Aside from offering a wide range of product choices Parker O-rings , Sealing Devices also offers a knowledgeable team of applications engineers that can help you choose the right product for the application. As an Authorized Distributor of Parker O-Rings, Sealing Devices is the source for superior quality O-rings. Parker O-rings is manufactured to precise specifications and high tolerances, which make them a superior choice for aggressive chemistries and higher temperatures.
Customization is the hallmark of Parker products. With decades of experience and manufacturing facilities all over the world, Parker can modify and customize their products to fit the needs of customers. They also work with distributors like AOP Technologies to make their products even more customized. If you don’t see what you’re looking for in the catalog, ask about customizable options. These options include everything from the design of the product to the materials it is made from.
When you need to design a custom seal, you can request the material and the size of the O-Rings. Customization is the key to minimizing downtime. Parker has an extensive catalog that is customizable. If you need a larger or smaller o-ring, you can get code by your distributor. Whatever the situation, Parker has a custom O-Ring to fit the bill. They also manufacture a variety of standard O-Ring sizes for the most common applications.
O-Rings can be custom-made in any size or shape. Most manufacturers sell standard o-rings with AS 568 dimensions, but you can request a customized o-ring in any size. Custom o-rings are available in metric, AS 568, and miniature sizes. You can even choose from a continuously molded cord. The possibilities are endless. And with customization, you can use them in many different applications and industries.
When choosing a Parker O-Ring, there are several things to consider. First, the size. There are o-rings with different sizes and widths. You can select from the o-ring size chart to determine which type will fit best. After that, you can choose from different materials. If you aren’t sure which material to choose, you can always consult with an expert. The experience and knowledge of Parker experts is unparalleled.
In addition to delivering quality O-rings, the company also uses state-of-the-art technology. The company’s O-Ring Division uses a Controlled Batch Identification (CBI) program to produce its products to a high level of consistency. This technology ensures that every product meets or exceeds customer expectations and is compliant with international quality standards. Besides its ISO 9001 and AS 9100 certifications, Parker is also a member of the TS 16949 organization and VDA 6.1.
While most companies make their O-Rings using different methods, Parker uses proprietary continuous molding to produce its product. This solution allows the company to reduce the number of manufacturing steps and improve the quality of the finished product. Whether you’re replacing a rubber seal or a hydraulic cylinder, Parker is the right choice for you. Whether you need a replacement O-ring for a hydraulic or pneumatic component, our quality-controlled team can meet your needs.
O-Rings are commonly used in extraction tools, compression, and static seals. They also make up billions of seals annually. In 1937, a Danish emigrant named Niels A. Christensen received a patent for a geometrical shape. The company uses Perofluor ULTRATM elastomers for its O-Rings. The O-Ring Division also offers ultra-purity processing.
PTFE (polytetrafluoroethylene) is a good choice for O-rings for oil and gas applications. It has low gas permeability, and is also highly abrasion and flex crack-resistant. This material is resistant to oil, alcohol, and gasoline, and is also highly durable in harsh environments. Besides being chemical-resistant, PTFE O-Rings can be used in the pharmaceutical, food, and medical industries.
Designed with the highest level of precision, Parker O-Rings deliver long-life and excellent dimensional control. These elastomers are able to resist a wide range of physical, chemical, and environmental conditions. They can be used in both undercut and closed housings and are extremely durable. Dimensional control is crucial to the long-term performance of a seal. Dimensional control helps manufacturers select the right material for any application.
As with all Parker O-Rings, there are a variety of different sizes available. The Parker o-ring size chart provides nominal and metric dimensions. If your application requires non-standard sizes, you can order custom sizes without paying any tooling fees. Custom sizes are also available with no minimum order quantities. Parker also offers a full range of o-ring materials, including elastomers and high-tech polymers.
A comprehensive 74-page guide, Parker’s Sealing Guide, addresses a variety of manufacturing processes. It also covers quality assurance, controlled batch identification (CBI) programs, and the latest inspection techniques. Dimensional control, R&D labs, and material formulations are also discussed. Parker O-rings are produced to strict quality standards. Parker has ISO 9001 and AS 9100 certifications.
O-rings are often used to seal fluid and gas systems. In the past, this was not possible. However, the availability of elastomer seals has made environmental testing easier. Consequently, the Parker O-Ring Handbook is the definitive guide for the industry. The manual contains extensive information about elastomers, common applications, and o-ring failure modes. Moreover, it covers the basics of static and dynamic seal design, international sizes, and compatibility data for gases, solids, and fluids.
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When it comes to O-rings, Parker is the brand to trust. Their products are designed to meet the most demanding requirements and have been used in industries such as semiconductors, oil & gas, fluid power, and aerospace. You can find hundreds of sizes of Parker O-Rings at Wyatt Seal. They also manufacture elastomers known as Kalrez, which have outstanding performance characteristics in challenging processing environments. They are also FDA-compliant.
In addition to offering exceptional performance, these o-rings are highly customizable and have a long list of industry applications. With decades of experience in the industry, Parker has partnered with distributors such as AOP Technologies to provide their customers with a comprehensive line of products. They can also change nearly every aspect of their products, from the material to the diameter and shape. And because they are so flexible, you can find the exact type of o-ring you need for your specific application.
The quality of Parker O-Rings is second to none. The company is committed to quality and performance, and has a worldwide reputation for delivering the highest quality products and services. They also provide unmatched design, expert engineering, value added services, and efficient customer service. World-class manufacturing facilities and expert technicians make Parker O-Rings the preferred choice for sealing applications. They offer exceptional durability and reliability for the demanding industries they serve.
Fluorocarbon O-rings are compatible with oils, fuels, and gases. The material is also resistant to high temperatures. Depending on your application, you can choose from a variety of hardnesses for your O-rings. To find the ideal O-Ring for your needs, visit the Parker O-Ring Handbook. They also offer design tables. These tables are very useful when selecting the best O-Ring for your specific application.
After the Challenger disaster, NASA and its contractors worked with Morton-Thikol to redesign the booster, which now features three O-rings instead of two. To prevent the heaters from being turned off, they have onboard heaters that turn on when the temperature falls below 50 degrees Fahrenheit. Since that disaster, there have been no major O-ring problems. Parker O-Rings onboard heaters were not involved in the Columbia disaster, either.
In the Challenger disaster, the space shuttle’s rubber o-ring failed due to extreme cold. The cold caused the O-ring to lose its pliability and become rigid, causing total structural failure, resulting in the disintegration of the shuttle. After the disaster, NASA scientists redesigned the rocket booster so that the O-rings would remain at a stable 10 degrees Celsius. This solved the problem for good. The Challenger disaster taught scientists many lessons about the properties of O-ring material and their limits.
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