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Pressure Seal Globe Valve Manufacturer Europe is the largest Pressure Seal Globe Valve Manufacturer. The pressure seal valve applies sufficient force against the internal diameter of the valve body and the bonnet surfaces. When the pressure in the device rises, so does the stress on the pressure seal gasket. A pressure seal globe valve is a valve design concept that offers distinct advantages over a conventional blasted body to hat fixing device. It employs the valve framework strain to provide adequate strength against the inside width of the valve body and the cap surfaces. As the framework pressure rises, so does the force on the pressing factor seal gasket. Pressure Seal Globe valves are commonly used in pipelines to control the flow of viscous fluids like gasoline. It is capable of monitoring both flow rate and on/off operations. Their name comes from their spherical body shape, which is divided into two parts by an internal baffle. Description Body materials Carbon steel, A105, F304, F316, F304L, F316L, F51, F53, F11, F22. Class 150 2500. Size 1 2 48 Ends Socket weld, butt weld, flanged, threaded. Operation handwheel operated, gear operated, electric actuated, pneumatic actuated. Pressure seal globe valve is used in many industries like Petrochemical Industry Oil and Gas Industry Power Industry Chemical Industry Uses for a pressure seal valve include A pressure seal valve is used to handle high pressure in power generation. Two interchangeable spring loaded discs, a fully driven disc, and refining pins comprise the parallel slide gate assembly. Pressure Seal Globe Valves Have the Following Benefits Excellent ability to switch off and on. Excellent throttling skills. Shorter stroke length. Seats are simple to resurface. May be used as a check and stop valve. Pressure Seal Globe Valves are used in a variety of applications Water cooling systems. Devices that use fuel oil. Chemical or water based feed systems. Key steam vents and drains, as well as the boiler. Turbine lube oil device
the Cordis Emerald Guidewire is a product developed by Cordis Corporation, a subsidiary of Cardinal Health. Guidewires are medical devices used in various interventional procedures to navigate through blood vessels, providing access for other devices and treatments. Key features of the Cordis Emerald Guidewire may include: Material: The guidewire is typically made from materials like stainless steel or nitinol, which offer flexibility and support for navigating through the vascular system. Coating: Guidewires may have hydrophilic or hydrophobic coatings to enhance their lubricity, making it easier for them to pass through blood vessels. Tip Design: The tip of the guidewire is often designed to be atraumatic, reducing the risk of vessel injury during navigation. Radiopacity: The guidewire is often designed with radiopaque markers to aid in fluoroscopic visualization during procedures. Length and Diameter: Guidewires come in various lengths and diameters to suit different procedures and anatomies.
I can provide general information about guide wires used in medical procedures. Guide wires play a crucial role in various interventional procedures, such as angiography and angioplasty, where they are used to navigate through blood vessels and provide a pathway for the delivery of catheters and other medical devices.
The Hem-o-lok Ligating Clip System, produced by Teleflex under the Weck brand, is a medical device used in surgical procedures for the ligation (closing off) of vessels or tissue structures. The Hem-o-lok clips are commonly utilized in laparoscopic and robotic surgeries. Key features and aspects of the Teleflex Weck Hem-o-lok Ligating Clip System include: Material: The clips are typically made from a polymer material, providing a secure and reliable closure when applied to vessels or tissues. Design: Hem-o-lok clips are designed to be easy to use, with a simple mechanism for application. They are available in various sizes to accommodate different surgical needs. Application: Surgeons use Hem-o-lok clips to occlude or ligate blood vessels or other structures during surgery. These clips are widely used in minimally invasive procedures, such as laparoscopic and robotic surgeries. Secure Closure: The design of the clips aims to provide a secure closure, preventing bleeding or leakage from the ligated structures. Color Coding: The clips are often color-coded according to size for easy identification during surgery, allowing surgeons to choose the appropriate clip for the vessel or tissue being ligated.
Cordis is a well-known medical device company that produces a variety of products, including devices used in interventional cardiology and vascular procedures. The Cordis Saber PTA balloon is likely designed for use in percutaneous transluminal angioplasty procedures. Angioplasty is a medical procedure used to open narrowed or blocked blood vessels, typically arteries, to improve blood flow. During angioplasty, a balloon catheter is inflated at the site of the blockage to widen the vessel and restore blood flow. Here are some general features you might expect from a PTA balloon like Cordis Saber: Balloon Material: The balloon is typically made of materials like polyethylene or polyurethane. Inflation System: It would likely have an inflation system that allows controlled inflation and deflation of the balloon during the procedure. Catheter Design: The balloon is mounted on a catheter, which is a flexible tube that allows the device to be threaded through blood vessels to the site of the blockage. Guidewire Compatibility: PTA balloons are often designed to be used with guide wires for precise placement.
The Terumo Runthrough series refers to a range of guide wires manufactured by Terumo Corporation, a global medical device company. Guide wires are essential tools in interventional procedures, particularly in cardiology and radiology, where they are used to navigate through blood vessels and provide support for the delivery of catheters and other interventional devices. Key features of the Terumo Runthrough guide wires, which may vary depending on the specific model and application, include: Hydrophilic Coating: Many Terumo guide wires are known for their hydrophilic coating, which enhances lubricity and facilitates smooth navigation through blood vessels, reducing friction. Flexible Design: The guide wires are designed to be flexible, allowing them to navigate through tortuous vessels with precision. Radiopaque Tip: The tips of the guide wires are often radiopaque, making them visible under fluoroscopy or other imaging modalities. This feature aids interventionalists in visualizing the position of the guide wire during the procedure. Various Tip Configurations: Guide wires may come with different tip configurations, such as soft or floppy tips for ease of navigation or more supportive tips for crossing lesions. Different Lengths and Diameters: Terumo typically offers guide wires in various lengths and diameters to accommodate different patient anatomies and procedural requirements.
he Terumo Runthrough NS PTCA (Percutaneous Transluminal Coronary Angioplasty) guide wire is a product manufactured by Terumo Corporation, a global medical device company. Guide wires are essential tools used in cardiovascular procedures, particularly in angioplasty and stenting, to navigate through blood vessels and provide support for the delivery of catheters and other interventional devices. Key features and characteristics of the Terumo Runthrough NS PTCA guide wire may include: Hydrophilic Coating: Many Terumo guide wires, including the Runthrough NS, are known for their hydrophilic coating. This coating facilitates smoother navigation through blood vessels, reducing friction and enhancing steerability. Flexible Design: The guide wire is designed to be flexible, allowing it to navigate tortuous vessels and reach target locations with precision. Radiopaque Tip: The tip of the guide wire is often radiopaque, making it visible under fluoroscopy or other imaging modalities. This feature helps interventional cardiologists visualize the position of the guide wire during the procedure. Different Tip Configurations: Guide wires may come with different tip configurations, such as soft or floppy tips for ease of navigation or more supportive tips for crossing lesions. Various Lengths and Diameters: Terumo typically offers guide wires in various lengths and diameters to accommodate different patient anatomies and procedural requirements.
ACIST Medical Systems is known for its innovations in contrast delivery systems for medical imaging, particularly in the field of cardiology. The "ACIST NAVVUS RX MICROCATHETER" suggests a microcatheter associated with contrast delivery or imaging guidance. Here are some general considerations for components like microcatheters used in imaging procedures: Contrast Delivery: Microcatheters are often used in conjunction with contrast media to enhance visibility during medical imaging procedures, such as angiography. Navigation: The term "NAV" in "NAVUS" suggests navigation, which could indicate that the microcatheter is designed for precise and controlled navigation within blood vessels or specific anatomical structures. RX: The "RX" designation often denotes a product intended for diagnostic or therapeutic interventions. Imaging Modalities: Microcatheters are commonly used in procedures like angiography, where detailed imaging of blood vessels is required.
Guide wires are commonly used in medical procedures, particularly in cardiology and radiology, to guide catheters and other devices through blood vessels or other anatomical structures. The Terumo Radifocus Guide Wire M is likely designed for use in vascular interventions. Here are some general characteristics you might find in Terumo guide wires: Material: Guide wires are typically made of materials such as stainless steel or nitinol. Coating: Some guide wires may have hydrophilic or hydrophobic coatings to enhance their performance during navigation through blood vessels. Tip Design: The tip design may vary based on the intended application, with options like floppy or stiff tips. Diameter and Length: Guide wires come in various diameters and lengths to suit different procedures and anatomies. Radiopaque Markers: Radiopaque markers help visualize the position of the guide wire under fluoroscopy.
I can provide some general information based on the terms used: Asahi: Asahi Intecc Co., Ltd. is a company known for producing medical devices, particularly guidewires and microcatheters for interventional procedures in cardiology and radiology. Sion Blue: The term "Sion Blue" could refer to a specific type or model of guidewire produced by Asahi Intecc. Guidewires are thin, flexible wires used to navigate through blood vessels during various medical procedures.
I can provide some general information about guiding catheters and Medtronic's involvement in the medical device industry. Guiding Catheter: A guiding catheter is a medical device used in interventional cardiology and radiology procedures. It is designed to guide and support other devices, such as guidewires and balloons, to the target location within the blood vessels. Medtronic: Medtronic is a global healthcare company that produces a wide range of medical devices and technologies. They are involved in various medical specialties, including cardiology, neurology, diabetes, and more.
8410-0254 HyperSoft 3D Advanced, 2.5mm Large Loop Dia, 4cm INDICATIONS FOR USE: The MicroPlex�® Coil System (MCS) is intended for the endovascular embolization of intracranial aneurysms and other neurovascular abnormalities such as arteriovenous malformations and arteriovenous fistulae. The MCS is also intended for vascular occlusion of blood vessels within the neurovascular system to permanently obstruct blood flow to an aneurysm or other vascular malformation and for arterial and venous embolizations in the peripheral vasculature
Specification item value CAS No. 64741-92-0 Other Names White Spirit MF C10H8N2O2 EINECS No. 265-095-5 Place of Origin Netherlands Usage Appliance Paint, Boat Paint, Building Coating, Car Paint, Electrical Insulating Varnish, Furniture Paint, Paper Coating, Plastic Coating, Road Marking Paint, Rubber Coating Application Method Brush State Liquid Coating Brand Name AROMATIC WHITE SPIRIT Model Number SNI 06-0703-89 ISO-3675 Product Name Low Aromatic Industrial White Spirit Solvent Characteristic Liquid Hydrocarbon Color Colourless Application Paint & Coating Industry Density 0.775Kg/m3 min Aromatic Content 20% max Total Sulphur 0.1% max Gum Existent 5mg/100ml max Neutrality Pass Acidity of Residue Pass
D6 is a type of residual fuel, mainly used in power plants and larger ships. The fuel requires to be preheated before it can be used. It is not possible to use it in smaller engines or vessels/vehicles where it is not possible to pre-heat it. D6 is its name in the USA. In other parts of the world it has other names. Residual means the material remaining after the more valuable cuts of crude oil have boiled off. The residue may contain various undesirable impurities including 2 percent water and one-half percent mineral soil. D6 fuel is also known as residual fuel oil (RFO), by the Navy specification of Bunker C, or by the Pacific Specification of PS-400. Recent changes in fuel quality regulation now require further refining of the D6 in order to remove the sulfur, which leads to a higher cost. Despite this recent change, D6 is still less useful because of its viscosity as well as that it needs to be pre-heated before it can be used and contains high amounts of pollutants, such as sulfur. Since it requires pre-heating, it cannot be used in small ships or boats or cars. However large ships and power plants can use the residual fuel oil.
Terumo Runthrough NS PTCA is a medical device designed for use in percutaneous transluminal coronary angioplasty (PTCA) procedures. PTCA is a minimally invasive procedure used to treat coronary artery disease by widening narrowed or blocked coronary arteries. Here are some key points about the Terumo Runthrough NS PTCA: Manufacturer: Terumo Corporation is a Japanese company known for its medical devices and healthcare products. Type: The Runthrough NS PTCA is a guide wire used in PTCA procedures. Guide wires are essential tools that help navigate catheters and other interventional devices through blood vessels during angioplasty. Function: The guide wire assists in guiding and positioning the catheter within the coronary arteries. It helps the interventional cardiologist navigate through the blood vessels and reach the site of the blockage or narrowing. Features: The "NS" in Runthrough NS may refer to "non-support" or "normal support," indicating the level of support provided by the guide wire. The choice of guide wire depends on factors such as the location and severity of the arterial blockage. Usage: The Terumo Runthrough NS PTCA guide wire is specifically designed for use in PTCA procedures to help facilitate the placement of angioplasty balloons and stents.
The EV3 SpiderFX is commonly associated with the SpiderFX Embolic Protection Device, which is used in the field of interventional cardiology. The device is designed to capture and remove embolic debris that may be released during certain vascular procedures, particularly during carotid artery stenting. Key features of the EV3 SpiderFX Embolic Protection Device may include: Embolic Protection: The primary function of the device is to provide protection against embolic debris dislodged during the intervention. It helps prevent these debris from reaching and potentially blocking smaller blood vessels. Flexible Design: The SpiderFX typically has a flexible design that allows it to navigate through blood vessels, facilitating the deployment and retrieval process. Distal Protection: The device is designed to be positioned distal to the treatment site, capturing any embolic debris before it can travel downstream. Capture Basket: The device often includes a capture basket that traps and retains embolic debris, preventing it from causing harm in the circulation. Compatibility: The SpiderFX device is designed for compatibility with various catheters and guide wires commonly used in interventional procedures.
Biosensors is a medical device company known for its innovations in interventional cardiology, particularly in the field of coronary stents. The BioMatrix platform includes a range of drug-eluting stents (DES) designed to be used in the treatment of coronary artery disease. Key features of the BioMatrix stent platform, which may extend to the NeoFlex model if it's a part of the series, may include: Drug-Eluting Stent: The stents in the BioMatrix platform are drug-eluting, meaning they are coated with a medication (such as an anti-restenotic drug) designed to inhibit the regrowth of tissue inside the treated blood vessel. Biodegradable Polymer: Some versions of the BioMatrix stent use a biodegradable polymer to deliver the drug to the target site. The polymer gradually dissolves over time, leaving only the metallic stent behind. Flexible Design: The stents are designed to be flexible, allowing for easier navigation and deployment in the coronary arteries. Thin-Strut Technology: Thin struts can contribute to improved deliverability and conformability of the stent to the vessel wall. Various Sizes: The BioMatrix stent platform typically offers stents in various sizes to accommodate different patient anatomies and lesion characteristics.
(EN590) 10 PPM/50PPM Origin: Kazakhstan The detailed specification: Meets all International Standards Total Spot quantity order: 100,000MT The price and discount: - FOB ROTTERDAM AND CIF OTHER COUNTRY: DISCOUNT $50 PER MT FROM NWE PLATTS - CIF ASIA: DISCOUNT $70 PER MT FROM SINGAPORE PLATTS Shipment: - TANK TO VESSEL ROTTERDAM PORT or DESTINATION PORT as per conditions in Seller`s FCO Payment terms: As agreed per attached Seller`s SCO / FCO and PROCEDURE, via MT103 Payment Procedure: According to the terms of the contract, to be mutually agreed upon by Buyer & Seller. Inspection: SGS for Quantity and Quality, at embarkation port, DIP TEST
The EverFlex stent is designed for use in the treatment of peripheral arterial disease (PAD), specifically in the iliac arteries. Key features of the EverFlex Protege stent may include: Self-Expanding Design: The stent is self-expanding, meaning it can open and conform to the shape of the artery without the need for balloon inflation. Nitinol Construction: The stent is typically made of nitinol, a nickel-titanium alloy known for its flexibility and ability to maintain shape memory. Longitudinal Flexibility: The stent is designed to provide longitudinal flexibility, allowing it to adapt to the natural movement of the vessel. Iliac Artery Treatment: The EverFlex Protege stent is specifically indicated for use in the iliac arteries, which are located in the pelvis.