Availability: | |
---|---|
Quantity: | |
Product Name: | Ductile Iron Casting Agricultural Farming Equipment and Machinery Parts |
Material: | Steel, Stainless steel, Aluminum, Brass, Carbon Steel, etc. |
size: | OEM Customized |
Processing: | Stamping, Punching, Bending, Tapping, Milling, Lathe/Welding, Assembly, Laser cutting |
Surface Treatment: | Plating, Galvanization, Anodized, and Powder coating. |
Certification: | ISO9001,SGS,CTI,ROHS |
Package: | Carton, Wooden Case or as Required |
Country of origin: | China |
Category: Agricultural Machinery Parts
Email: nurul@emaxmetal.com
Product Name: | Ductile Iron Casting Agricultural Farming Equipment and Machinery Parts |
Material: | Steel, Stainless steel, Aluminum, Brass, Carbon Steel, etc. |
size: | OEM Customized |
Processing: | Stamping, Punching, Bending, Tapping, Milling, Lathe/Welding, Assembly, Laser cutting |
Surface Treatment: | Plating, Galvanization, Anodized, and Powder coating. |
Certification: | ISO9001,SGS,CTI,ROHS |
Package: | Carton, Wooden Case or as Required |
Country of origin: | China |
Category: Agricultural Machinery Parts
Email: nurul@emaxmetal.com
Application of Ductile Iron Casting to Agricultural Machinery Parts
Ductile iron casting has evolved as an industry standard in the production of agricultural machinery parts with its unique combination of strength, hardness, and cost competitiveness. A material of its high carbon content and spherical microstructure of graphite, it became the preferred option for those machinery parts subject to severe loading, abrasive wear, and cyclic stressing in agriculture.
One of the most significant applications of ductile iron is the production of transmission systems and gearboxes. They must have excellent resistance to fatigue and wear, which is provided by ductile iron due to its excellent tensile strength (up to 900 MPa) and impact toughness. The toughness of ductile iron is not affected by cracking on sudden impacts like gray iron, which is a common occurrence in tractors and harvesters traveling over rough terrain.
Aside from its usage on wear-resistance metal parts, ductile iron also finds widespread application in soil-engaging tools such as harrow discs, tillage blades, and plowshares. These elements are subjected to constant abrasion by roots, rocks, and hard soil compaction. From its inherent hardness and heat treatment ability for improved surface resistance, service life significantly improves while down time for the replacement reduces.
Its second most prominent application is in structural components like axle housings, wheel hubs, and loader arms. The light weight of ductile iron compared to steel, coupled with high load capability, maintains equipment agility without losing strength. Its corrosion-resistance also makes it fit for use where there is water, fertilizers, and chemicals in modern precision agricultural equipment.
Economic and environmental reasons also drive its application. Recyclability of ductile iron is in harmony with sustainable agricultural methods, and lower production costs as a result of effective casting procedures and fewer machining requirements equal inexpensive but reliable machinery for farmers.
Lastly, ductile iron casting plays a critical role in maximizing farm machinery performance and longevity. With matching mechanical properties to functional suitability, it remains to aid the progression of farm technology towards increased efficiency and longevity under demanding operating conditions.
Application of Ductile Iron Casting to Agricultural Machinery Parts
Ductile iron casting has evolved as an industry standard in the production of agricultural machinery parts with its unique combination of strength, hardness, and cost competitiveness. A material of its high carbon content and spherical microstructure of graphite, it became the preferred option for those machinery parts subject to severe loading, abrasive wear, and cyclic stressing in agriculture.
One of the most significant applications of ductile iron is the production of transmission systems and gearboxes. They must have excellent resistance to fatigue and wear, which is provided by ductile iron due to its excellent tensile strength (up to 900 MPa) and impact toughness. The toughness of ductile iron is not affected by cracking on sudden impacts like gray iron, which is a common occurrence in tractors and harvesters traveling over rough terrain.
Aside from its usage on wear-resistance metal parts, ductile iron also finds widespread application in soil-engaging tools such as harrow discs, tillage blades, and plowshares. These elements are subjected to constant abrasion by roots, rocks, and hard soil compaction. From its inherent hardness and heat treatment ability for improved surface resistance, service life significantly improves while down time for the replacement reduces.
Its second most prominent application is in structural components like axle housings, wheel hubs, and loader arms. The light weight of ductile iron compared to steel, coupled with high load capability, maintains equipment agility without losing strength. Its corrosion-resistance also makes it fit for use where there is water, fertilizers, and chemicals in modern precision agricultural equipment.
Economic and environmental reasons also drive its application. Recyclability of ductile iron is in harmony with sustainable agricultural methods, and lower production costs as a result of effective casting procedures and fewer machining requirements equal inexpensive but reliable machinery for farmers.
Lastly, ductile iron casting plays a critical role in maximizing farm machinery performance and longevity. With matching mechanical properties to functional suitability, it remains to aid the progression of farm technology towards increased efficiency and longevity under demanding operating conditions.