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Angiography catheter
Features:
1. The tip is soft to reduce the risk of vascular injury;
2. PEBAX material, stronger configuration shape memory;
3. The port adopts a butterfly-wing ergonomic design, which is convenient to operate and more practical;
4. Good pushability and retractability, easy to control. -
Angiography Guidewire
Angiography guidewires manufactured by Demax are meticulously crafted from high-grade materials such as stainless steel or nitinol. These materials offer excellent mechanical properties, including flexibility, durability, and kink resistance, essential for navigating through tortuous vessels and performing intricate vascular procedures with precision. Additionally, some guidewires feature hydrophilic coatings to enhance lubricity and minimize friction during navigation, further improving procedural success rates and patient comfort. With their advanced composition and precision engineering, Demax angiography guidewires set the standard for excellence in vascular intervention tools, empowering healthcare professionals to deliver superior care to their patients.
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Assembly
The assembly of Intelligent Manufacturing Production Equipment at Demax is a meticulously coordinated process that ensures precision, efficiency, and reliability. It begins with the fabrication of individual components, including robotic arms, conveyor systems, CNC machines, 3D printers, smart sensors, and IoT devices, each manufactured to the highest standards of quality and precision. Once the components are ready, our skilled technicians meticulously assemble them according to the detailed design specifications. Every step of the assembly process is carefully monitored to ensure proper alignment, integration, and functionality of each component.
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Balloon Catheter
Demax Balloon Catheters are composed of high-quality materials chosen for their biocompatibility, durability, and performance characteristics. The catheter shaft is typically made from flexible materials such as polyurethane or nylon, providing the necessary strength and flexibility for navigation through the vascular or anatomical structures. The balloon material may vary depending on the application, with options including compliant materials such as polyethylene, polyvinyl chloride, or nylon, designed to inflate uniformly and withstand the pressures exerted during dilation. Additional components such as radiopaque markers, hydrophilic coatings, or drug-eluting coatings may be incorporated into the design to enhance visibility, lubricity, or therapeutic efficacy, respectively. Each component is carefully selected and assembled to ensure optimal performance, precision, and reliability in clinical settings.
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Braid & Coil Reinforcement Tube
The Demax Braid & Coil Reinforcement Tube is an innovative medical device designed to provide enhanced strength and flexibility for a wide range of medical applications. Crafted with precision and utilizing advanced materials, this reinforced tubing offers exceptional performance and reliability, making it an indispensable tool for medical professionals in various clinical settings.
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Coating
Intelligent Manufacturing Production Equipment Coating comprises a sophisticated blend of materials meticulously formulated to provide exceptional protection and durability to industrial machinery. At its core are polymer resins, engineered to imbue the coating with robustness, resilience, and adhesive properties. These resins form the backbone of the coating, ensuring it adheres firmly to the surface of the machinery, resisting peeling, chipping, or delamination over time.
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Coating
Precision Medical Tubing Services Coating from Demax involves the application of specialized coatings onto medical-grade tubing substrates to enhance their performance and functionality. These coatings may include hydrophilic coatings, hydrophobic coatings, antimicrobial coatings, drug-eluting coatings, and more, depending on the specific requirements of the medical device and application. The coating materials are carefully selected for their biocompatibility, adhesion properties, and compatibility with the substrate material to ensure optimal performance and safety. Each coating is applied using precise coating techniques to achieve uniform coverage and consistent thickness, resulting in medical tubing with enhanced lubricity, biocompatibility, and other desirable properties.
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Core wire Grinding
The core wire itself is typically made from high-grade stainless steel for strength and corrosion resistance, or Nitinol, a shape-memory alloy offering superelasticity crucial for flexible and kink-resistant guidewires and stents. Depending on the specific device needs, other specialty alloys like platinum, tantalum, and cobalt-chromium might be used for their unique properties. Additionally, the grinding process can be tailored to achieve specific surface finishes and the core wire might receive further coatings to enhance its properties and functionality within the final medical device.
-
Design
The composition of Intelligent Manufacturing Production Equipment designs by Demax is a meticulously orchestrated integration of cutting-edge technologies and specialized components. These designs typically include a combination of robotic arms, automated conveyor systems, CNC machines, 3D printers, smart sensors, and IoT devices. Each component is carefully selected and configured to optimize manufacturing processes, enhance productivity, and ensure the highest standards of quality and performance.
-
Design
The Demax mold design team has lots of experience making molds for medical devices. We use software like NX, Autocad, and Moldflow to help customers with their special needs. We optimize product designs for injection-molded parts, design molds, and improve the injection molding process. This helps reduce the number of adjustments needed for the molds and products, making the whole process faster. It also helps us check the molds and injection molding process quickly, so we can fix any problems sooner. This speeds up the whole mold development process and increases the number of good parts we can make.
-
Angiography catheter
Features:
1. The tip is soft to reduce the risk of vascular injury;
2. PEBAX material, stronger configuration shape memory;
3. The port adopts a butterfly-wing ergonomic design, which is convenient to operate and more practical;
4. Good pushability and retractability, easy to control. -
Angiography Guidewire
Angiography guidewires manufactured by Demax are meticulously crafted from high-grade materials such as stainless steel or nitinol. These materials offer excellent mechanical properties, including flexibility, durability, and kink resistance, essential for navigating through tortuous vessels and performing intricate vascular procedures with precision. Additionally, some guidewires feature hydrophilic coatings to enhance lubricity and minimize friction during navigation, further improving procedural success rates and patient comfort. With their advanced composition and precision engineering, Demax angiography guidewires set the standard for excellence in vascular intervention tools, empowering healthcare professionals to deliver superior care to their patients.
-
Assembly
The assembly of Intelligent Manufacturing Production Equipment at Demax is a meticulously coordinated process that ensures precision, efficiency, and reliability. It begins with the fabrication of individual components, including robotic arms, conveyor systems, CNC machines, 3D printers, smart sensors, and IoT devices, each manufactured to the highest standards of quality and precision. Once the components are ready, our skilled technicians meticulously assemble them according to the detailed design specifications. Every step of the assembly process is carefully monitored to ensure proper alignment, integration, and functionality of each component.
-
Balloon Catheter
Demax Balloon Catheters are composed of high-quality materials chosen for their biocompatibility, durability, and performance characteristics. The catheter shaft is typically made from flexible materials such as polyurethane or nylon, providing the necessary strength and flexibility for navigation through the vascular or anatomical structures. The balloon material may vary depending on the application, with options including compliant materials such as polyethylene, polyvinyl chloride, or nylon, designed to inflate uniformly and withstand the pressures exerted during dilation. Additional components such as radiopaque markers, hydrophilic coatings, or drug-eluting coatings may be incorporated into the design to enhance visibility, lubricity, or therapeutic efficacy, respectively. Each component is carefully selected and assembled to ensure optimal performance, precision, and reliability in clinical settings.
-
Braid & Coil Reinforcement Tube
The Demax Braid & Coil Reinforcement Tube is an innovative medical device designed to provide enhanced strength and flexibility for a wide range of medical applications. Crafted with precision and utilizing advanced materials, this reinforced tubing offers exceptional performance and reliability, making it an indispensable tool for medical professionals in various clinical settings.
-
Coating
Intelligent Manufacturing Production Equipment Coating comprises a sophisticated blend of materials meticulously formulated to provide exceptional protection and durability to industrial machinery. At its core are polymer resins, engineered to imbue the coating with robustness, resilience, and adhesive properties. These resins form the backbone of the coating, ensuring it adheres firmly to the surface of the machinery, resisting peeling, chipping, or delamination over time.
-
Coating
Precision Medical Tubing Services Coating from Demax involves the application of specialized coatings onto medical-grade tubing substrates to enhance their performance and functionality. These coatings may include hydrophilic coatings, hydrophobic coatings, antimicrobial coatings, drug-eluting coatings, and more, depending on the specific requirements of the medical device and application. The coating materials are carefully selected for their biocompatibility, adhesion properties, and compatibility with the substrate material to ensure optimal performance and safety. Each coating is applied using precise coating techniques to achieve uniform coverage and consistent thickness, resulting in medical tubing with enhanced lubricity, biocompatibility, and other desirable properties.
-
Core wire Grinding
The core wire itself is typically made from high-grade stainless steel for strength and corrosion resistance, or Nitinol, a shape-memory alloy offering superelasticity crucial for flexible and kink-resistant guidewires and stents. Depending on the specific device needs, other specialty alloys like platinum, tantalum, and cobalt-chromium might be used for their unique properties. Additionally, the grinding process can be tailored to achieve specific surface finishes and the core wire might receive further coatings to enhance its properties and functionality within the final medical device.
-
Design
The composition of Intelligent Manufacturing Production Equipment designs by Demax is a meticulously orchestrated integration of cutting-edge technologies and specialized components. These designs typically include a combination of robotic arms, automated conveyor systems, CNC machines, 3D printers, smart sensors, and IoT devices. Each component is carefully selected and configured to optimize manufacturing processes, enhance productivity, and ensure the highest standards of quality and performance.
-
Design
The Demax mold design team has lots of experience making molds for medical devices. We use software like NX, Autocad, and Moldflow to help customers with their special needs. We optimize product designs for injection-molded parts, design molds, and improve the injection molding process. This helps reduce the number of adjustments needed for the molds and products, making the whole process faster. It also helps us check the molds and injection molding process quickly, so we can fix any problems sooner. This speeds up the whole mold development process and increases the number of good parts we can make.