1. Product Introduction
Microwave digestion systems have been widely used in food, medicine, textiles, plastics, geology, metallurgy, coal, biomedicine, petrochemicals, environmental monitoring, sewage treatment, cosmetics and other fields. Our factory can provide various manufacturers and models of microwave digestion system inner vessels and related racks, turntables, plugs and gaskets.
HVT50 microwave digestion vessel is suitable for Austrian AntonPaar Multiwave GO type microwave digestion system. The parts of this microwave digestion vessel are item numbers, lid: 104453, plug: 104454, vessel: 104616
2. Product parameters
Item number: lid: 104453, plug: 104454, vessel: 104616
Applicable instrument: AntonPaar Multiwave GO type microwave digestion instrument 24-bit
Inner vessel material: modified polytetrafluoroethylene material (TFM)
High and low temperature resistance: -200ï½?+260â??, the maximum resistance is 300â??
Specifications: 50ml
III. The outstanding features of the inner vessel of the microwave digestion instrument we produce
1. The inner vessel is made of modified polytetrafluoroethylene (TFM) material;
2. Selected materials, no recycled materials added, clean processing environment, optimized processing technology, and low background;
3. TFM temperature resistance -200 ~ +260 â??, the maximum resistance is 300 â??. It has the characteristics of low background value, good deformation resistance, penetration resistance, and stronger recovery under high temperature and high pressure;
4. The experimental data is not inferior to the original factory, and the cost is low, which greatly reduces the cost of purchasing consumables for many scientific research units;
5. The inner vessel can be equipped with our factory's acid-driving electric heating plate as an acid-driving tool in the later stage of the experiment.
Supplier: Solvent distillation plant , ethanol distillation plant , etp, water treatment plant , effluent treatment plant, evaporator , dryer, zld plant, lab equipment supplier, lab chemical supplier, industrial equipment , storage tank , bulk tank, petrochemical plant, ethyl acetate distillation plant, supplier of chemicals, reactor , pressure vessel , instruments, plc panel ,dcs panel, mcc panel , steam boiler, agitator tank, mixing tank, blending tank, bottling plant , vodka plant , ena distillation plant , fermentation plant , cooking plant, cpu plant, dg set, dpr report. etc, industrial dryer, industrial storage tanks, lab equipment, bio cng plant, biogas plant, bioreactor, sludge settling tank, wash settling tanks, pre fermenters, culture vessel, blender, blending tank, agitator, mixing tank, shell and tube heat exchanger, reboiler, reactor, mcc electrical panel, pressure vessel, evaporator, industrial dryer, beer plant, brewery plant, ethanol distillery , grain alcohol distiller plant
Advantages: 1.Material Selection: The inner vessels are crafted using modified polytetrafluoroethylene (TFM) and PFA materials, ensuring superior chemical resistance and durability. This choice of materials guarantees a low background value and enhanced performance. 2.Purity and Cleanliness: The vessels are manufactured in a clean environment, without the addition of any recycled materials, ensuring a high level of purity. This results in more accurate and reliable experimental data. 3.Compatibility: These vessels are designed to be fully compatible with various manufacturers' microwave digestion instruments, including CEM models, ensuring seamless integration and operation. 4.Temperature Resistance: The TFM material used in the vessels exhibits excellent resistance to high and low temperatures, ranging from -200�°C to +260�°C, with a maximum tolerance of up to 300�°C. This allows for safe and efficient operation under extreme conditions. 5.Deformation and Permeability Resistance: The TFM material offers improved resistance to deformation and permeation under high temperatures and pressures. This ensures the integrity of the vessel and prevents sample leakage or contamination. 6.Recovery and Durability: The vessels exhibit excellent recovery properties after exposure to high temperatures and pressures, ensuring their long-term durability and reliability. 7.Cost-Effectiveness: While offering comparable or superior performance to original equipment manufacturer vessels, the NJbinglab vessels are priced at a fraction of the cost, significantly reducing expenses for research and scientific institutions. 8.Specialized Production Process: The company employs specialized production processes that ensure a high level of smoothness and cleanliness of the vessel walls. This further enhances the accuracy and reproducibility of experimental results. 9.Customization Options: The company offers customization options, allowing customers to request vessels tailored to their specific needs and requirements. This flexibility ensures that the vessels meet the precise specifications of each application.
NJbinglab offers a range of CEM microwave digestion vessels that are highly regarded in the industry. Below is a description of the models and advantages of these microwave digestion vessels: Models: CEM Microwave Digestion Vessels for MARS Series: Available in various capacities such as 55ml and 100ml, these vessels are designed to fit CEM MARS microwave digestion systems, including MARS5, MARS6, and their high-throughput versions. Specific Models: Examples include the 55ml vessel with part number 907576, suitable for CEM MARS5/6 instruments, and the 100ml vessel for the EasyPrep & EasyPrep Plus system. Advantages: Material Quality: Made from high-purity TFM (or PFA), these vessels offer low blank values and ensure purity. They do not contain any recycled materials, reducing the risk of contamination. Temperature Range: With a temperature tolerance of -200 to +260�°C, the vessels can withstand extreme conditions during microwave digestion. Resistance and Recovery: Compared to PTFE, TFM exhibits better resistance to deformation, penetration, and has superior recovery under high temperature and pressure. Surface Finish: The vessels have a smooth inner and outer wall, making them easy to clean and preventing sample adhesion. This is crucial for trace and ultra-trace analysis. Chemical Compatibility: They are resistant to strong acids and bases, including aqua regia and HF acid, as well as various organic solvents. Precision Machining: Manufactured on precision machines, the vessels have excellent sealing performance, ensuring safe and efficient microwave digestion. Cost-Effective: Offering similar quality to original equipment manufacturer (OEM) products but at a fraction of the cost, these vessels are a cost-effective solution for many laboratories. Customization: NJbinglab offers customization options, allowing customers to tailor the vessels to their specific needs, including different sizes and configurations for post-digestion acid evaporation. In summary, NJbinglab's CEM microwave digestion vessels combine high-quality materials, excellent chemical resistance, precision machining, and cost-effectiveness, making them an ideal choice for laboratories worldwide.
Experimental Training Board has been designed specifically to study the behavior of the Reactive Elements and Time Dependent Network Analysis. Practical experience on this board carries great educative value for Science and Engineering Students. Object: 01. To study Charging & Discharging of a Condenser. 02. To Calibrate D.C. meter for A.C. voltage measurements. 03. To construct the vector (phasor) diagram for series L-R circuit and to calculate the power factor and "Q" at 50 Hz. 04. To study series LCR resonance circuit and its "Q". 05. To study series L-C resonance circuit and from it to find out the true value of "L". 06. To study series C-R circuit. 07. To study different types of filters. 08. To study the parallel R-C resonance circuit. 09. To study the parallel L-C resonance circuit and to find its "Q". 10. To verify circuit laws. 11. To find out the impedance and reactance of LCR reactive elements and to plot their reactance curves. 12. To plot "LISSAGOUS" figures. Features: The board consists of the following built-in parts: 01. Mains Transformer having secondary tappings of 10V, 20V, 30V, 40V, 50VA.C. at 500mA. 02. D.C. Voltmeter, 65mm rectangular dial with switch selectable ranges of 10V, 20V, 30V, 40V and 50V. 03. Four Rectifier diodes. 04. SPDT switch. 05. Potentiometer and adequate no. of other electronic components. 06. Mains ON/OFF switch, Fuse and Jewel light. * The unit is operative on 230V ±10% at 50Hz A.C. Mains. * Adequate no. of patch cords stackable from rear both ends 4mm spring loaded plug length ½ metre. * Good quality, reliable terminal/sockets are provided at appropriate places on panel for connections & observation of waveforms. * Strongly supported by detailed Operating Instructions, giving details of Object, Theory, Design procedures, Report Suggestions and Book References.
ysis. The pc software is supplied as standard and offers additional functionality with preloaded methods for dna and protein analysis, as well as extensive post-measurement tools, unlimited results saving and easy export of data. The precisely aligned detector and quality deuterium and halogen lamps enhance the precision across the uv/vis 65mm & 35kg 860x660x465mm & 35kg
A fume hood is typically a large piece of equipment enclosing five sides of a work area, the bottom of which is most commonly located at a standing work height. Two main types exist, ducted and recirculating (ductless). The principle is the same for both types: air is drawn in from the front (open) side of the cabinet, and either expelled outside the building or made safe through filtration and fed back into the room. This is used to: protect the user from inhaling toxic gases (fume hoods, biosafety cabinets, glove boxes) protect the product or experiment (biosafety cabinets, glove boxes) protect the environment (recirculating fume hoods, certain biosafety cabinets, and any other type when fitted with appropriate filters in the exhaust airstream) Secondary functions of these devices may include explosion protection, spill containment, and other functions necessary to the work being done within the device. Fume hoods are generally set back against the walls and are often fitted with infills above, to cover up the exhaust ductwork. Because of their recessed shape they are generally poorly illuminated by general room lighting, so many have internal lights with vapor-proof covers. The front is a sash window, usually in glass, able to move up and down on a counterbalance mechanism. On educational versions, the sides and sometimes the back of the unit are also glass, so that several pupils can look into a fume hood at once. Low air flow alarm control panels are common, see below. Fume hoods are generally available in 5 different widths; 1000 mm, 1200 mm, 1500 mm, 1800 mm and 2000 mm.[1] The depth varies between 700 mm and 900 mm, and the height between 1900 mm and 2700 mm. These designs can accommodate from one to three operators. For exceptionally hazardous materials, an enclosed glove box may be used, which completely isolates the operator from all direct physical contact with the work material and tools. The enclosure may also be maintained at negative air pressure to ensure that nothing can escape via minute air leaks.
inert atmosphere glove box-This system is working as inert atmosphere work station controlling moisture, oxygen, and pressure etc. and work with feedback control system, that works for packing various types of test kits,. This box is a multiple operator system six people can work by sitting opposite side and 13 glove ports ,size was 4000mm L x 1200mm W 900 mm H