Cable Standard Generally conforms to, Based on IS:9857-1990 VDE 0282, IEC 245-6, BS 6899 Silent Features - Ultra high performance flexible welding lead, double insulated for longer life and added safety - Better flame retardant properties - Outstanding toughness & durability - High resistance to cuts, tears & abrasion - Resistance to oil, solvents and chemicals - Excellent ozone and weather resistant Technical Data Fixed Installation : -20C to max.+90C Nominal Voltage : 600 V Spark Test : 3.5 KV(ac) Color : Orange / Black Jacket Min. Bending Radius : 6 x Cable Diameter Standard Packing Coils 100, 200, 300 and 500m Conductor High conductivity, bare annealed copper flexible conductor, EC copper class 5 & class 6 generally conforms to IS:8130-1984, IEC 60228 Separation Polyester tape Insulation Double Insulated/single insulated flexible Nitrile rubber HOFR insulated as per IS:6380-1984 Color Orange / Black Jacket Current Rating The maximum current ratings of flexible welding cables for different duly cycles are based on an ambient air temperature of 25 C and a maximum conductor temperature of 90 C. The percentage duly cycles for various processes and applications are as follows: - Automobile Welding : up to 100% - Semi Automatic Welding : 30% to 85% - Manual Welding : 0% to 60% - Very intermittent or Occasional Welding : up to 20% Voltage Drop When total cable lengths in excess of 15mtr., are involved, it may be necessary to use cables of larger cross section to ensure that the voltage drop is not excessive & welding currents are maintained at adequate levels. Application Designed for the secondary (high current) connection to automatic or hand - held metal arc welding electrodes. It is suitable for flexible use under rugged conditions, on assembly lines & conveyor systems, in machine tool and automatically operated line & spot welding machines
1121 Erlenmeyer flasks, narrow neck, with graduation, Boro 3.3 Glass Description: This flask is made of borosilicate 3.3 glass for durability and chemical-and temperature-resistance, and its uniform wall thickness provides mechanical strength for shock-resistance. Borosilicate glass has a low coefficient of thermal expansion and is resistant to thermal stress. Boiling flasks provide uniform heating of liquids for quality testing, sampling, and research in chemistry, education, research, and life science applications. There are 14 sizes available. 5ml Erlenmeyer flasks, 10ml conical flask, 25ml Erlenmeyer flasks, 50ml Erlenmeyer flasks,100ml conical flask, 150ml Erlenmeyer flasks, 250ml Erlenmeyer flasks, 300ml Erlenmeyer flasks, 500ml Erlenmeyer flasks, 1000ml Erlenmeyer flasks, 2000ml Erlenmeyer flasks, 3000ml conical flask, 5000ml, 10000ml conical flask. Material: Boro 3.3 Glass Color: Clear Glass Selling points: High transparency heat resistance high quality 1120 Erlenmeyer flasks Wide Neck with Graduation DIN 12385 5009 Conical Flask, Standard ground mouth Description: This flask is conical and with standard ground mouth. There are 30 sizes available: 5/10 standard ground mouth conical flask, 5/14 standard ground mouth conical flask, 10/10 standard ground mouth conical flask, 10/14 standard ground mouth conical flask, 10/19 standard ground mouth conical flask, 25/10 standard ground mouth conical flask, 25/14 standard ground mouth conical flask, 25/19 standard ground mouth conical flask, 50/14 standard ground mouth conical flask, 50/19 standard ground mouth conical flask, 50/24 standard ground mouth conical flask, 100/14 standard ground mouth conical flask, 100/19 standard ground mouth conical flask, 100/24 standard ground mouth conical flask, 100/29 standard ground mouth conical flask, 150/19 standard ground mouth conical flask, 150/24 standard ground mouth conical flask, 250/19 standard ground mouth conical flask, 250/24 standard ground mouth conical flask, 250/29 standard ground mouth conical flask, 250/34 standard ground mouth conical flask, 500/19 standard ground mouth conical flask, 500/24 standard ground mouth conical flask, 500/29 standard ground mouth conical flask, 500/34 standard ground mouth conical flask, 1000/24 standard ground mouth conical flask, 1000/29 standard ground mouth conical flask, 1000/34 standard ground mouth conical flask, 2000/29 standard ground mouth conical flask, 2000/34 standard ground mouth conical flask. Material: Boro 3.3 Glass Color: Clear Key Product Features: 1.High quality 2.Preferential price 3.Excellent service
ECG gel, also known as electrocardiogram gel or EKG gel, is a conductive medium used in electrocardiography (ECG) procedures to improve the quality of electrical signal transmission between the skin and the electrodes of the ECG machine. Here's more information about ECG gel: Purpose: The primary purpose of ECG gel is to enhance the conductivity and reduce impedance between the skin and the ECG electrodes. This improves the quality and accuracy of the electrical signals detected by the electrodes, resulting in clearer and more reliable ECG readings. Composition: ECG gel is typically a water-based, conductive gel formulated to be non-greasy, non-staining, and hypoallergenic. It may contain ingredients such as water, glycerin, propylene glycol, carbomer, preservatives, and conductivity-enhancing agents. Conductivity: ECG gel is formulated to have high electrical conductivity, allowing it to effectively transmit electrical signals between the skin and the electrodes. This conductivity helps minimize impedance and artifacts, ensuring accurate ECG readings even in challenging conditions. Viscosity: ECG gel is usually designed to have a suitable viscosity that allows for easy application and smooth spreading on the skin. It should be thick enough to stay in place during the procedure but not so thick that it hinders electrode placement or skin contact. Compatibility: ECG gel is compatible with various types of ECG electrodes, including disposable electrodes, reusable electrodes, and adhesive electrodes. It can be used with both standard ECG procedures and specialized cardiac tests such as stress tests, Holter monitoring, and echocardiography. Application: ECG gel is applied directly to the skin at the electrode sites before attaching the electrodes. A sufficient amount of gel should be applied to ensure good contact between the electrodes and the skin surface. Excess gel can be wiped away after electrode placement. Hygiene: ECG gel should be stored in a clean and dry environment to prevent contamination. Disposable single-use packets or bottles with dispensing caps are commonly used to maintain hygiene and prevent cross-contamination between patients. Removal: After the ECG procedure, any remaining gel should be wiped off the skin using a clean, dry cloth or disposable wipe. Residual gel left on the skin can cause discomfort or irritation if not properly removed.
PC Based Cardiac workstation combines Resting and Exercise ECG Equipped with high torque AC motor and digitally controlled drive system Simultaneous acquisition and display of 12 lead raw ECG Standard and user programmable treadmill protocols Risk predicting Duke Treadmill score Detection of leads off and arrhythmias Facility for Marking Events such as chest pain, leg pain, dyspnea, angina etc. User configured multiple display and reports format Smooth noise free elevation Emergency stop with alarm Low-to-the floor, anti skid side strips, cushioned deck for patient comfort and safety Natural walking/running sensation with no lag time Upgradable to Automatic (SunTech) NIBP (optional)
ECG electrode.
Electrode, ECG, 42mmx50mm, Adult, Foam, Solid Gel 1. Fair average qualiy assured; 2. Comfortable and conveniet; 3. No gel left and non-irritable; 4. Single use only; 5. Recommended for ICU/CCU, Surgery, Emergency.
Portable reference electrodes CU-CUSO4 type, used in cathodic protection and corrosion testing and assessment.
Vesta 301i 3 Channel ECG Machine 12 lead simultaneous acquisition Graphical Colored TFT upto 3.5 inch for Real time ECG monitoring Measurements and Interpretation Full alphanumeric keypad Paper out Indication Multiple Printing options Isolation protection against defibrillation 50 patients memory storage USB storage (optional) Direct A4 ECG Printing (optional) PC connectivity (optional)
Modern vials are often made out of plastic or sometimes glass. There are often used as storage for small quantities of liquid used in medical or molecular biology applications. There are several different types of commonly used closure systems. For glass vials, options include screw vials (closed with a screw cap or dropper/pipette), lip vials (closed with a cork or plastic stopper) and crimp vials (closed with a rubber stopper and a metal cap).Plastic vials, which can be moulded in plastic, can have other closure systems, such as 'hinge caps' which snap shut when pressed. These are sometimes called flip-tops or snap caps. The bottom of a vial is often flat, unlike test tubes, which have usually a rounded bottom, but this is often not the case for small hinge-cap or snap-top vials. The small bottle-shaped vials typically used in laboratories are also known as bijou or McCartney's bottles. The bijou bottle tends to be smaller, often with a volume of around 10 milliliters.
Bees Immunity Tea is a blend of six Ayurvedic herbs which carry immense immunity-boosting and stress relieving qualities. The combination of these natural ingredients provides the ultimate natural goodness in promoting better health. The traditional ayurvedic preparation method known as Daruparpatadhi Churanaya under the Sri Lanka Ayurveda Medicinal Pharmacopoeia conducted at the Life Care Pharmaceuticals factory approved by the Department of Ayurveda in Sri Lanka. Ingredients of Bees Immunity Tea: 1. Alphinia calcarata Snap Ginger (Heen Araththa) 2. Coscinium fenestratum Calumba Wood (Weni wel) 3. Coriandrum sativum Coriander (Koththamalli) 4. Piper longum Long Pepper (Thippili) 5. Zingiber - Ginger (Iguru) 6. Ocimum tenuiflorum Holy Basil (Maduruthala) Benefits of Bees Immunity Tea: Improve, strengthen & enhance the immune system Fight against respiratory complaints Aids digestion Promote good sleep Mental tranquility A pack of Bees Immunity Tea consists of 20 Pyramid teabags (1 bag = 2.5 g). The net weight is 50 g / 1.76 oz. The recommended dosage is twice a day / two teabags per day (morning and evening). The pyramid tea sachets contain no plastic (nylon) or microplastics. This bag is made of plant-based material and is 100% biodegradable. Therefore the tea bag is sustainable. The pyramid unique porous structure allows for the herbs to move around easier as they infuse into the water by adding more flavor to the tea efficiently.
ECG holter analysis system, resting ECG system, stress test ECG, telemetry ECG monitoring system, holter recorder, ambulatory blood pressure monitor, mobile ECG, fingertip pulse oximeter, multi-parameter patient monitor, fetal doppler, computerized ecg simulator, ECG parts and accessories.
High-conductivity gel for electrocardiography (ECG) is a specialized conductive gel used to improve electrical conductivity between the skin and ECG electrodes during cardiac monitoring procedures. Here's more information about high-conductivity gel for ECG: Purpose: The primary purpose of high-conductivity gel is to reduce impedance and improve the transmission of electrical signals between the skin and the ECG electrodes. This ensures accurate and reliable recording of the heart's electrical activity during ECG testing. Composition: High-conductivity gel is typically water-based and contains conductive agents that enhance its electrical conductivity properties. Common ingredients may include water, glycerin, propylene glycol, carbomer, electrolytes (e.g., sodium chloride), and preservatives. Conductivity: High-conductivity gel is formulated to have superior electrical conductivity compared to standard ECG gels or other electrode contact solutions. This allows for better signal quality and minimizes the risk of artifacts or interference during ECG recordings. Viscosity: The gel's viscosity is designed to be suitable for easy application and spreadability on the skin. It should be thick enough to adhere to the skin and maintain contact with the electrodes but not too thick that it hinders electrode placement or skin contact. Non-Staining: High-conductivity gel is typically formulated to be non-greasy and non-staining, ensuring minimal residue on the skin after use. This helps maintain patient comfort and prevents staining of clothing or bedding. Compatibility: High-conductivity gel is compatible with various types of ECG electrodes, including disposable electrodes, reusable electrodes, and adhesive electrodes. It can be used with standard ECG machines and Holter monitors. Application: Before applying the gel, the skin should be cleaned to remove any oils, lotions, or dirt that may interfere with electrode contact. A thin layer of high-conductivity gel is then applied to the skin at the electrode sites before attaching the electrodes. Hygiene: High-conductivity gel should be stored in a clean and dry environment to prevent contamination. Disposable single-use packets or bottles with dispensing caps are commonly used to maintain hygiene and prevent cross-contamination between patients. Overall, high-conductivity gel plays a crucial role in ensuring optimal electrode-skin contact and signal quality during ECG testing. Its superior conductivity properties make it an essential accessory in cardiac diagnostic procedures, allowing for accurate interpretation of the heart's electrical activity.
Ecg cable, eeg cable, nibp cuff, patient monitor, ecg electrodes, medical connectors, spo2 sensor, temperature probe, ekg cable, spo2 extension cable, ecg trunk cable.
ECG products, holter ECG, resting ECG, stress test ECG, ambulatory blood pressure monitor, ECG simulator, patient monitor.
1.Product Description ECG (electrocardiography) is a method of collecting electrical signals generated by the heart. This allows us to understand the level of physiological arousal that someone is experiencing, but it can also be used to better understand someones psychological state. 2.Product Details Properties: Medical Materials & Accessories Brand Name:GE Cable material: TPU cable Cable Leadwires: 3 leads/5 leads Standard: AHA/IEC Certificate: CE, ISO Other Service: OEM&ODM Sample: Available MOQ: 1pc Warranty:6 months Supply Ability: 1000 Piece/Pieces per Week 3.Shipping and Packing Port:Shenzhen port, or as you need Shipping: DHL/FedEx/EMS/UPS/TNT Packaging Details: Wrap with transparent PU plastic bag, each bag with 1 piece. 4.Payment Terms Payment Terms:L/C,D/A,D/P,T/T,Western Union,Money Gram 5.Main Products We Supply Reusable/ Disposable Spo2 Sensor Spo2 Extension Cable ECG/ EKG Cable with leadwires ECG /EKG Trunk Cable Temperature Probe Fetal & TOCO Transducer IBP Cable and Transducer NIBP Cuff and hose 6.Our Services: More competitive factory price. Fast delivery (1-5 days, we are a manufacturer, have enough products in stock.) Quality 100% assured (All products are made of medical TPU material) Samples available (accept trail order) One piece MOQ is acceptable. OEM & ODM service
ECG cable, EKG cable, spo2 sensor, Nibp cuff, temperature probe, ESU pencil, ecg electrode, IBP cable.
An ECG bulb, made of silicone, is a component used in certain types of electrocardiogram (ECG) machines. Here's more information about ECG bulbs made of silicone: Material: ECG bulbs made of silicone are designed to be flexible, durable, and resistant to wear and tear. Silicone is chosen for its properties, including flexibility, biocompatibility, and resistance to temperature extremes and chemical exposure. Purpose: The ECG bulb, also known as an ECG electrode or sensor, is a crucial component of the ECG machine. It serves as the interface between the patient's skin and the machine's electrical circuitry, allowing the machine to detect and record the electrical signals produced by the heart. Design: ECG bulbs made of silicone typically have a bulbous or rounded shape with a flat surface that comes into contact with the patient's skin. The silicone material provides a comfortable and secure fit while ensuring good electrical conductivity for accurate signal transmission. Compatibility: Silicone ECG bulbs are designed to be compatible with specific models of ECG machines. They may come in different sizes and shapes to accommodate different electrode configurations and patient needs. Hygiene: Silicone ECG bulbs are often designed for single-use or disposable use to maintain hygiene and prevent cross-contamination between patients. Disposable ECG bulbs help reduce the risk of infection transmission in clinical settings.
UHP Graphite Electrode stands for Ultra High Power Graphite Electrode. It is a type of high-performance electrode used in electric arc furnaces for steel production. UHP graphite electrodes have low electrical resistance, high thermal conductivity, and good mechanical strength, which makes them ideal for use in high-temperature and high-power applications. They are made from premium quality needle coke and are used in the production of high-quality steel products. Some of the features of UHP (Ultra High Power) Graphite Electrodes are: Low electrical resistance: UHP graphite electrodes have a low electrical resistance, which enables efficient and high-power transfer during the steelmaking process. High thermal conductivity: They have a high thermal conductivity, which ensures even heat distribution and minimizes thermal stress during use. Good mechanical strength: UHP graphite electrodes have good mechanical strength and can withstand the physical demands of the steelmaking process. High resistance to oxidation and corrosion: They have high resistance to oxidation and corrosion, which ensures a longer lifespan and reduces the need for frequent replacements. Premium quality needle coke: UHP graphite electrodes are made from premium quality needle coke, which ensures high purity and consistency in the manufacturing process. Wide diameter range: They are available in a wide diameter range, which makes them suitable for various electric arc furnace sizes and steelmaking applications. Application UHP (Ultra High Power) Graphite Electrodes are primarily used in electric arc furnaces for steel production. They are suitable for high-temperature and high-power applications and are used to melt steel scrap and other materials. UHP graphite electrodes are also used in the production of ferroalloys, silicon metal, and other non-ferrous metals. In addition to their primary use in the steel industry, UHP graphite electrodes can be used in other industrial applications that require high-temperature and high-power capabilities, such as in the production of electrodes for electric discharge machining (EDM) or for heating elements in high-temperature furnaces.
Specifications: Measurement: 12-lead resting ECG ECG analysis frequency: 500 samples per second Digital sampling speed: 8000 samples per channel and second ECG visualization: Real-time graphic representation Acquisition mode: Real-time acquisition (delay between channels < 10us) Dynamic range: 400mV Resolution: 24 bits per channel (< 1uV) Frequency specifications: Adaptative line frequency filter: 50Hz and 60Hz CMRR: > 115dB Input impedance: > 100Mohms with defibrillation protection Current leaks in patient: < 10uA Initial stabilization time: 3s Software: Operative System: PC: Windows 7 or later, macOS, Android 4 or later, iOS (iPhone/iPad) 8 or later Patient information: Name, identificator, birth date, gender and comments Report information: Patient, physician, date, time and diagnosis Device information: Battery level and electrodes status DICOM compatibility: C-ECHO test, C-STORE operation and Modality Worklist SCP query Reports: Number of leads: 6 and 12 leads Operation modes: Monitoring: 0.67 Hz ~ 40 Hz Diagnostic: 0.05 Hz ~ 150 Hz Raw data: no filter Vertical resolution: 10mm/mV Horizontal resolution: 10, 25 and 50mm/s Export: Email (DICOM and PDF files), DICOM C-STORE and ECG Cloud Analysis: Heart rate, QRS annotations and normal/abnormal classifier Heart rate interval: 20 bpm to 240 bpm
The Ruthenium Iridium Titanium Electrode for Hydrogen-rich Water Cup is a crucial component used in hydrogen-rich water cups. This electrode utilizes a titanium alloy coated with a ruthenium-iridium layer as its primary material. This high-performance electrocatalytic material facilitates the electrolysis reaction in water, splitting water molecules into hydrogen and oxygen gases. The ruthenium-iridium coated titanium alloy possesses excellent conductivity and corrosion resistance, ensuring stable performance over extended periods. Parameter Base Material: GR1 titanium Coating: Ruthenium-Iridium Size: according to customersâ?? requirements Technique: brushing or electroplating Features 1.Efficient electrolysis: The electrode uses ruthenium-iridium coated titanium alloy as a high-efficiency electrocatalytic material to promote the electrolysis process of water and decompose water molecules into hydrogen and oxygen. 2.Excellent conductivity: The ruthenium-iridium coated titanium alloy electrode has excellent conductivity, ensuring the smooth transmission of electrons in the electrolysis reaction and improving the efficiency of hydrogen production. 3.Corrosion Resistance: The electrodes are designed to be corrosion resistant, ensuring stability over long periods of use. The combination of titanium alloy and ruthenium-iridium coating provides excellent corrosion resistance and remains stable even in aqueous and electrolytic conditions. 4.Increase surface area: Electrodes usually adopt composite structures, including multi-layer films and nanostructures, to increase the surface area of the electrode and increase the contact area with water, promoting more efficient electrolysis reactions. 5.RELIABILITY & DURABILITY: Ruthenium Iridium Titanium Electrode is manufactured using strict quality control measures. This includes selection of high-quality materials, precise manufacturing processes and comprehensive performance testing. The electrode design is stable, reliable and highly durable. Application in the Hydrogen-rich Water Cup The Ruthenium Iridium Titanium Electrode plays a vital role in hydrogen-rich water cups, enabling the generation of hydrogen-rich water through efficient electrolysis. This high-performance electrode, composed of a titanium alloy coated with a ruthenium-iridium layer, facilitates the electrolytic process, splitting water molecules into hydrogen and oxygen gases.