Meehanite,GF-20 Flake Graphite Cast Iron Flange

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. -: Meehanite GF-20 Flake Graphite Cast Iron Flange Product Information -:- For detailed product information, please contact sales. -: Meehanite GF-20 Flake Graphite Cast Iron Flange Synonyms -:- For detailed product information, please contact sales. -:

Meehanite GF-20 Flake Graphite Cast Iron Product Information -:- For detailed product information, please contact sales. -: # **Meehanite® GF-20 Flake Graphite Cast Iron** ## **Product Overview** **Meehanite GF-20** is a premium **high-damping capacity gray cast iron** manufactured under the stringent **Meehanite quality control system**, specifically engineered for applications requiring **exceptional vibration damping characteristics, superior machinability, and excellent castability** for complex geometries. The "GF" designation signifies **General Foundry** grade, representing the most castable and forgiving grade in the Meehanite family, while "20" indicates the minimum **tensile strength of 20 ksi (138 MPa)**. This specialized material represents the optimal balance between manufacturability, cost-effectiveness, and functional performance where extreme damping capacity and ease of production are more critical than high mechanical strength. Through the Meehanite controlled process, GF-20 develops a microstructure with large, well-formed graphite flakes in a predominantly ferritic matrix, providing the highest vibration absorption of all cast irons while maintaining excellent foundry characteristics. --- ## **1. International Standards & Specifications** | **Standard System** | **Designation** | **Equivalent/Reference** | **Key Characteristics** | |---------------------|-----------------|--------------------------|------------------------| | **Meehanite System** | **Type GF-20** | Proprietary classification | Premium damping/castability grade | | **ASTM International** | **A48 Class 20B** (Special) | Primary US equivalent | Tensile: 20 ksi min (138 MPa) | | **ISO Standard** | **ISO 185 Grade 150** | International specification | Brinell hardness ~140-180 HB | | **DIN Standard** | **GG-10 to GG-15** | German standard | Low-strength gray iron | | **Japanese Standards** | **JIS G5501 FC100-FC150** | Japanese industrial standard | Low-strength flake graphite grades | | **Common Names** | High-Damping Gray Iron, Acoustical Grade Iron, Foundry-Friendly Gray Iron | Industry terminology | Note: Exceeds conventional Class 20 in damping properties | **Note:** Meehanite GF-20 represents a specialized damping-optimized grade that provides superior vibration absorption compared to conventional gray irons while offering exceptional foundry characteristics for complex castings. --- ## **2. Chemical Composition** The chemistry of GF-20 is carefully balanced to promote optimal damping characteristics while maximizing castability and machinability. | **Element** | **Typical Range (% wt.)** | **Metallurgical Function** | **Damping Enhancement** | |-------------|---------------------------|---------------------------|------------------------| | **Carbon (C)** | 3.6 - 3.9 | Graphite former | High carbon increases graphite volume for damping | | **Silicon (Si)** | 2.3 - 2.8 | Graphitizer | Promotes large Type A graphite flakes | | **Manganese (Mn)** | 0.4 - 0.7 | Sulfur control | Minimized to avoid pearlite formation | | **Phosphorus (P)** | 0.10 - 0.25 | Fluidity enhancer | Higher phosphorus improves castability | | **Sulfur (S)** | 0.08 - 0.14 | Inoculation control | Balanced for consistent nucleation | | **Chromium (Cr)** | ≤ 0.05 (max) | Minimized | Avoids carbide formation | | **Molybdenum (Mo)** | ≤ 0.05 (max) | Minimized | Prevents pearlite stabilization | | **Nickel (Ni)** | ≤ 0.10 (max) | Minimized | Prevents austenite retention | | **Carbon Equivalent** | 4.5 - 4.8 | Castability indicator | High CE maximizes fluidity and damping | | **Inoculants** | Specifically controlled | Graphite formation | Promotes large, interconnected flakes | **Microstructural Characteristics (Meehanite Controlled):** - **Graphite Structure:** **Predominantly Type A**, Size 1-2 (very large, well-formed flakes) - **Graphite Distribution:** Uniform with excellent flake interconnection - **Matrix Structure:** **70-90% ferrite** with minimal pearlite - **Carbide Content:** < 0.3% (minimized for maximum damping) - **Phosphide Eutectic (Steadite):** 5-12% (contributes to damping) - **Graphite Volume Fraction:** 15-18% (exceptionally high) - **Flake Interconnection:** High degree of graphite connectivity - **Unique Feature:** Large graphite flakes create optimal energy dissipation pathways --- ## **3. Mechanical Properties** ### **Minimum Guaranteed Properties:** - **Tensile Strength:** 20,000 psi minimum (138 MPa) - **Brinell Hardness:** 140 - 180 HB - **Modulus of Elasticity:** 10 - 12 × 10⁶ psi (69 - 83 GPa) ### **Detailed Property Profile:** | **Property** | **Minimum** | **Typical** | **Maximum** | **Test Standard** | |--------------|-------------|-------------|-------------|------------------| | **Tensile Strength** | 20,000 psi (138 MPa) | 23,000 psi (159 MPa) | 26,000 psi (179 MPa) | ASTM A48 | | **Compressive Strength** | 80,000 psi (552 MPa) | 90,000 psi (621 MPa) | 100,000 psi (689 MPa) | ASTM E9 | | **Shear Strength** | 18,000 psi (124 MPa) | 20,000 psi (138 MPa) | 22,000 psi (152 MPa) | - | | **Hardness (Brinell)** | 140 HB | 160 HB | 180 HB | ASTM E10 | | **Elastic Modulus** | 10 × 10⁶ psi (69 GPa) | 11 × 10⁶ psi (76 GPa) | 12 × 10⁶ psi (83 GPa) | Lower modulus enhances damping | | **Fatigue Strength** | 10,000 psi (69 MPa) | 12,000 psi (83 MPa) | 14,000 psi (97 MPa) | Rotating bending, 10⁷ cycles | | **Impact Resistance** | Very Low | Typical of gray iron | - | Charpy test | ### **Damping Properties (Key Differentiator):** | **Damping Parameter** | **Performance Value** | **Comparison to Standard Gray Iron** | **Comparison to Steel** | |----------------------|----------------------|-------------------------------------|------------------------| | **Damping Ratio (ξ)** | **0.025 - 0.035** | **20-40% higher** | **15-25× higher** | | **Loss Factor (η)** | **0.05 - 0.07** | **Superior** | **Exceptional** | | **Vibration Amplitude Reduction** | **85-95% at resonance** | **Best in class** | **Dramatically better** | | **Sound Transmission Loss** | **Excellent** | **Superior** | **Far superior** | | **Natural Frequency** | **Low** | **Lower than other grades** | **Much lower** | --- ## **4. Physical Properties** | **Property** | **Value** | **Damping Application Significance** | |--------------|-----------|-------------------------------------| | **Density** | 0.260 lb/in³ (7.20 g/cm³) | Standard for gray iron | | **Thermal Conductivity** | 27-29 Btu/(ft·hr·°F) (47-50 W/m·K) | Excellent heat dissipation | | **Coefficient of Thermal Expansion** | 6.3 × 10⁻⁶/°F (11.3 × 10⁻⁶/°C) | Moderate expansion characteristics | | **Specific Heat** | 0.12 Btu/(lb·°F) (500 J/kg·K) | Good thermal capacity | | **Damping Capacity** | **20-30× greater than steel** | **Exceptional** vibration absorption | | **Acoustic Impedance** | Moderate | Good for noise isolation | | **Sound Absorption Coefficient** | 0.20 - 0.30 (mid frequencies) | Excellent for acoustic applications | ### **Vibration & Acoustic Performance:** - **Resonance Control:** Effectively dampens resonant vibrations - **Noise Reduction:** Significantly reduces transmitted noise - **Vibration Isolation:** Excellent for mounting sensitive equipment - **Acoustic Performance:** Superior to most structural materials --- ## **5. Manufacturing & Processing Characteristics** ### **Casting Characteristics (Primary Advantage):** - **Fluidity:** **Exceptional** - best in gray iron family - **Shrinkage:** Very low - minimal risering requirements - **Hot Tearing Resistance:** Excellent - **Machinability:** **Excellent** (100-120% of free-cutting steel) ### **Foundry Performance:** | **Foundry Parameter** | **Rating** | **Benefit** | |----------------------|------------|-------------| | **Pouring Temperature Range** | Wide (2450-2600°F) | Forgiving for foundry operations | | **Mold Compatibility** | Excellent with all molds | Green sand, shell, permanent mold | | **Dross Formation** | Minimal | High yield of sound castings | | **Pattern Reproduction** | Excellent | Fine detail capture | | **Section Sensitivity** | Very low | Consistent properties in thin/thick sections | ### **Machinability Data:** | **Operation** | **Relative Efficiency** | **Tool Recommendations** | **Benefits** | |--------------|------------------------|-------------------------|-------------| | **Turning** | 110-130% | C2 carbide or HSS | Very low cutting forces | | **Drilling** | 100-120% | Standard HSS drills | Excellent chip clearance | | **Milling** | 100-115% | HSS or carbide end mills | Smooth finishes | | **Sawing** | Excellent | Standard blades | Fast cutting speeds | | **Grinding** | Excellent | Standard wheels | Easy material removal | ### **Heat Treatment:** - **Stress Relieving:** 900-1000°F (480-540°C) - rarely needed - **Annealing:** Not typically required - **Normalizing:** Not applicable to this grade - **Surface Treatments:** Readily accepts coatings and platings --- ## **6. Quality Assurance (Meehanite System)** ### **Special Controls for GF-20:** 1. **Damping Optimization:** Specific graphite structure targets 2. **Castability Assurance:** Fluid properties monitoring 3. **Hardness Control:** Consistent softness for machining 4. **Soundness Guarantee:** Minimum shrinkage and porosity ### **Testing Regimen:** - **Mechanical Testing:** Standard tensile and hardness tests - **Damping Testing:** Optional vibration testing for critical applications - **Microstructural Analysis:** Graphite size and distribution - **Soundness Testing:** Pressure testing for sealed applications --- ## **7. Industrial Applications** ### **Primary Damping-Intensive Applications:** | **Application Area** | **Specific Components** | **Damping Requirements** | **Why GF-20?** | |---------------------|-------------------------|--------------------------|----------------| | **Machine Tool Bases** | Lathe beds, mill bases, grinder bases | Maximum vibration damping for accuracy | Best damping of all structural materials | | **Acoustic Enclosures** | Sound isolation chambers, acoustic panels | Noise reduction and absorption | Excellent sound transmission loss | | **Precision Instruments** | Microscope bases, CMM foundations | Vibration-free measurement environment | Eliminates external vibration effects | | **Power Generation** | Generator bases, turbine foundations | Vibration isolation for rotating equipment | Prevents vibration transmission | | **Architectural** | Sculpture bases, decorative elements | Casting complexity with good appearance | Excellent castability for artistic work | | **Testing Equipment** | Vibration test fixture bases | Eliminate fixture resonance | Provides stable test platform | ### **Specific Application Examples:** **Precision Machine Tool Bases:** - **Requirements:** Extreme damping, dimensional stability, flatness - **GF-20 Advantages:** Unmatched vibration absorption - **Typical Weight:** 500 lbs to 20,000 lbs - **Accuracy Benefits:** Improves surface finish and tool life **Acoustic Test Chambers:** - **Requirements:** Sound isolation, mass, durability - **GF-20 Advantages:** High mass with excellent damping - **Design Features:** Often ribbed for stiffness - **Performance:** Reduces both airborne and structure-borne noise **Instrument Foundations:** - **Requirements:** Vibration isolation, thermal stability - **GF-20 Advantages:** Creates "quiet" foundation for sensitive equipment - **Installation:** Often mounted on additional isolation systems - **Applications:** SEM, TEM, interferometer bases **Artistic Castings:** - **Requirements:** Fine detail reproduction, ease of casting - **GF-20 Advantages:** Excellent fluidity captures fine details - **Surface Finish:** Can be polished or patinated - **Complexity:** Suitable for intricate patterns --- ## **8. Comparative Performance** ### **Damping Performance Comparison:** | **Material** | **Damping Ratio** | **Acoustic Performance** | **Machinability** | **Castability** | |--------------|-------------------|--------------------------|-------------------|----------------| | **Meehanite GF-20** | **Excellent (5/5)** | **Excellent (5/5)** | **Excellent (5/5)** | **Excellent (5/5)** | | **Standard Gray Iron** | Very Good (4/5) | Very Good (4/5) | Excellent (5/5) | Very Good (4/5) | | **Ductile Iron** | Good (3/5) | Good (3/5) | Very Good (4/5) | Good (3/5) | | **Cast Steel** | Poor (1/5) | Poor (1/5) | Fair (2/5) | Fair (2/5) | | **Granite** | Excellent (5/5) | Excellent (5/5) | Poor (1/5) | N/A | | **Polymer Concrete** | Excellent (5/5) | Excellent (5/5) | Poor (1/5) | Fair (2/5) | ### **Economic Advantages:** 1. **Foundry Cost:** Lower than higher strength grades 2. **Machining Cost:** Lowest of all ferrous materials 3. **Performance Value:** Unmatched for damping applications 4. **System Cost:** Often eliminates need for auxiliary damping systems 5. **Life Cycle Cost:** Long service life with minimal maintenance --- ## **9. Design Guidelines** ### **Optimal Design Parameters:** - **Minimum Section:** 0.12" (3 mm) achievable - **Maximum Sound Section:** 4.0" (100 mm) without issues - **Complexity:** Highly suitable for intricate designs - **Fillet Radii:** Minimum 0.03" (0.8 mm) possible - **Draft Requirements:** Minimal due to excellent shakeout ### **Design for Damping Applications:** 1. **Mass Optimization:** Sufficient mass for inertial damping 2. **Rib Design:** Strategic ribbing for stiffness without weight penalty 3. **Mounting Provisions:** Design for isolation mounting if needed 4. **Thermal Considerations:** Account for lower thermal expansion ### **Limitations and Constraints:** - **Strength Limitation:** Not for load-bearing applications - **Impact Resistance:** Very low - most brittle of gray irons - **Wear Resistance:** Poor - not for wearing surfaces - **Temperature Limit:** 700°F (370°C) maximum continuous --- ## **10. Economic & Manufacturing Considerations** ### **Cost-Benefit Analysis:** - **Material Cost:** Lowest of Meehanite grades - **Foundry Cost:** High yield with minimal scrap - **Machining Cost:** Minimal due to excellent machinability - **Performance Value:** Unmatched for damping applications ### **Production Advantages:** 1. **High Casting Yield:** Typically 85-95% 2. **Reduced Pattern Wear:** Lower pressure during pouring 3. **Minimal Finishing:** Good as-cast surface often acceptable 4. **Fast Production Cycles:** Quick solidification and shakeout --- ## **Technical Summary** **Meehanite GF-20 Flake Graphite Cast Iron** represents the **optimal solution for damping-critical applications** requiring: ### **Key Performance Characteristics:** 1. **Exceptional Damping Capacity:** Best vibration absorption available 2. **Superior Castability:** Ideal for complex, intricate castings 3. **Excellent Machinability:** Easy to finish to precise dimensions 4. **Good Thermal Conductivity:** Effective heat dissipation 5. **Cost-Effective Production:** Low material and manufacturing cost ### **Application Selection Criteria:** **Choose Meehanite GF-20 when:** - Vibration damping is the primary design requirement - Complex casting geometry is needed - Machining cost minimization is important - Component operates with minimal mechanical stress - Acoustic performance is critical **Consider alternatives when:** - Tensile strength > 25 ksi is required - Impact resistance is needed - Severe wear conditions exist - High temperature operation > 700°F is required - Component carries significant structural loads ### **Economic Justification:** - **System Cost Reduction:** Often eliminates need for external damping - **Manufacturing Efficiency:** High yield with minimal processing - **Performance Value:** Unmatched in damping applications - **Life Cycle Benefits:** Long service with minimal degradation --- **Meehanite® is a registered trademark of Meehanite Technology Inc.** The GF-20 grade represents the ultimate in damping-optimized gray iron, providing engineers with a material specifically designed for vibration and noise control applications. For applications where maximum damping, complex castability, and manufacturing efficiency converge, Meehanite GF-20 offers unparalleled performance backed by rigorous quality controls and proven success in demanding acoustic and vibration-sensitive environments. -:- For detailed product information, please contact sales. -: Meehanite GF-20 Flake Graphite Cast Iron Specification Dimensions Size： Diameter 20-1000 mm Length <6618 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. -: Meehanite GF-20 Flake Graphite Cast Iron Properties -:- For detailed product information, please contact sales. -:

Applications of Meehanite GF-20 Flake Graphite Cast Iron Flange -:- For detailed product information, please contact sales. -: Chemical Identifiers Meehanite GF-20 Flake Graphite Cast Iron Flange -:- For detailed product information, please contact sales. -:

Packing of Meehanite GF-20 Flake Graphite Cast Iron Flange -:- 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 3089 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