- Argon Tank Sizes for MIG or TIG Welding
- Buy Compressed Argon Gas or Liquid Argon (Ar)
- Gas Cylinder Safety Regulations and Guidelines
- Before Buying an Argon Tank on Craigslist [Watch Out For]
- Understanding Argon Gas
Argon Tank Sizes for MIG or TIG WeldingFrom the table below you can see the sizes of Argon tanks vary from small and portable to large and weighty. Is within its testing dates and stored with care. Here is a chart showing the cylinder type names in the first column. The second column shows the common name for that tank size. Even so this table will give you a good starting point for the more common cylinder sizes. And an idea of the amount of Argon gas a cylinder of that size should have in it. Depending on your gas supplier and where you are in the country. Your S tank could hold cubic feet of gas. Or cubic feet of gas. See them for yourself by clicking on the links below. Go through to Amazon and take a look at todays price. On Amazon. Compressed gas cylinder sizes can differ. Because tank makers manufacturer gas bottles in slightly different sizes and weights. They can quickly spot their tanks. And from company storage cages and turn up on the second user market. So when those tanks next go in for a refill. Gas suppliers recognize stolen tanks and return them to their rightful owner. Find out how in this article. Because each manufacturer decides what cylinder colors they will use for their tanks. In the first 1 minute 30 seconds of this video. Along with the smaller Argon tank bottles. That you find are more typically owned and refilled at gas suppliers. When you run at the usual 15 to 20 cubic feet per minute. Do you do lots of tack welds and short bead lengths? Try again. And eventually find the settings you want. And you may decide on a cf cubic foot Argon tank. Or even a cf tank because the cost per cubic foot for refilling is cheaper. Breaking off welding mid project to get more Argon gas is a real pain. And could tip you toward getting a larger tank than you first planned. Then factor in the cost of getting your smaller Argon Tank refilled. And travel time and petrol used by your truck. Particularly if you live some way away from where you get your Argon tank refilled. Do you weld Aluminum away from your workshop? Of course you then accept the increased cost per cubic foot of gas for the easy lift and shift size of your Argon tank. Ok, so you may think this is obvious but the truth is. The further away you live from your local Argon gas supplier. The more it costs you in time. And fuel for your truck to get there.
Buy Compressed Argon Gas or Liquid Argon (Ar)
Argon, chemical formula Ar, is a highly useful pure gas used in several different applications in today's world. Argon gas is used for all of the following:. Argon is an inert gas, meaning it reacts with fewer substances than most pure gases. This means you can cut and weld with very little loss. Argon is a very useful and efficient welding gas for all of your industrial applications. Argon gas can be dangerous if you don't know its unique specifications. Safety is never a guarantee. Make sure you know exactly what you're doing before working with argon gas. Sincewe have represented quality manufacturers of industrial and medical gases, welding equipment and supplies in Southern Wisconsin and Northern Illinois. We offer same-day deliveries to:. The welding experts at Welding Supply offer you a low cost for refilling or exchanging your empty argon tank. Keep your supply full. We distribute high purity grade Argon gas in bulk and micro-bulk, shipping the gas in bottles or as liquid argon in dewars for portable use. Trust in the best welding supplier in the southeastern Wisconsin and northern Illinois regions to fulfill your pure and mixed gas needs. Work with us today and get your high purity grade Argon for a low price for sale from Welders Supply. Phone Orders: Big Bend W S Hwy. Advanced Search. Search online store. Create Account Login. Filter Results.
Gas Cylinder Safety Regulations and Guidelines
Liquid argon is tasteless, colorless, odorless, non-corrosive, nonflammable, and extremely cold. It is monatomic and extremely inert, forming no known chemical compounds. Special materials of construction are not required to prevent corrosion. However, materials of construction must be selected to withstand the low temperature of liquid argon. Although used more commonly in the gaseous state, argon is commonly stored and transported as a liquid, affording a more cost effective way of providing product supply. When argon is converted to liquid form it becomes a cryogenic liquid. Liquid argon has a boiling point of The temperature difference between the product and the surrounding environment, even in winter, is substantial. Keeping this surrounding heat from the product requires special equipment to store and handle cryogenic liquids. A typical system consists of the following components: a cryogenic storage tank, one or more vaporizers, a pressure control system, and all of the piping required for fill, vaporization, and supply. The cryogenic tank is constructed like a vacuum bottle. It is designed to keep heat away from the liquid that is contained in the inner vessel. Vaporizers convert the liquid argon to its gaseous state. A pressure control manifold controls the pressure at which the gas is fed to the process. Being odorless, colorless, tasteless, and nonirritating, argon has no warning properties. Humans possess no senses that can detect the presence of argon. Argon is nontoxic and largely inert. It can act as a simple asphyxiant by displacing the oxygen in air to levels below that required to support life. Inhalation of argon in excessive amounts can cause dizziness, nausea, vomiting, loss of consciousness, and death. Death may result from errors in judgment, confusion, or loss of consciousness that prevents self-rescue. At low oxygen concentrations, unconsciousness and death may occur in seconds and without warning. Personnel, including rescue workers, should not enter areas where the oxygen concentration is below Extensive tissue damage or burns can result from exposure to liquid argon or cold argon vapors. Liquid argon is stored, shipped, and handled in several types of containers, depending upon the quantity required by the user. The types of containers in use are the Dewar, cryogenic liquid cylinder, and cryogenic storage tank. Storage quantities vary from a few liters to many thousands of gallons. Since heat leak is always present, vaporization takes place continuously. Rates of vaporization vary depending on the design of the container and the volume of stored product. Containers are designed and manufactured according to the applicable codes and specifications for the temperatures and pressures involved. Liquid product is typically removed through insulated withdrawal lines to minimize the loss of liquid product to gas. Insulated flexible or rigid lines are used to withdraw product from storage tanks. Connections on the lines and tanks vary by manufacturer. Suitable pressure regulating equipment may be attached. Valves provided for the withdrawal of liquid product are also equipped with standard CGA outlets, but are different than the connections used for gaseous discs to protect the cylinders from pressure build-up. These containers operate at pressures up to psig and have capacities between 80 and liters of liquid. Product may be withdrawn as a gas by passing liquid through an internal vaporizer or as a liquid under its own vapor pressure. Cryogenic liquid cylinders are insulated, vacuum-jacketed pressure vessels. They come equipped with safety relief valves and rupture disks.
Before Buying an Argon Tank on Craigslist [Watch Out For]
Coronavirus: USA Safety is open and accepting new orders. Lead times may vary depending on product type. Contact Customer Service for more details. Your shopping cart is empty. Shop by Categories. Back to Top. Need a quote or have questions? Read on to learn more about these guidelines. Cylinders should be stored in definitely assigned places away from elevators, stairs, or gangways. Assigned storage spaces shall be located where cylinders will not be knocked over or damaged by passing or falling objects or subject to tampering by unauthorized persons. Cylinders shall not be kept in unventilated enclosures such as lockers and cupboards. They shall not be hoisted or transported by means of magnets or choker slings. They shall not be intentionally dropped, struck, or permitted to strike each other violently. Bars shall not be used under valves or valve protection caps to pry cylinders loose when frozen. Warm, not boiling, water shall be used to thaw cylinders loose. Assigned storage places shall be located where cylinders will not be knocked over or damaged by passing or falling objects, or subject to tampering by unauthorized persons. When this is impractical, fire resistant shields shall be provided. Electrodes shall not be struck against a cylinder to strike an arc. They shall not be placed in a location where they would be subject to open flame, hot metal, or other sources of artificial heat. No one except the owner of the cylinder or person authorized by him, shall refill a cylinder. No one shall use a cylinder's contents for purposes other than those intended by the supplier. When a special wrench is required, it shall be left in position on the stem of the valve while the cylinder is in use so that the fuel gas flow can be shut off quickly in case of an emergency. In the case of manifolded or coupled cylinders, at least one such wrench shall always be available for immediate use. Nothing shall be placed on top of a fuel gas cylinder, when in use, which may damage the safety device or interfere with the quick closing of the valve. Defective hose, or hose in doubtful condition, shall not be used. Defective torches shall not be used. Oxygen and fuel gas pressure regulators, including their related gauges, shall be in proper working order while in use. Oxygen cylinders and fittings shall be kept away from oil or grease. Cylinders, cylinder caps and valves, couplings, regulators, hose, and apparatus shall be kept free from oil or greasy substances and shall not be handled with oily hands or gloves. Oxygen shall not be directed at oily surfaces, greasy clothes, or within a fuel oil or other storage tank or vessel. Additional rules. For additional details not covered in this subpart, applicable technical portions of American National Standards Institute, Z Assigned storage spaces shall be located where cylinders will not be knocked over or damaged by passing or falling objects, or subject to tampering by unauthorized persons. Back to top Compressed Gas Association, Inc. References to other publications giving additional handling precautions for specific gases are listed in Section 6. It is safer to move cylinders even short distances by using a suitable truck. Do not store cylinders near elevators or gangways, or in locations where heavy moving objects may strike or fall on them. They should be segregated. Inside of buildings, stored oxygen and fuel gas cylinders should be separated by a minimum of 20 feet, or there should be a fire-resistive partition between the oxygen and fuel gas cylinders.