What is the difference between API 6D and 608?
Technical Parameter Comparison
Pressure and Temperature
API 608 is generally suitable for pressure ratings of 150–600 and a temperature range of -29°C to 200°C. API 6D, on the other hand, can handle pressure ratings of 150–2500 or even higher, with a temperature range of -46°C to 200°C (or even lower/higher), demonstrating wider adaptability.
Operating Conditions and Media Compatibility
API 608 is suitable for low to medium pressure conditions and general media such as water, oil, gas, and chemicals. API 6D is particularly suitable for high pressure, highly corrosive media, and harsh operating conditions, especially its ability to withstand environments such as hydrogen sulfide.
Material Selection Differences
In terms of material selection, API 608 valve bodies/bones are often made of ASTM A216 WCB (carbon steel) or A351 CF8/CF8M (stainless steel). API 6D emphasizes higher strength and corrosion resistance. Its valve body/bonnet typically uses ASTM A694 F52/F60 (high-strength steel), A350 LF2 (low-temperature steel), or A182 F316. The ball/steel is often made of hardened stainless steel to improve wear resistance and corrosion resistance, and the sealing material uses a combination of metal seals and soft seals.
Testing and Structural Requirements
API 6D Testing Requirements
API 6D testing requirements are more stringent, covering high-pressure shell testing, bidirectional sealing testing (meeting double shut-off and discharge functions DBB/DIB requirements), fire-safe design testing (optional but common for pipeline valves), and anti-static testing (particularly suitable for ball valves). It is applicable to more demanding operating conditions, such as long-distance pipelines and subsea pipelines.
API 608 Testing Standard
The standard API 608 testing standard is relatively lenient and mainly applies to general industrial valves.
Structural Design Comparison
Structurally, "API 6D" valve bodies are more robust, typically employing welding or one-piece forging to withstand high pressure and harsh environments. They must also meet fire-resistant design requirements, usually requiring API 607/6FA fire resistance testing. "Standard API 608" valve bodies, on the other hand, have a relatively simpler structure, typically a two- or three-piece design, do not require fire/explosion-proof design, and are primarily made of ordinary carbon steel/stainless steel.
Furthermore, "API 6D" may also involve more stringent applicable standards, such as ASME B16.34 (pressure-temperature ratings) and ASME B16.10 (structural length), and may also involve special standards such as NACE MR0175 (resistance to hydrogen sulfide corrosion). "Standard API 608," however, primarily references standards such as ASME B16.34 and ASME B16.10.
In summary, "API 6D" and "standard API 608" differ significantly in testing and structure. The former is more suitable for harsh operating conditions, such as high pressure, low temperature, and sulfur-containing oil and gas, while the latter is mainly suitable for general industrial applications.
API 6D/API 608 Valve in stock
