Category Archives: Technology

Common Types Of Industrial Bags For Liquid Filters

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Reputable companies such as www.greenleaffilters.net offer their customers a wide variety of filters to choose from, including Donaldson compressed air filters. When it comes to needing liquid bag filters, there are three common types to choose from. Below are the common types of liquid filter bags available on the market today.

Mesh

The first type of liquid filter bag is a mesh style. These are tough filters that meet all FDA guidelines. They are offered with micron ratings ranging up to 1500. The bags are useful for allowing the economical removal of contaminants which are nondeformable. These mesh filters are also compatible with many types of chemicals. The bags come with handles made from flange or steel rings.

Felt

The best benefit of felt bags is that they can hold a high load of dirt. They also meet the FDA regulations. Typically, these bags are offered with micron ratings that range from 1 to 200. When you choose to use felt bags, you will have the ability to remove both gelatinous and solid particles from the liquid at a low cost. The felt liquid bag filters come with a glazed or singed finish over polypropylene and polyester coatings. This is done to reduce the amount of fiber shredding from the bags.

PEPT

Polyester phenolic treatment filters incorporate a dual or single layer of resin textile. Unlike the other filters and cartridges, these filter bags can contain any contaminants securely within the bag. These filters can come with micron ratings anywhere from 1 to 200 and will be able to easily remove any gelatinous particles. The handles on these bags are standard and you will be able to choose from a plastic flange or a steel ring.

No matter what needs your industrial facility has when it comes to liquid bag filters, you can be sure to find one that offers the specifications you are looking for. Each bag comes in a wide range of specifications, micron sizes and choices in handles. All industries can incorporate liquid filter bags in their food, paper and chemical warehouse operations.

Buying Components Needed for Upgrades or Repairs

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The profitability of your laundromat depends significantly on how well the machines run each day. When a single washer or dryer stops operating, it could jeopardize your laundromat’s profits until it is fixed. You cannot afford for a single machine to malfunction.

However, you also do not want to jeopardize your profits hiring expensive repair contractors to fix broken washers and dryers. You may want to make the repairs and upgrades on your own to save time and money. You can find the components you need by shopping on the websites of equipment dealers, wholesalers, and laundry parts distributors today.

Shopping by Mechanical Function

The parts you buy most often may perform the most important functions in your machines. They may cause the drums in the washers and dryers to spin, kick on the heating elements within the ventilation system, or turn the belts in the motors. They cannot be replaced by another other part in the machine.

When you know what kind of part you need, you may want to shop for it as quickly and easily as possible. You do not want to wade through pages of parts for sale just to find the one you need.

The website lets you filter your search based on the function that the part will serve in the machine you are repairing or upgrading. You can use the filters to identify the operations you need to address. You then will be showed the pages of parts that fit the function you have in mind.

Shopping by Manufacturer

You also may need to buy parts that are specific to the manufacturer that made your machine. The machine you are repairing or upgrading may not be able to take parts that are universally designed. It may only take brand specific pieces.

You can filter through the pages of parts by using the options to narrow in on parts made by the brand of your machine. You avoid buying parts made by other manufacturers. You also get the parts that will serve the precise purpose of the machine being fixed.

Anti Corrosion Liquid

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In 1938, the world changed. Not for the events going on in Europe at the time, but for the release of a newly manufactured fiber. Thanks to the chemical company DuPont and a team led by Wallace H. Carothers, nylon came into the world.

Nylon and World War II

The first use of the fiber was in woman’s stockings. The strong, light, inexpensive stockings were a huge hit when they came on the market in 1939. There would have been no stopping the clothing industry in producing more items made of nylon. That is, until World War II.

Members of the Armed Forces realized the strength of the synthesized fiber could work for them. For example, manufacturing of nylon parachutes began to replace those made of rippable silk or canvas. It was also used in rope and airplane cords. The war effort relied on the material so much there were Nylon Riots across the U.S. due to the shortage of stockings.

Nylon Today

The use of nylon hasn’t abated since it’s invention. In fact, it has grown considerably. One example of its use is in anti corrosion liquid. Thanks to its strength, companies like Nycote Laboratories sell these liquids to coat airplanes and aerospace vehicles. Once bonded, the liquid protects the surface from pinholes and other damage which can start small but grow to dangerous sizes.

Nylon is used in plastic fasteners and machine parts to maintain their structure and minimize sudden breaks. Thanks to its ability to handle extreme temperatures, a form of the fiber is utilized in cookware. Not only pots and pans but also utensils.

Of course, it is used in a range of apparel from bathing suits to wedding gowns. Thanks to its elasticity and resistance to mildew, nylon tends to be part of everything you wear. Even if you don’t know it.

Nylon was and is a game changer for many industries. As technology continues to advance, who knows how the fiber will be used to protect someone or something in the future.

Sapphire Wafers and Substrates

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Synthetic sapphire created in laboratories is a very hard material of aluminum oxide in a hexagonal crystalline form. Sapphire is the third hardest mineral after the diamond and the moissanite. It is durable and has high temperatures and a high heat resistance in most process environments and applications found in semiconductor wafer manufacturing.

Polished sapphire wafers and substrates are used for applications including infrared detectors, hybrid microelectronics, radiation resistance, and polishing characters. LED arrays are also produced on sapphire substrates, and they save megawatts of lighting power.

Very thin electronic wafers are also used as the insulating substrates of solid-state electronics, especially integrated circuits due to their excellent electrical insulating properties. Sapphire has high thermal conductivity, and CMOS chips on sapphire are useful for high-power radio-frequency applications such as satellite communication systems, public safety band radios, and cellular telephones.

Sapphire blank applications include substrates, wafers, covers, flats, windows, and spacers. The size of sapphire able to be polished is limited only by the material’s availability. Sapphire wafer services include sapphire cnc machining, dicing, wafer thinning, backgrinding, hole drilling, angle and edge polishing, and other industrial purposes.

Polishing Corporation of America (PCA), in their modern semiconductor industry facility in the heart of Silicon Valley in Santa Clara, California, has been manufacturing high-grade sapphire wafers for close to half a century. It is one of the leading suppliers for customers around the world and has developed a polishing substrates process that is approximately nine times as easy as previous processes. Their technicians also created the first wax-free method of silicon wafer polishing that obtains ultra flatness at a very low cost.

PCA offers silicon wafers of any diameter (including new ultra-flat 400mm diameter wafers) that are produced to precise SEMI standards or to custom specifications for individual semiconductor designs.