단조 스틸 샤프트

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단조 스틸 샤프트

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회사 소개
Nantong Huishang Heavy Industry Technology Co., Ltd.

Nantong Huishang Heavy Industry Technology Co., Ltd.는 특수강을 취급하는 소재 회사입니다. 강철 유형에는 탄소 결합 강철, 복합 강철, 탄소강, 복합 강철, 베어링 강철, 롤러 강철, 스테인레스 스틸 등이 포함됩니다. 당사의 주요 제품에는 단조 원형 강철, 단조 사각 강철, 단조 모듈, 스텝 샤프트, 단조 강철 롤러 등이 포함됩니다. 주로 야금, 광업 및 기계 가공 기업에 지원 서비스를 제공합니다. Nantong Huishang Machinery Co., Ltd.는 수년간 단조 사업에 종사해 왔으며 장쑤성, 절강성 및 상하이 산업에서 우수한 네트워크 자원을 보유한 인력 팀을 보유하고 있습니다. Nantong Huishang Technology Co., Ltd.는 "나의 책임"이라는 경영 철학을 고수하고 단조 산업에서 서비스 중심 기업을 구축하기 위해 최선을 다하고 있습니다.

The company is committed to increasing product cost-effectiveness through technology. The company strictly adopts the following process for the products with high requirements: electric arc furnace+LF+VD → die casting → forging → heat treatment (→ machining), maintaining the chemical composition and mechanical performance requirements; Quality certification documents can also be provided according to customer requirements; Our company can also provide bright round steel (step shaft) and heat treatment according to customer needs. The heat treatment state can be normalized/annealed, quenched/tempered, etc.

소식
메시지 피드백
업계 지식

1.What is Forged Finished Shaft? Why is it different?


Forged Finished Shaft, the forged finished shaft, is an indispensable key component in the mechanical transmission system. It is processed through a forging process and has unique properties and characteristics that give it significant advantages in industrial applications.
The forging process is at the heart of Forged Finished Shaft’s uniqueness. Forging is a method of processing metal materials into desired shapes and sizes through plastic deformation. During the forging process, the metal material is compressed and stretched at high temperatures, making its internal structure denser, the grains refined, and internal pores and defects eliminated. This structural change gives the finished forged shaft greater strength, toughness and fatigue resistance. Compared with other processing methods, the forging process can better retain the metal properties of the raw material, making the shaft more stable and reliable when bearing heavy loads and impacts.
Forged Finished Shaft’s surface quality and dimensional accuracy also set it apart. During the forging process, the surface of the shaft body undergoes multiple compressions and stretches, forming a smooth and dense surface. This surface quality not only helps reduce friction and wear and improve transmission efficiency, but also resists corrosion and oxidation, extending the service life of the shaft. At the same time, the forging process can also achieve high-precision dimensional control to ensure that the dimensional accuracy of the shaft body meets the design requirements. This high-precision dimensional control makes the forged finished shaft more convenient and reliable during assembly and use.
The choice of materials for Forged Finished Shaft is also a reflection of its uniqueness. The forging process is suitable for various metal materials, including carbon steel, alloy steel, stainless steel, etc. These materials have different properties and characteristics and can be selected based on specific needs. For example, alloy steel with high strength and toughness is suitable for transmission systems that can withstand heavy loads and impacts; while stainless steel has excellent corrosion resistance and is suitable for transmission systems that work in harsh environments. This flexible material selection allows finished forged shafts to meet the needs of different industries and applications.

2. Why is Forged Finished Shaft so critical in industrial applications?


The importance of Forged Finished Shaft in industrial applications is self-evident. It is widely used in key transmission systems in the fields of automobiles, aerospace, ships, energy, etc., and plays a vital role.
In the automotive industry, Forged Finished Shaft is widely used in key transmission components such as engines and transmissions. Engines and transmissions are the heart and blood vessels of cars, and they need to withstand huge torques and loads. The high strength, high toughness and good fatigue resistance of forged finished shafts enable it to withstand these huge loads and impacts, ensuring the safety and stable operation of the car. At the same time, the surface quality and dimensional accuracy of forged finished shafts can also reduce friction and wear, and improve transmission efficiency and service life.
In the field of aerospace, Forged Finished Shaft also plays a key role. Aircraft need to withstand extreme flight environments and complex load conditions, and have extremely high requirements for transmission systems. The high strength, high toughness and excellent fatigue resistance of forged finished shafts enable it to meet these demanding requirements. At the same time, its excellent corrosion resistance and oxidation resistance can also maintain stable performance in harsh flight environments.
In the field of shipbuilding and energy, Forged Finished Shaft also plays an important role. Ships need to sail in various waters, and the requirements for transmission systems are also extremely high. Equipment in the energy field, such as generators and compressors, also need to withstand huge loads and impacts. The high performance and reliability of forged finished shafts enable it to meet the needs of these fields.

3. How to ensure the quality and performance of Forged Finished Shaft?


Ensuring the quality and performance of Forged Finished Shaft requires multiple aspects. The quality of raw materials is the key. Selecting high-quality, high-performance alloy steel as raw material is the basis for ensuring the quality of the shaft. When selecting materials, it is necessary to comprehensively consider factors such as the chemical composition, physical properties and mechanical properties of the material to ensure that the selected material can meet the use requirements of the shaft.
Control of the forging process is also the key to ensuring the quality of the shaft. During the forging process, it is necessary to strictly control parameters such as forging temperature, forging pressure and forging speed to ensure the internal organization and dimensional accuracy of the shaft. At the same time, it is also necessary to regularly maintain and inspect the forging die to ensure the accuracy and life of the die.
The heat treatment process is also an important link to ensure the performance of the shaft. Heat treatment can eliminate the internal stress generated during the forging process and improve the mechanical properties of the material. During the heat treatment process, it is necessary to select appropriate parameters such as heating temperature, holding time and cooling method to ensure that the performance of the shaft reaches the best state.
Machining and testing are also the key to ensuring the quality of the shaft. During the machining process, it is necessary to select appropriate processing equipment and tools to ensure the dimensional accuracy and surface quality of the shaft. At the same time, it is also necessary to conduct comprehensive testing of various performance indicators of the shaft, such as hardness, strength, toughness, wear resistance, etc., to ensure that the performance of the shaft meets relevant standards and customer requirements.
Manufacturers also need to establish a complete quality management system and after-sales service system. The quality management system can ensure that each link in the production process is strictly controlled and managed, and ensure that the quality and performance of the shaft are stable and reliable. The after-sales service system can provide customers with timely and professional technical support and after-sales service to solve problems and difficulties encountered by customers during use.