Maraging 250
Maraging 250 Forging
Triton Metal is one of the leading manufacturer, suppliers and exporters of high quality Maraging 250 Forging in Mumbai, India. Compared to other manufacturing process, Maraging 250 Metal forging is mainly focused on producing some of the strongest manufactured parts. It’s not just limited to iron and steel forging but as well as other metals also. Compared to other manufacturing process, Maraging 250 Forging is mainly focused on producing some of the strongest manufactured parts. It’s not just limited to iron and steel forging but as well as other metals also.
Once the manufacturing process is completed, the manufactured product undergoes the process of Inspection. Which is one of the important aspects of metal forging manufacture, all the manufactured parts are being checked for defects under this process. It helps us to deliver a flawless products to our customer.
Triton Metal manufacture Maraging 250 Forging as per international and national standards and other standards that include ASTM, ASME, and API. The size of these forgings range from ½ NB to 250 NB and length of these forgings is 2mm to 40mm. Maraging 250 Forging raw material used for the manufacturing process is well-tested and inspected by inspection agencies and quality experts. They offer quality approval and certificate mentioning products quality and capability. Moreover, to sustain its quality they are packed in wooden cases or boxes marked with companies name, size, length, and specification, standard and part number.
Chemical Composition, %
Element | Content (%) |
---|---|
Iron, Fe | 68 |
Nickel, Ni | 18.5 |
Cobalt, Co | 7.5 |
Molybdenum, Mo | 4.8 |
Titanium, Ti | 0.4 |
Aluminum, Al | 0.1 |
Silicon, Si | ≤ 0.10 |
Manganese, Mn | ≤ 0.10 |
Carbon, C | ≤ 0.030 |
Phosphorous, P | ≤ 0.010 |
Sulfur, S | ≤ 0.010 |
Zirconium, Zr | 0.01 |
Boron, B | 0.003 |
Maraging 250 Circle
Maraging 250 Circle are being supplied, manufactured and traded by Triton Metal to our esteemed patrons in best possible rates. Maraging 250 can be forged, hot-upset and impact extruded. Oxyacetylene welding should be avoided due to possibility of carburization. Maraging 250 Circle resists chloride stress corrosion cracking even in boiling magnesium chloride. Maraging 250 Rings has excellent resistance to pitting and stress corrosion cracking. Some of its great features include: High strength, Durability, Thermal resistance, and more. Our offered array of Maraging 250 Circle is used in different industries for a wide range of applications. The offered Maraging 250 Rings are widely used in automobile, cement, aviation and marine industries.
Chemical Composition, %
Element | Content (%) |
---|---|
Iron, Fe | 68 |
Nickel, Ni | 18.5 |
Cobalt, Co | 7.5 |
Molybdenum, Mo | 4.8 |
Titanium, Ti | 0.4 |
Aluminum, Al | 0.1 |
Silicon, Si | ≤ 0.10 |
Manganese, Mn | ≤ 0.10 |
Carbon, C | ≤ 0.030 |
Phosphorous, P | ≤ 0.010 |
Sulfur, S | ≤ 0.010 |
Zirconium, Zr | 0.01 |
Boron, B | 0.003 |
Maraging 250 Round Bars
Maraging 250 chemically consists of elements like nickel, molybdenum & chromium as its primary alloying material along with a small addition of tungsten. Maraging 250 welding rod is considered to be one of the premier corrosion resistant materials available for process industries in the market. One of the benefits of using the Maraging 250 rod is its excellent resistance to corrosion in both oxidizing as well as reducing environments. The high contents of both the elements, molybdenum and chromium along with the combination of the added tungsten, in the alloy is known to make the 2.4819 Alloy C 276 highly resistant to chlorine related stress corrosion cracking. These elements in the alloy also aid the ASTM B574 UNS N10276 in its resistance to general corrosion like pitting & crevice corrosion.
Chemical Composition, %
Element | Content (%) |
---|---|
Iron, Fe | 68 |
Nickel, Ni | 18.5 |
Cobalt, Co | 7.5 |
Molybdenum, Mo | 4.8 |
Titanium, Ti | 0.4 |
Aluminum, Al | 0.1 |
Silicon, Si | ≤ 0.10 |
Manganese, Mn | ≤ 0.10 |
Carbon, C | ≤ 0.030 |
Phosphorous, P | ≤ 0.010 |
Sulfur, S | ≤ 0.010 |
Zirconium, Zr | 0.01 |
Boron, B | 0.003 |
Physical Constants
- Density………………………………… .289 lbs./cu. In
- Average Coefficient of Thermal Expansion (70 – 900 F) ……………… 5.6 x 10 -6 in/in. F
Heat Treatment Aging Process (Non Die Casting Applications) Material is to be heat treated to 900 F +/- 10 holding at temperature for 6 hours then cooling at room air temperature. During the aging treatment maraging shrinks uniformly and predictably on all dimensions .0009 in/in
Heat Treatment Aging Process (Die Casting Applications) Following the rough machining of the die, anneal at 1500-1525 F for 1 hour per inch of thickness is recommended. After finish machining , an aging heat treatment of 980-1000 F for 6 hours is recommended.
Specifications
- AMS 6512
- ASTM A 538
- Mil-S-46850D
- UNS K92890
- Werkstoff Nr. 1.6359
- BS S162
- DTD 5212
- MSRR 6551
- MAT 102
- MIA 101
- Udimar 250
- Vascomax C250