1. Aerospace Standards (AS)
AS9100D: Aerospace Quality Management Standard ensuring product safety, reliability, and regulatory compliance. It is a critical standard for MRO organizations (Maintenance, Repair, and Overhaul) in the aerospace industry, ensuring that maintenance processes meet the stringent requirements for safety, quality, and regulatory compliance in the aviation sector.
AS1234: Though primarily focused on elastomeric seals, AS1234 includes performance testing guidelines relevant for all aerospace seals. It covers high-temperature and high-pressure environments, which are critical areas where spring-energized seals and rotary lip seals excel, especially those made from polytetrafluoroethylene (PTFE), or other advanced polymers.
AS1895: AS1895 provides general requirements for hydraulic seals, focusing on the materials and performance characteristics needed to maintain integrity in aerospace hydraulic systems. Spring-energized seals, particularly those used in dynamic hydraulic applications, must meet these general standards to ensure system reliability and safety.
AS4052: AS4052 provides material specifications and testing requirements for dynamic seals, including the material resilience needed for aerospace fluid power systems. Since spring-energized seals are often made from PTFE or other advanced polymers for aerospace use, this standard ensures that the materials meet the necessary thermal, chemical, and mechanical resistance requirements.
AS4716: While AS4716 primarily deals with O-rings and dynamic elastomeric seals, it includes specifications for groove dimensions and tolerances for seals in aerospace hydraulic and pneumatic systems. Since spring-energized seals often fit into similar applications, this standard can be relevant for defining the installation environment, particularly groove design and surface finish.
AS4832: AS4832 also specifies the test procedures and performance criteria for seals used in high-temperature, high-pressure applications, particularly in the aerospace industry. The standard is crucial for ensuring the reliability and safety of seals utilized in critical aerospace systems, such as engines and propulsion systems.
2. Aerospace Recommended Practices (ARP)
ARP1231: Testing guidelines for high-temperature seals in aerospace, focusing on durability under extreme conditions.
ARP5316: Instructions for storage, handling, and shelf life of elastomeric seals to ensure long-term reliability.
3. MIL Standards (Military Standards) (Some examples only)
MIL-DTL-25988: Covers fluorocarbon elastomer materials for seals in military aircraft, ensuring performance in extreme environments.
MIL-STD-1523: Age control requirements for elastomeric seals and gaskets to ensure long-term performance.
MIL-G-5514: Specifications for high-performance hydraulic and pneumatic seals, capable of withstanding temperature variations and long-term wear.
MIL-PRF-5606, MIL-PRF-83282: Military specifications for hydraulic fluid used in aircraft, military aircraft, and other aerospace applications.
MIL-PRF-87257, MIL-PRF-7808, MIL-PRF-23699: Outlines the requirements for specific types of lubricant, particularly for use in aerospace applications.
4. SAE AMS (Aerospace Material Specifications)
AMS7276: Material requirements for PTFE (polytetrafluoroethylene) seals, valued for chemical resistance and durability in aerospace applications.
AMS7257: A specification developed by SAE International that covers the requirements for a high-strength, corrosion-resistant alloy known as austenitic stainless steel. Specifically, AMS 7257C refers to a specific type of stainless steel that is often used in aerospace and other demanding engineering applications.
AMS5510: This specification covers the properties of certain grades of stainless steel (like 304 and 316) that are commonly used for sealing applications.
AMS6381: This standard specifies the requirements for nickel-copper alloys, which can also be relevant for seals used in corrosive environments.
AMS4970: This specification pertains to titanium and titanium alloys, which are sometimes used in sealing applications due to their strength-to-weight ratio and corrosion resistance.
AMS2680: This is related to the properties of elastomeric materials used in conjunction with metal seals, which can also impact the overall sealing solution.
AMS-P-83461: High-performance elastomeric seals for hydraulic and pneumatic systems.
5. ISO & ASME Standards
ISO 4287: Surface roughness parameters essential for ensuring seal performance through controlled surface finish quality.
ISO 9001:2008: Global quality management standard, focusing on consistent product quality and customer satisfaction.
ASME B46.1: Guidelines on surface texture, critical for maintaining the integrity of sealing components.
The above is not an exhaustive list and merely highlights some of the more well-known standards for sealing and material solutions. Omniseal Solutions is a long-standing partner with established Tier 1 and Tier 2 aviation customers that require specifications and material designations that are unique to their application or system. Each customer has different needs, and they need to be consistent. Adhering to standardized requirements ensures reliability, functional commonality, and operational compatibility between systems. This is one of the most business critical aspects when it comes to making a product or solution!
For specific standards that your components need to conform to depend on the material composition, application environment, and performance requirements of the required seals. Omniseal Solutions’ engineers can help you determine what may be essential with a wide range of custom components, e.g., Omniseal® spring-energized seals, rotary lip seals, metal boss seals, bearings, and more. Put together, these standards are the backbone of safe, reliable aerospace operations, with high performance expected under the most extreme conditions.