustable parameters, and modular stage options streamline operation. Note: Parameters are default for standard configuration. Customizations (e.g., target materials, voltage) available upon request.   html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; } html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; } html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; } html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; }

Manual & Auto Lab Sputter Coater for Low Temperature SEM Carbon Preparation

Manual & Auto Lab Sputter Coater for Low Temperature SEM Carbon Preparation   Model: TMAX-BY-JS01 DC Ion Sputtering Coater Introduction The TMAX-BY-JS01 Ion Sputtering Coater is designed for high-quality SEM sample preparation. Compared to conventional sputtering systems, it features magnetron sputtering technology, making it suitable for temperature-sensitive samples (e.g., thin films, rubber). The system offers automatic/manual operation modes, adjustable vacuum control, and auto-venting functionality, with optional rotary sample stage compatibility. Its user-friendly interface and stable performance make it ideal for universities and research institutes.     Key Specifications Parameter Value Dimensions (Main Unit) 510mm (L) × 310mm (W) × 290mm (H) Target Material Au, 50mm (D) × 0.1mm (H) Sample Chamber Glass chamber, Ø180mm × 120mm (H) Sample Stage Diameter Ø70mm (rotary stage optional) Target Size Ø50mm Ultimate Vacuum 1 Pa Operating Vacuum 2–15 Pa Sputtering Current 0–50 mA (adjustable) Timer Digital, 0–600 sec Coating Area 50mm diameter Deposition Rate 0–60 nm/min Vacuum Measurement Pirani gauge Touchscreen 4-inch HMI interface Gas Compatibility Supports multiple gases Mechanical Pump VRD-8 Power Consumption 100 W     Features & Applications 1. Magnetron Sputtering Technology · Enables low-temperature coating for delicate samples (e.g., polymers, biological specimens). · Stable target design ensures uniform film deposition. 2. Dual Operation Modes · Automatic mode: Streamlines repetitive tasks. · Manual mode: Offers flexibility for customized protocols. 3. Adjustable Sputtering Modes · Standard/gentle startup accommodates sensitive materials. 4. Intelligent Vacuum Control · Auto-pressure stabilization eliminates manual adjustments and reduces coarse grain formation. 5. User-Friendly Interface · Simplified/advanced UI options cater to users of all experience levels. 6. Optional Rotary Stage · Enhances coating uniformity for complex geometries.     Typical Applications · SEM sample preparation (metals, ceramics, polymers). · Thin-film deposition for research in materials science, life sciences, and nanotechnology.         html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; } html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; } html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; }

PVD Magnetron Sputtering System For Thin Film Deposition In Research, Semiconductor Prototyping and Optical Coating

PVD Magnetron Sputtering System For Thin Film Deposition In Research, Semiconductor Prototyping and Optical Coating   Model: Lith-SD-JS02-Sputtering System for Research Labs, Semiconductor Prototyping, and Optical Coating Product Overview The Plasma Magnetron Sputtering System (Model: TMAX-SD-JS02) is a compact, user-friendly instrument designed for high-quality thin film deposition. With a quartz chamber (150 × 120 mm) and a maximum sputtering rate of 8 nm/min, it is ideal for research and small-scale production requiring precise, uniform coatings. Compatible with inert gases (Ar, N₂) and versatile metal targets (Au, Ag, Pt, etc.), this system combines efficiency with advanced operational features. Technical Specifications Parameter Specification Quartz Chamber Size 150 × 120 mm Sample Stage Size 70 mm (diameter) Sputtering Area 50 mm (diameter) Max. Vacuum Degree 5 Pa Process Gases Argon, Nitrogen (flow rate adjustable) Max. Sputtering Rate 8 nm/min Power Consumption 200 W Dimensions (W×D×H) 360 × 310 × 150 mm Operating Temperature 0–40°C Relative Humidity < 85% Installation Horizontal desktop placement Key Features & Advantages 1. Intuitive Control & Monitoring 4.3" color touchscreen with graphical interface for real-time display of sputtering current, voltage, and vacuum levels. 2. Flexible Gas & Target Options Adjustable inert gas flow (Ar/N₂) and support for 50 mm diameter metal targets (1–2 mm thickness), enabling quick material swaps and process reproducibility. 3. Modular & User-Centric Design ·Split-type quartz chamber for easy maintenance. ·Height-adjustable sample stage (±20 mm) with rotational alignment. ·Auto-venting post-sputtering simplifies sample handling. 4. Compact & Reliable ·Space-saving footprint with multi-layered software protections for extended durability. 5. Uniform Film Quality ·Dense, homogeneous coatings compatible with noble and transition metals (Au, Ag, Pt, etc.). Target Applications · Research Labs: Thin film studies, surface engineering, and material science. · Semiconductor Prototyping: Deposition of conductive/metallic layers. · Optics & Electronics: Functional coatings for sensors or display components. Note: Optimized for small substrates (≤50 mm) and low-to-medium throughput requirements.       html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; } html {margin:0;padding:0;} body {margin:0;padding:5px;} body, td {font:12px/1.5 "sans serif",tahoma,verdana,helvetica;} body, p, div {word-wrap: break-word;} p {margin:5px 0;} table {border-collapse:collapse;} img {border:0;} noscript {display:none;} table.ke-zeroborder td {border:1px dotted #AAA;} img.ke-flash { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/flash.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-rm { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/rm.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-media { border:1px solid #AAA; background-image:url(https://www.lithmachine.com/js/htmledit/kindeditor/themes/common/media.gif); background-position:center center; background-repeat:no-repeat; width:100px; height:100px; } img.ke-anchor { border:1px dashed #666; width:16px; height:16px; } .ke-script, .ke-noscript, .ke-display-none { display:none; font-size:0; width:0; height:0; } .ke-pagebreak { border:1px dotted #AAA; font-size:0; height:2px; }

Lab Coater Coating Machine For Sodium-Ion Battery Research

Compact Tape Casting Coater with Vacuum Chuck, Adjustable Film Applicator & Dryer Cover TMAX-TMH250 is a CE Certified ready compact tape casting coater with a heating cover designed to produce films with consistent thickness. It has a unique driving system to produce a smooth coating on all types of materials. The flat vacuum chuck is built in to hold the substrate sheet in place, which is particularly useful when making thin coatings. One 100 mm width adjustable micrometer applicator (doctor-blade). Heating cover with digital temperature controller can dry films after coating up to 100°C with a temperature accuracy of +/-1°C. This equipment can be used for researchers on ceramic tape castings and Li-Ion battery electrode coating.

Lab Automatic Compact Film Coater with Vacuum Chuck&Selectable Heating Functions

Compact Tape Casting Coater with Vacuum Chuck, Adjustable Film Applicator & Dryer Cover TMAX-TMH250 is a CE Certified ready compact tape casting coater with a heating cover designed to produce films with consistent thickness. It has a unique driving system to produce a smooth coating on all types of materials. The flat vacuum chuck is built in to hold the substrate sheet in place, which is particularly useful when making thin coatings. One 100 mm width adjustable micrometer applicator (doctor-blade). Heating cover with digital temperature controller can dry films after coating up to 100°C with a temperature accuracy of +/-1°C. This equipment can be used for researchers on ceramic tape castings and Li-Ion battery electrode coating.

DC or RF High Vacuum Magnetron Ion Sputtering Coating Coater

DC or RF High Vacuum Magnetron Ion Sputtering Coating Coater   Introduction High Vacuum Magnetron Ion Sputtering Coater is ideal and designed for materials science and sample preparation. It is widely used for the majority of universities and scientific research institutes of materials science and engineering to coat, for metals, ceramics, semiconductors, insulators or other kinds of membrane material preparation. High Vacuum Magnetron Ion Sputtering Coater provides the most stable sputtering environment and achieves the basic experimental conditions of magnetron sputtering in a very short period of time. It provides DC / RF two kinds of sputtering power options which allow sputtering conductive or non-conductive substance on specimen and improves physical vapor deposition (PVD) Performance. It is also excellent for surface treatment and coating. It is easy to operate and user friendly as well. Vacuum pump and Chiller are included. Parameter Vacuum pump set (Oil required) rotary vacuum pump+(oil free) turbo moleculan pump set Rotary pumping speed 50 Hz : 16 m³/h (4.4 L/s)/ 60 Hz : 19.2 m³/h (5.2 L/s) Molecular pumping speed 300 L/s  Vacuum limit 5* 10-5 Pa Working pressure 0.5-5 Pa Vacuuming time >10 Min(10-3Pa) Vacuum measure Measuring range from atmosphere to 1*10-6 Pa Gas control Gas flow controller Chamber size φ260*200mm (height) metal Magnetron target source Target size φ 50*3mm(Cu)/target source: weak magnetic substance /materials Operation method Instruction Manual Weight/size 100kg/610mm length x 420mm wide x 490mm high Power supply AC 110V 60Hz or AC 220V 50Hz Power consumption <3000W Cooling method Air cooling(pump)+ water cooling(sputtering target) Warranty One year limited warranty with lifetime product support