ASTM A699 Steel Flange, class 4

1,We Manufacturing processes are primarily classified into four types: 1:Forging, 2:Casting, 3:Cutting, 4:Rolling. 2,We can manufacture in accordance with these standards. Standards: GB Series (Chinese Standards), JB Series (Machinery Standards), HG Series (Chemical Industry Standards), ASME B16.5 (American Standards), BS4504 (British Standards), DIN (German Standards), and JIS (Japanese Standards). Internationally, there are two primary systems of pipe flange standards: the European system, represented by the German DIN standards (including those of the former Soviet Union), and the American system, represented by the US ANSI pipe flange standards. Other common standards include: the Chinese Ministry of Machinery Industry standards (JB series), the Ministry of Chemical Industry standards (HG series), the Chinese National Standard *GB/T 9112–9124-2010 Steel Pipe Flanges*, as well as US standards (ASME B16.5), British standards (BS4504), German standards (DIN), Japanese standards (JIS), and marine standards (CBM), among others. The nominal pressure ratings for the PN series are designated by "PN" and comprise the following nine levels: PN2.5, PN6, PN10, PN16, PN25, PN40, PN63, PN100, and PN160. The nominal pressure ratings for the Class series are designated by "Class" and comprise the following six levels: Class150, Class300, Class600, Class900, Class1500, and Class2500. Flange Classification 1. **According to Chemical Industry Standards:** Flanges are classified as follows: Plate Flat Welding Flange (PL), Necked Flat Welding Flange (SO), Necked Butt Welding Flange (WN), Integral Flange (IF), Socket Welding Flange (SW), Threaded Flange (Th), Butt Welding Ring Loose Flange (PJ/SE), Blind Flange (BL), Flat Welding Ring Loose Flange (PJ/PJ), and Lined Blind Flange (BL(s)). 2. **According to Petrochemical (SH) Industry Standards:** Flanges are classified as follows: Threaded Flange (PL), Butt Welding Flange (WN), Flat Welding Flange (SO), Socket Welding Flange (SW), Loose Flange (LJ), and Blind Flange (no specific designation). 3. **According to Machinery (JB) Industry Standards:** Flanges are classified as follows: Integral Flange, Butt Welding Flange, Plate Flat Welding Flange, Butt Welding Ring Plate Loose Flange, Flat Welding Ring Plate Loose Flange, Lap Joint Ring Plate Loose Flange, and Blind Flange. 4. **According to Connection Method/Type:** Flanges are classified as follows: Plate Flat Welding Flange, Necked Flat Welding Flange, Necked Butt Welding Flange, Socket Welding Flange, Threaded Flange, Blind Flange, Necked Butt Welding Ring Loose Flange, Flat Welding Ring Loose Flange, Ring-Type Joint (RTJ) Flange and Blind Flange, Large-Diameter Plate Flange, Large-Diameter High-Neck Flange, Figure-8 Blind Plate, Butt Welding Ring Loose Flange, etc. 5. **According to the Component Being Connected:** Flanges can be classified into Vessel Flanges and Pipe Flanges. 6. **According to Structural Type:** Flanges include Integral Flanges, Threaded Flanges, Flat Welding Flanges, Butt Welding Flanges, Lap Joint (Loose/Swivel) Flanges, and Blind Flanges. A flange—also referred to as a flange plate or rim—is a component used to connect shafts to one another, or, more commonly, to join the ends of pipes. Flanges are also utilized at the inlet and outlet ports of equipment to facilitate connections between two devices—for instance, the flange on a speed reducer. A "flange connection" or "flanged joint" refers to a detachable joint assembly comprising three interconnected elements—a flange, a gasket, and bolts—that together form a sealed structural unit. In the context of piping systems, a "pipe flange" specifically denotes a flange used for plumbing within the installation; when applied to equipment, it refers to the inlet or outlet flange of that specific device. Flanges feature a series of holes through which bolts are inserted to securely fasten the two flanges together, while a gasket placed between the flanges ensures a leak-proof seal. Flanges are broadly categorized into three types: threaded (screw-in) flanges, welded flanges, and clamp-type flanges. Flanges are invariably used in pairs; threaded flanges are suitable for low-pressure piping applications, whereas welded flanges are required for systems operating at pressures exceeding 4 kilograms per square centimeter. A sealing gasket is inserted between the two flange plates, which are then firmly secured using bolts. The thickness of a flange—as well as the specifications of the bolts used to fasten it—vary depending on the specific pressure rating required for the application. When connecting equipment such as water pumps or valves to piping systems, the corresponding connection points on these devices are often manufactured in the shape of a matching flange; this method of attachment is also referred to as a "flange connection." Generally, any connecting component that utilizes bolts to join and seal the perimeters of two flat surfaces—such as the joints in ventilation ducts—is termed a "flange"; such components may collectively be classified as "flange-type parts." However, since such a connection often constitutes merely a *portion* of a larger device—for instance, the interface between a flange and a water pump—it would be inappropriate to classify the entire water pump itself as a "flange-type part." Conversely, smaller components—such as valves—that feature such flanged interfaces may indeed be appropriately categorized as "flange-type parts." -:- For detailed product information, please contact sales. -: ASTM A699 Steel Flange, class 4 Product Information -:- For detailed product information, please contact sales. -: ASTM A699 Steel Flange, class 4 Synonyms -:- For detailed product information, please contact sales. -:

ASTM A699 Steel, class 4 Product Information -:- For detailed product information, please contact sales. -: ### **Product Introduction: ASTM A699 Steel, Class 4** **ASTM A699 Class 4** is a specialized carbon-manganese steel plate representing the highest quality tier within the A699 specification, designed for extreme low-temperature pressure vessel applications requiring unparalleled toughness and fracture resistance. This classification provides exceptional performance for cryogenic service conditions where conventional materials would be susceptible to brittle fracture. --- #### **1. International Standards & Classification** **Primary Standard:** **ASTM A699/A699M** - "Standard Specification for Steel Plates, Carbon, for Pressure Vessels, Improved Transition Properties" **Classification:** - **Class 4** - Exceptional impact properties for severe cryogenic service - **Class 3** - Ultra-high impact properties - **Class 2** - Enhanced impact properties - **Class 1** - Standard impact properties **International Equivalents:** - **EN 10028-4**: 12Ni14 - **JIS G3127**: SLA 235A - **GB/T 3531**: 09MnNiDR - **ISO 9328-2**: P275NL3 --- #### **2. Chemical Composition** The chemical composition requirements for ASTM A699 Class 4: | Element | Composition (Maximum %) | |---|---| | Carbon (C) | 0.15 | | Manganese (Mn) | 0.80-1.20 | | Phosphorus (P) | 0.020 | | Sulfur (S) | 0.015 | | Silicon (Si) | 0.12-0.35 | | Nickel (Ni) | 0.40-0.70 | | Copper (Cu) | 0.30 (when specified) | **Key Composition Features:** - **Ultra-Low Carbon**: Maximum 0.15% for superior weldability and toughness - **Nickel Addition**: Enhances low-temperature toughness significantly - **Extra-Low Sulfur**: Maximum 0.015% for improved through-thickness properties - **Enhanced Manganese**: Extended range for better hardenability control --- #### **3. Physical & Mechanical Properties** **Mechanical Properties (for thicknesses up to 2 inches/50 mm):** | Property | Value | |---|---| | **Tensile Strength** | 460-560 MPa (67-81 ksi) | | **Yield Strength (min.)** | 290 MPa (42 ksi) | | **Elongation in 2" (min.)** | 28% | | **Elongation in 8" (min.)** | 31% | | **Reduction of Area (min.)** | 50% | **Exceptional Impact Toughness Properties:** - **Charpy V-Notch Test Temperature**: -150°F (-101°C) - **Minimum Impact Energy**: 35 ft-lbf (47 J) average - **Individual Minimum**: 30 ft-lbf (41 J) - **Drop-Weight Test**: Nil-ductility transition temperature below -120°F (-84°C) **Physical Properties:** - **Density**: 7.86 g/cm³ (0.284 lb/in³) - **Modulus of Elasticity**: 201 GPa (29,150 ksi) - **Poisson's Ratio**: 0.29 - **Thermal Conductivity**: 48.5 W/m·K at 68°F (20°C) - **Coefficient of Thermal Expansion**: 10.8 × 10⁻⁶/°C (-100°F to 68°F) --- #### **4. Product Applications** **Extreme Cryogenic Pressure Vessels:** - Liquid hydrogen storage tanks (-423°F/-253°C) - Liquid helium containment systems - Space launch vehicle fuel tanks - Advanced cryogenic research vessels **Aerospace and Defense:** - Rocket propulsion systems - Satellite cryogenic cooling systems - Military aerospace components - Space exploration equipment **Advanced Energy Systems:** - Hydrogen fuel cell storage systems - Nuclear fusion research equipment - Advanced LNG liquefaction plants - Cryogenic energy storage vessels **Research and Scientific:** - Particle physics detector systems - Superconducting magnet containers - Advanced laboratory cryostats - Quantum computing equipment **Specialized Industrial:** - Semiconductor manufacturing chambers - Pharmaceutical ultra-low temperature reactors - Specialty chemical processing vessels - Advanced materials production equipment --- #### **5. Fabrication Characteristics** **Welding Performance:** - **Excellent Weldability**: With nickel-matched filler metals - **Preheat Requirements**: 200-250°F (93-121°C) mandatory - **Recommended Processes**: GTAW, GMAW with precise heat input control - **Filler Metals**: ENiCrMo-3, ERNiCr-3 or equivalent nickel-alloyed wires **Forming & Machining:** - **Superior Cold Formability**: Even at extreme thicknesses - **Bend Radius**: Minimum 0.5t for 90° bends - **Machinability**: Good (approximately 70% of B1112 steel) - **Surface Quality**: Premium finish for critical applications **Heat Treatment:** - Double normalized and tempered condition - Strict intercritical temperature control - Comprehensive PWHT protocols required **Quality Assurance:** - **Extended Charpy Testing**: -150°F (-101°C) with multiple locations - **Fracture Mechanics Testing**: CTOD testing available - **Advanced Ultrasonic Testing**: Automated UT with data recording - **Metallurgical Analysis**: Full microstructural characterization - **Certification Level**: Nuclear-grade documentation standards --- ### **Technical Summary** ASTM A699 Class 4 represents the ultimate evolution in carbon-manganese steel plate technology for extreme cryogenic pressure vessel applications. With nickel-enhanced chemistry and the most rigorous manufacturing controls in the A699 series, this classification delivers unprecedented performance for liquid hydrogen storage, aerospace systems, and advanced research applications operating at temperatures as low as -423°F (-253°C). The combination of ultra-low carbon, controlled nickel addition, and exceptionally tight impurity limits ensures exceptional fracture toughness and resistance to brittle fracture in the most severe service conditions. Class 4's enhanced strength properties, coupled with its certified ultra-low temperature impact values, establish it as the material of choice for next-generation cryogenic applications where conventional materials would fail. The material's superior fabrication characteristics, combined with nuclear-grade quality assurance protocols, make ASTM A699 Class 4 the benchmark for critical cryogenic pressure vessels where absolute reliability, safety, and performance are mandatory requirements for success in extreme operating environments. -:- For detailed product information, please contact sales. -: ASTM A699 Steel, class 4 Specification Dimensions Size： Diameter 20-1000 mm Length <4314 mm Size:We can customized as required Standard： Per your request or drawing We can customized as required Properties（Theoretical） Chemical Composition -:- For detailed product information, please contact sales. -: ASTM A699 Steel, class 4 Properties -:- For detailed product information, please contact sales. -:

Applications of ASTM A699 Steel Flange, class 4 -:- For detailed product information, please contact sales. -: Chemical Identifiers ASTM A699 Steel Flange, class 4 -:- For detailed product information, please contact sales. -:

Packing of ASTM A699 Steel Flange, class 4 -:- For detailed product information, please contact sales. -: Standard Packing: -:- For detailed product information, please contact sales. -: Typical bulk packaging includes palletized plastic 5 gallon/25 kg. pails, fiber and Steel Flange drums to 1 ton super sacks in full container (FCL) or truck load (T/L) quantities. Research and sample quantities and hygroscopic, oxidizing or other air sensitive materials may be packaged under argon or vacuum. Solutions are packaged in polypropylene, plastic or glass jars up to palletized 785 gallon liquid totes Special package is available on request. E FORUs’ is carefully handled to minimize damage during storage and transportation and to preserve the quality of our products in their original condition