Product Description A 90 degree elbow is a pipe fitting that is used to change the direction of a pipe by 90 degrees. It is a common fitting that is used in a variety of applications, including plumbing, HVAC, and industrial piping. Technical Specifications The technical specifications of a 90 degree elbow vary depending on the material, size, and type of fitting. However, some of the common specifications include: Material: Steel, brass, copper, plastic, etc. Size: 1/2 inch to 12 inches (nominal pipe size) Type: Butt-weld, threaded, socket-weld, flanged, etc. Radius: Short radius (SR) or long radius (LR) Wall thickness: Schedule 40, Schedule 80, etc. Applications 90 degree elbows are used in a variety of applications, including: Plumbing: Changing the direction of a water pipe HVAC: Changing the direction of an air duct Industrial piping: Changing the direction of a fluid line Machinery: Connecting pipes to valves and other components Construction: Connecting pipes to sprinkler systems and other fixtures Benefits The use of 90 degree elbows in piping systems offers a number of benefits, including: Increased flexibility: Elbows allow pipes to be routed around obstacles and through tight spaces. Reduced stress: Elbows help to reduce stress on pipes by distributing the load more evenly. Improved flow: Elbows can help to improve the flow of fluids by reducing turbulence. Increased safety: Elbows can help to prevent leaks and spills by providing a smooth transition between pipes.
1. Product Introduction The polytetrafluoroethylene (PFA) beakers produced by our factory can be used for trace analysis, isotope analysis and other experiments, and are suitable for ICP-MS laboratories. They are suitable for semiconductor, polysilicon, photovoltaic electronics and lithium battery industries. The cup body has clear scales for easy observation, and the pointed mouth is convenient for pouring solutions. 2. Product Features: 1. Transparent, with raised scales, chemical resistance and heat stability, resistant to various acids, alkalis, HF and organic solvents; suitable for storing chemicals and samples; 2. Can be autoclaved at 121 (2 bar), in accordance with DIN EN 285. The flange design is convenient for clamping and moving, and has the function of dissipating heat and increasing mechanical strength; there is a mouth on the edge for easy pouring of liquid; it uses high-purity raw materials, is easy to clean, and can be used with our company's electric heating plate and digester 3. High thermal stability, good transparency, and smooth surface; 4. It is often used as a reaction container for preparing dissolved substances and smaller amounts of substances at room temperature or under heating; 5. Low precipitation: low metal ion dissolution and precipitation, it is a vessel for storing standard substances, corrosive and pure reagents; 6. High and low temperature resistance: operating temperature -200+260; no record Memory effect; 7. Anti-pollution: low blank value of metal elements; 8. Suitable for trace, ultra-trace analysis, isotope analysis and other laboratories, it is a clean experimental analysis vessel; 9. It meets the requirements of laboratories or testing institutions, medical testing, trace testing, etc. for experimental equipment, and is suitable for trace analysis and containing high-purity organic solvents (for example: high-purity water, HF, acetone and other organic solvents, etc.); III. PFA series products: Reagent bottles, wash bottles, volumetric flasks, measuring cups, beakers, digestion tubes, sample dissolution tanks, microcolumns, crucibles, valves, joints, delivery pipes and other products. Nanjing Binzhenghong Instrument Co., Ltd.
Technical Parameters Product name: PFA reagent bottle Specifications (ml): 30/60/100/250/500/1000/2000/3000/4000/5000 Material: PFA Withstand temperature: -196-260â?? Product Features 1. Translucent appearance; 2. Temperature resistance: operating temperature -200~+260â??; 3. Insulation resistance: dielectric properties have nothing to do with temperature and frequency; 4. Anti-pollution: low metal element value; 5. It has low dissolution and precipitation characteristics and is a container for storing standard substances and different reagents; use: 1. Suitable for storing and packaging different chemical reagents and standard samples; 2. Applicable to semiconductor, polysilicon, photovoltaic electronic lithium battery industries; sampling of high-purity water, electronic pure reagents, photoresist, silicon wafer washing liquid, electronic grade cleaning agent, liquid crystal liquid, circuit board washing liquid, etc.; also suitable for new materials and new Storage and use of energy such as silicon materials; 3. Can be used with Agilent, Shimadzu, PE, Thermo Fisher and other brands of ICP-MS, ICP-OES and other instruments for trace analysis and isotope analysis. Our PFA series products: Sample storage bottles, washing bottles, volumetric flasks, measuring cups, beakers, digestion tubes, sample dissolving tanks, micro columns, crucibles, valves, joints, delivery pipes and other products
1. Product introduction: In geological and mineral experiments, PFA sample dissolving tanks are widely used. They are a multifunctional experimental tool, also known as dissolution cups, digestion bottles, vials, beakers, etc. These jars are suitable for low and medium pressure sample dissolution and digestion of experimental samples. When used with ICP-MS/ICP-OES analyzers, these jars improve the accuracy of trace-level analysis. In addition, these jars are designed with different bottom shapes according to experimental needs, such as U bottom, flat bottom and V bottom. If you need to use an electric hot plate or a digestion instrument with holes for experiments, you can get better results by combining it with a PFA sample dissolving tank. 2. Description: Specifications (ml): 3/5/6/7/15/22/30/40/60 Material: PFA Withstand temperature: -200-260 Suitable for sample pretreatment experiments for the analysis of dozens of elements in geological and mineral samples, such as: Mo, Ba, V, Si, Se, Li, Ga, Fe, Mg, Zn, Hg, K, etc. 3. Characteristics: 1. Translucent appearance, smooth inner wall, no water hanging on, easy to clean; 2. Temperature resistance: operating temperature -200~+260 (do not exceed 150 degrees under closed conditions); 3. Threaded port, excellent sealing, no air leakage; 4. Anti-pollution: low blank value of metal elements; 5. It has low dissolution and precipitation characteristics and is a container for storing standard substances and different reagents; 6. The cover and body can be numbered digitally without confusion; 7. The V-shaped bottom design facilitates the collection of small amounts of samples; the U-shaped bottom design is suitable for the detection of geophysical and geochemical samples. 4. Typical users: Isotope, geology and minerals, metallurgy, nuclear industry and other industries 5. PFA series products: Reagent bottles, washing bottles, volumetric flasks, measuring cups, beakers, digestion tubes, sample dissolving tanks, micro columns, crucibles, valves, joints, delivery pipes, etc.
GOST 12.4.294-2015, TR CU 019/2011(EN 149:2001+A1:2009) Respiratory protection - filtering half masks for protection against aerosols and particulates. All WALL respirators are tested and approved in accordance with GOST 12.4.294-2015 (EN 149:2001+A1:2009). This standard specifies a wide range of requirements for respirators in order to provide the maximum level of protection and comfort to the user. Key tests in GOST 12.4.294-2015 (EN 149:2001+A1:2009) â?¢ measurement of inhalation and exhalation resistance â?¢ checking the exhalation valve â?¢ visual inspection (labeling, instructions for use) â?¢ determination of filtration efficiency (protection class) â?¢ testing on dolomite dust FFP 1 FFP1 respirators have a filtering capacity of at least 80% and are designed for individual protection of the human respiratory system from all types of aerosols (dust, smoke, fog) at a concentration of up to 4 maximum permissible concentrations. Such respirators are suitable for particles that are not toxic. FFP 2 FFP2 respirators have a filtering capacity of at least 94% and are designed for individual protection of the human respiratory system from all types of aerosols (dust, smoke, fog) at a concentration of up to 12 maximum permissible concentrations. Effective when working in difficult conditions, when working in areas of high and low temperatures, high humidity. FFP 3 FFP3 respirators have a filtering capacity of at least 99% and are designed for individual protection of the human respiratory system from all types of aerosols, including radioactive and carcinogenic, at a permissible concentrations of up to 50. Effective when working in difficult conditions, when working in areas of high and low temperatures, high humidity. All respirators meet the additional requirements of the dolomite dust test and are therefore marked with the letter D. Consequently, respiratory protection products provide excellent breathability even in very dusty environments and during prolonged use
1. Product introduction PFA, also known as soluble polytetrafluoroethylene and Teflon, can be used for trace analysis, isotope detection, ICP-MS/OES/AAS analysis and other experiments. Capacity (ml):5/10/25/30/50/100/200/250/500/1000/2000 2. Product characteristics 1. Strong corrosion resistance: PFA material has excellent acid and alkali resistance and can be used for measuring various chemical liquids without being corroded. 2. High transparency: The transparency of PFA material is relatively high, and the volume of the liquid can be clearly observed. 3. High accuracy: PFA measuring cylinder has precise graduation lines, which can provide accurate liquid volume measurement results. 4. Good heat resistance: PFA material can withstand high temperatures, so it is suitable for some experiments that need to be conducted under high temperature conditions. 5. Insulation resistance: dielectric properties have nothing to do with temperature and frequency; 6. Anti-pollution: low metal element value; 7. It has low dissolution and precipitation characteristics and is a container for storing standard substances and different reagents; 3. PFA series products: Sample bottles, washing bottles, volumetric flasks, measuring cups, beakers, digestion tubes, sample dissolving tanks, micro columns, crucibles, valves, joints, delivery pipes, etc.
1. Product introduction The polytetrafluoro (PFA) beakers produced by our factory can be used for trace analysis, isotope analysis and other experiments, and are suitable for ICP-MS laboratories. Applicable to semiconductor, polysilicon, photovoltaic electronics and lithium battery industries. The cup body has clear markings for easy observation, and the pointed spout makes it easy to pour the solution. 2. Product features: 1. Transparent, with raised scales, chemical resistance and heat resistance, resistant to various chemical solvents such as acids and alkalis, HF and organic solvents; suitable for preserving chemicals and samples; 2. Can be autoclaved at 121 (2 bar), in compliance with DIN EN 285. The flanged design facilitates clamping and movement, dissipating heat and increasing mechanical strength; there is a mouth on the edge for easy pouring of liquids; the use of high-purity raw materials makes it easy to clean, and can be used with our company's electric heating plates and digesters 3. High thermal stability, good transparency and smooth surface; 4. It is often used as a reaction vessel for preparing dissolved substances and smaller amounts of substances at room temperature or under heating; 5. Low precipitation: low metal ion dissolution and precipitation, it is a container for storing standard substances, corrosive and pure reagents; 6. High and low temperature resistance: operating temperature -200~+260; no memory effect; 7. Anti-pollution: low metal elements have low blank values; 8. It is suitable for laboratories such as trace and ultra-trace analysis and isotope analysis. It is a clean experimental analysis vessel; 9. Comply with the requirements of laboratories or testing institutions, as well as medical testing, trace testing, etc. for experimental equipment, for trace analysis and containing high-purity organic solvents (for example: high-purity water, HF, acetone and other organic solvents, etc.); 3. PFA series products: Reagent bottles, washing bottles, volumetric flasks, measuring cups, beakers, digestion tubes, sample dissolving tanks, micro columns, crucibles, valves, joints, delivery pipes and other products.
product description: PFA, also known as Teflon, can be used for trace analysis, isotope detection, ICP-MS/OES/AAS analysis and other experiments. product features: 1. Seamless one-piece mold production technology, the product has stable performance and long service life; 2. Temperature resistance: The operating temperature is -200~+260â??. It can maintain its mechanical strength within a large temperature difference: from low temperature to high temperature, PFA can maintain its flexibility without losing toughness. Like PTFE, it is a carbon ammonia polymerization. Continuous use temperature of the object. 3. Easy to clean: PFA itself is non-stick and has the ability to waterproof, oil and other substances. The surface is flat and smooth without any scratches. It is easy to clean during use. 4. Threaded port, excellent sealing, no air leakage; can be coded 5. Anti-pollution: low blank value of metal elements; Parameters, usage Product name: PFA buffer bottle, reaction bottle, double-neck reaction impact bottle Material: PFA Specifications: 60.90.120.150.180.375m1 Temperature resistance range:-200-260C The lid is equipped with a 1/4 pipe. The pipe directly passes through the lid and is introduced into the body. It is convenient and flexible and can be used for buffer reaction experiments. scenes to be used: Semiconductor, chemical industry, biopharmaceutical, new energy industry. PFA series products: Reagent bottles, washing bottles, volumetric flasks, measuring cups, beakers, digestion tubes, flasks, dissolved samples, micro columns, crucibles, valves, joints, delivery pipes, etc.
1. Product introduction: The appearance of the PFA Erlenmeyer flask is in the shape of a flat-bottomed cone, wide at the bottom and narrow at the top. It has a cylindrical neck and an opening wider than the neck at the top, which can be closed with a stopper. PFA Erlenmeyer flask is also called PFA reaction flask, , PFA Olenmayer flask, etc. It is a metal-free fluororesin Erlenmeyer flask with excellent chemical resistance and heat resistance. Suitable for micro analysis, trace analysis, ultra-trace analysis ICP-MS/OES/AAS analysis and other experiments. 2. Technical parameters Product name: PFA Erlenmeyer flask Specifications (ml): 125/250/500ml Material: PFA Withstand temperature: -200~+260â?? 3. Product characteristics A. High temperature resistance: operating temperature reaches 260�°C; B. Low temperature resistance: It has good mechanical toughness; even if the temperature drops to -196�°C, it can maintain an elongation of 5%; C. Corrosion resistance: It is inert to most chemical solvents, resistant to acids and alkali, water and various organic solvents; D. Aging resistance: has the best aging life among plastics; E. High lubrication: It is a solid material with a low friction coefficient; F. Non-adhesion: It is the smaller surface tension in solid materials; G. There are two options: threaded port and sealing plug. 4. Purpose: It has a large specific gravity and good heat resistance, so it can be heated in a water bath or oil bath. It can be equipped with a shaker oscillator for experiments. 5. Our PFA series products: Sample storage bottles, washing bottles, volumetric flasks, measuring cups, beakers, digestion tubes, sample dissolving tanks, micro columns, crucibles, valves, joints, delivery pipes and other products.
The liquid nitrogen level alarm is a monitoring instrument used to sense temperature changes and liquid level heights in various low-temperature liquid nitrogen containers. When the liquid level in the liquid nitrogen tank drops to a certain level, the alarm device will be automatically triggered to avoid danger during production or use. The liquid nitrogen level alarm is so excellent, but what specific functions does it have? Features: 1. Temperature display: can detect and display the temperature of the liquid nitrogen container in real time. 2. Fault alarm function: When the sensor is disconnected or the input is open or short-circuited, the instrument automatically emits an audible and visual alarm, the alarm indicator light on the panel lights up, and the buzzer responds. 3. Over-temperature alarm function: When the temperature of the measuring point of the liquid nitrogen container is lower than the low temperature set value or higher than the high temperature set value, the instrument automatically issues an audible and visual alarm. 4. Parameter setting function: directly set the high temperature set value, low temperature set value, control temperature value and control hysteresis value through the setting keys on the panel. 5. Silencing function: When the instrument is in the sound alarm state, if necessary, you can click the "Alarm" button to stop the buzzer and eliminate the sound, and click it again to turn on the sound. In the setting state, click the "Alarm" button to save the setting value. 6.Power soft switch: Long press the "Power" button on the panel to turn off the instrument power, and long press the "Power" button again to turn on the instrument power. In addition, the liquid nitrogen level alarm can also automatically start and stop the solenoid valve according to the set temperature point to realize the liquid nitrogen replenishment function of cryogenic equipment, effectively improving the safety and reliability of the operation of the liquid nitrogen container. If you have any needs, please contact KGSQ liquid nitrogen tank:
Liquid nitrogen, as a low-temperature liquid of -196 , cannot be stored in any container. It requires a special container, a liquid nitrogen tank, for storage. Containers for storing liquid nitrogen can be divided into two types: one is an open liquid nitrogen tank, which can store liquid nitrogen and samples; the other is a self-pressurizing liquid nitrogen tank, which is specially used for rehydration of liquid nitrogen containers. Both have the same characteristics, including double-layer structure of inner and outer bladders; vacuum insulation; long-term storage of liquid nitrogen, etc. But apart from that, the difference between the two is still very big, letâ??s look down. 1. Different materials The self-pressurizing tank is made of 304 stainless steel, which has good load-bearing and high strength, and has a smooth metal appearance; The open-top liquid nitrogen tank is made of aluminum alloy, is light in weight and easy to carry. The appearance is spray-painted and is white. 2. Different functions The self-pressurizing tank is used for the storage and transportation of liquid nitrogen. It can increase the pressure through internal liquid nitrogen vaporization and promote liquid drainage and replenishment. It cannot store biological samples; Open liquid nitrogen tank is also called liquid nitrogen biological container. That is: a container for storing liquid nitrogen and biological samples. Samples such as frozen cell semen can be stored in it, and the deep low temperature of liquid nitrogen can be used for long-term preservation. 3. Different structures The self-pressurizing tank as a whole consists of the tank body, valves, pipes, liquid level gauge and internal boosting plate; The open liquid nitrogen tank is composed of inner and outer tanks, vacuum interlayer, neck tube, neck plug and bucket. 4. Different capacities The volume range of self-pressurizing tanks is large, ranging from 15-500L; The volume of open liquid nitrogen tanks is small, ranging from 2-175L. In short, if you need to store biological samples, you can choose a conventional tank; if you refill other liquid nitrogen containers, you need to use a self-pressurizing tank.
Threaded flanges are not suitable for pipelines with thin wall thicknesses because it is difficult to cut threads on such pipelines. Description Threaded flanges are designed to use threads to connect flanges to piping. Threaded flanges are used to connect pipes together in a safe, leak-free manner. They are often used in industrial pipelines where the flow of fluids or gases needs to be carefully controlled. Threaded flanges are designed to screw onto the end of a pipe, creating a tight seal that prevents leaks and ensures that the pipe operates at maximum efficiency. In addition to being used to connect pipes together, threaded flanges can also be used to connect other piping components such as valves, pumps and fittings. This makes them a versatile component that can be used in a variety of different piping configurations. Threaded flanges are typically made from materials such as carbon steel, stainless steel or alloy steel. The material used will depend on the specific requirements of the pipeline and its operating environment. The main advantage of threaded flanges is that they do not require welding to connect to the pipe. The ability to form joints without welding is a considerable advantage and is critical in certain locations and industries such as gas stations, hexane plants, flammable liquid stores, and other explosive areas (Ex zones). If welding is not required, the potential source of ignition has been removed. Another advantage is that threaded flange fittings are faster and easier to assemble and disassemble than welded flange fittings. Threaded flanges are not suitable for pipes with thin wall thicknesses, as it is more difficult to cut threads on such pipes. In some cases, sealing welds can be used to improve the integrity of the flange and reduce the potential for leakage. Adding a seal weld increases the integrity of the flange, but it also makes the joint more difficult to assemble and disassemble (because the weld makes it a permanent joint).
Threaded flanges are not suitable for pipelines with thin wall thicknesses because it is difficult to cut threads on such pipelines. Description Threaded flanges are designed to use threads to connect flanges to piping. Threaded flanges are used to connect pipes together in a safe, leak-free manner. They are often used in industrial pipelines where the flow of fluids or gases needs to be carefully controlled. Threaded flanges are designed to screw onto the end of a pipe, creating a tight seal that prevents leaks and ensures that the pipe operates at maximum efficiency. In addition to being used to connect pipes together, threaded flanges can also be used to connect other piping components such as valves, pumps and fittings. This makes them a versatile component that can be used in a variety of different piping configurations. Threaded flanges are typically made from materials such as carbon steel, stainless steel or alloy steel. The material used will depend on the specific requirements of the pipeline and its operating environment. The main advantage of threaded flanges is that they do not require welding to connect to the pipe. The ability to form joints without welding is a considerable advantage and is critical in certain locations and industries such as gas stations, hexane plants, flammable liquid stores, and other explosive areas (Ex zones). If welding is not required, the potential source of ignition has been removed. Another advantage is that threaded flange fittings are faster and easier to assemble and disassemble than welded flange fittings. Threaded flanges are not suitable for pipes with thin wall thicknesses, as it is more difficult to cut threads on such pipes. In some cases, sealing welds can be used to improve the integrity of the flange and reduce the potential for leakage. Adding a seal weld increases the integrity of the flange, but it also makes the joint more difficult to assemble and disassemble (because the weld makes it a permanent joint).
Livestock liquid nitrogen tank, as a low-temperature container, is usually used to store animal semen. During storage, liquid nitrogen is used as the refrigeration medium. However, the temperature of liquid nitrogen is -196C, and its volatile nature is its constant attribute. Therefore, when the staff opens the liquid nitrogen tank to take out the frozen semen, the contact heat increases as the residence time increases. The sample placed in the bucket will be exposed to part of the normal temperature after being taken out, and the temperature will gradually rise. If it is placed in the liquid nitrogen tank again, the volatilization of liquid nitrogen will also be accelerated. However, the loss of frozen semen is normal. Frequent users know that we only need to replenish liquid nitrogen in time to ensure the safety of frozen semen in livestock liquid nitrogen tanks. When it comes to rehydration, there are many ways to replenish liquid nitrogen, including pouring it directly yourself, or using tools such as liquid nitrogen pumps and liquid nitrogen supply tanks. Among them, liquid nitrogen pump is a common and practical "liquid replenishment artifact". It is divided into two types: foot pump and automatic pump; their pump bodies are made of stainless steel, which are easy to operate, beautiful and durable. How to use liquid nitrogen pump: 1. Close the liquid nitrogen pumpâ??s liquid outlet valve; 2. Insert the liquid inlet of the liquid nitrogen pump into the neck of the jar and turn it clockwise until it is tight; 3. Also insert the liquid nitrogen pump outlet into the tank, and seal the liquid nitrogen pump and neck tube with a sealing ring; 4. If it is a foot pump, you can control the liquid discharge by simply stepping on it; if it is an electric pump, you can control the discharge of liquid nitrogen through the mobile phone APP. Generally speaking, the foot pump has a liquid output of about 5L per minute, and the mechanical pump has a liquid output of about 8L per minute. Note: Whether it is a foot-operated or mechanical liquid nitrogen pump, the diameter of the tank is required to be 50mm and the volume is greater than or equal to 10L. Liquid nitrogen tanks that do not meet the conditions cannot be used.
Description 410 stainless steel is food grade, 410 stainless steel is not toxic, and it is not harmful to the human body when used as tableware. 410 stainless steel is a stainless steel grade produced in accordance with the American ASTM standard, equivalent to China's 1Cr13 stainless steel, S41000 (American AISI, ASTM). Carbon 0.15%, chromium 13%,410 stainless steel: has good corrosion resistance, machinability, general purpose blade class, valve class. Choose stainless steel products, recommended to choose 304 steel. 304 steel (refers to stainless steel with chromium content of 18% and nickel content of 8%) is widely used in corrosion-resistant containers, tableware, furniture, railings, medical equipment and so on. The purchase of stainless steel products should be optimistic about the type of labeling. There are often "13-0" (420 steel), "18-0" (430 steel), "18-8" (304 steel) on the stainless steel tableware, the number in front of the code indicates the chromium content, and the number behind represents the nickel content. Whether stainless steel utensils are safe is mainly a problem of heavy metal migration. In general, the 304 steel common on the market now is less chromium migration. 410 stainless steel Features: 1, high strength. 2. Excellent machinability. 3. Hardening occurs after heat treatment. 4. Magnetic. 5, not suitable for harsh corrosive environment. 6, scope of application: general blade, mechanical parts, class 1 tableware (spoon, fork, knife, etc.).
TOPTITECH's 30" SUS 316L Sintered Alloy Porous Filter Elements are crafted from premium SUS 316L stainless steel alloy, ensuring durability and reliability in demanding environments. The sintered alloy construction provides excellent resistance to heat, corrosion, and physical wear, making them ideal for challenging filtration applications. The linked pores in the porous structure of the 30" SUS 316L Sintered Alloy Porous Filter Elements facilitate the effective removal of pollutants. The large surface area facilitates optimal particle capture, ensuring high filtration efficiency while minimizing pressure drop. With customizable configurations available, TOPTITECH can tailor the pore size, thickness, and shape to meet specific filtration needs. Parameter Material: SUS 316L Length: 30â?? Diameter: 30mm Pore size: 15 um Wall thickness: 2.5mm Connector: 1/2â?? NPT Features Exceptional Durability High Filtration Efficiency Robust Heat and Corrosion Resistance Customizable Configurations Wide Range of Applications What is 1/2â?? NPT connector? The 1/2â?? NPT interface refers to a common standard for pipe threads used in connecting fittings and components. NPT stands for National Pipe Taper, which is a widely adopted thread standard in the United States. In this product, 1/2â?? NPT indicates that the thread size of the interface is 1/2 inch. NPT interfaces feature a tapered thread design, where the threads gradually narrow toward the end of the pipe, creating a cone shape. This design ensures a secure connection that helps prevent oil or gas leakage effectively. The 1/2â?? NPT interface finds extensive applications in various industries, including fluid and gas transfer systems, pipe connections, valves, instruments, and other equipment involving pipe connections. It is widely embraced in industrial settings due to its ease of installation, high reliability, and ability to withstand high-pressure and temperature environments. It is important to note that NPT interfaces are tapered thread standards and are not compatible with parallel threads (such as NPS). Therefore, when selecting and connecting fittings, it is crucial to ensure the use of the same type of thread to achieve tight and reliable connections.
The air pump for this Dr. Odin air mattress provides sequential inflation and deflation of the air cells throughout the mattress, forming an air channel in the mattress to redistribute pressure. The air pump operates quietly, is vibration-free and energy-efficient. This Air Mattress can be placed over the top of an existing mattress. It is lightweight, portable, and easy for transportation. It is ideal for use in home health care or nursing homes. Features: PVC material Low noise Adjustable pressure Electric shock protection Air-tight pressure valve Low power consumption Portable & handy Care: Keep the electric pump on for 23 hours and keep it off for 1 hour Don't use the mattress near an open flame or near a heater Don't smoke near the air mattress Keep sharp objects away from the mattress Low noise & low vibrations Knob to adjust the pressure Easy to fit on a bed frame Recommended for bed ridden patients Additional Info: Model number: OAM002 Warranty: 12 months Dimensions: 26 x 15.5 x 17 cms Weight: 2500gms Includes: Air pump, Air mattress, User manual, Repair kit Air Output: 6-7 Minutes Material: PVC Maximum User Weight: 110KGs Pressure Range: 70-140 mmHG Power Supply: 220-240 V/50HZ Manufactured by: Passim Lifesciences Ltd., Plot No. 45, IA-2, Panchkula, Haryana 134113 India
We manufacture flanges in a variety of sizes and material standards. We have a large stock of carbon steel, alloy steel and stainless steel flanges. We can also manufacture your specific flange requirements within a short lead time. Changhao is a leading steel flanges exporter and manufacturer in China and we produce most of our carbon steel flanges and stainless steel flanges for export from China to the world. Steel flanges are available in a variety of shapes and sizes to suit different applications. Flanges are usually in the shape of a disc and are used to connect two pipes together or to connect pipes to pressure vessels, valves, pumps, integral flange assemblies or other components. Flanges have bolt holes around the rim. The bolts are used to connect two flanges, which are usually attached to the pipe end with a gasket in between. Flanges come in a variety of shapes, such as threaded (the pipe is screwed onto the flange), weld neck (the pipe is welded to the collar of the flange), socket weld (fillet weld connection), lap joint (connection at the short end used)), sliding, etc. The flange can also be used to cover or close the plate at the end of the pipe. This is called a blind flange. Therefore, flanges are considered to be internal components used to support mechanical parts. The ASME B16.5 and ASME B16.47 codes cover American standard pipe flanges and the EN 1092-1 code covers European steel flanges. Flanges can be manufactured and designed for specific pressure ratings; 150 lb, 300 lb, 400 lb, 600 lb, 900 lb, 1500 lb and 2500 lb.
Kendall is a well-known professional air-cooled piston condensing unit supplier and manufacturer. They specialize in designing and producing high-quality, energy-efficient air-cooled piston condensing units for various industrial applications. Air-cooled piston condensing units are an essential part of any refrigeration system. They are responsible for removing the heat generated by the system and transferring it to the surrounding environment. This ensures that the refrigeration cycle operates at an optimal level and maintains the desired temperature within the refrigerated space. Here are some frequently asked questions about air-cooled piston condensing units: 1. What is an air-cooled piston condensing unit? An air-cooled piston condensing unit is a refrigeration system component that utilizes a compressor to compress the refrigerant gas and discharge it to the condenser. The condenser then removes the heat from the compressed refrigerant gas and transfers it to the surrounding environment using an air-cooled heat exchanger. 2. What are the benefits of using an air-cooled piston condensing unit? Air-cooled piston condensing units offer several benefits, including energy efficiency, easy installation, low maintenance requirements, and cost-effectiveness. They are also suitable for outdoor installations and do not require water for cooling. 3. What factors should be considered when selecting an air-cooled piston condensing unit? When selecting an air-cooled piston condensing unit, several factors need to be considered, such as the cooling capacity required, the ambient temperature, the refrigerant type, and the overall system design. 4. How does an air-cooled piston condensing unit work? An air-cooled piston condensing unit works by compressing the refrigerant gas using a piston compressor. The compressed gas is then discharged to the condenser, where it is cooled by the air-cooled heat exchanger. The cooled refrigerant liquid then flows through the expansion valve and evaporator, absorbing heat from the refrigerated space, and completing the refrigeration cycle.
An 18 ton diesel forklift is a heavy-duty industrial vehicle used for lifting and transporting heavy loads in warehouses, construction sites, and other material handling environments. It is powered by a diesel engine, which provides the necessary power and torque to handle heavy loads. Features 1. Hydraulic system: china top brand pump and valve 2. Power unit: The car adopts the world's engine water-cooled direct injection six-cylinder four-stroke low-speed high-torque diesel engine, Cummins engine or Yuchai engine Gearbox: transmission with Zhongnan brand FAQs Q: What weight capacity does the 18-ton forklift offer? A: The 18 ton forklift is specifically designed to handle heavy loads of up to 18 tons, making it ideal for industrial tasks that require substantial lifting capacity. Q: Are there safety features incorporated into the forklift? A: Our 18 ton forklift comes equipped with advanced safety features such as intelligent sensors, anti-tip technology, and ergonomic operator controls to ensure the highest level of safety during operation. Q: Can the forklift navigate uneven terrains? A: Yes, the forklift is engineered to navigate diverse terrains with ease. Its adaptive control system and robust construction allow it to handle various surfaces and environments. Q: How often does the forklift require maintenance? A: Regular maintenance is essential for optimal performance. Depending on usage, we recommend scheduling maintenance checks every 250 hours of operation. Our support team can provide detailed maintenance guidelines. Q: Is operator training provided? A: Yes, we offer comprehensive operator training to ensure that your team can operate the forklift safely and efficiently. Proper training enhances productivity and reduces the risk of accidents. Q: Can the forklift be customized for specific tasks? A: Absolutely, we understand that different industries have unique requirements. Our experts can work with you to customize certain features of the forklift to suit your specific tasks and operational needs.