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NINGBO MINDE, where excellence is forged into every detail of our precision-engineered components. Our forged parts boast precise tolerances and a superior aesthetic, achieved through both cold and hot forging processes. Trusted across major industries, including automotive and machinery, NINGBO MINDE takes pride in delivering unparalleled quality. Our commitment to precision craftsmanship positions us as a leader in forging technology, providing components that not only meet but exceed the highest standards. Choose NINGBO MINDE for forged parts that embody the perfect balance of precision and aesthetics, enhancing performance and reliability in automotive and machinery applications.

About Minde
Ningbo Minde Technology Co., Ltd.
Ningbo Minde Technology Co., Ltd.
The company was established in 2004 and has passed ISO9001, SGS, and RoHS certification. To create an ideal green enterprise, protect limited resources, and reduce waste and pollution, our products have passed SGS environmental testing and comply with the EU RoHS directive. As China Forging Parts Manufacturers and Forging Parts Suppliers, production area 12,000㎡, Two office areas 350㎡, Have 65 Experienced team-member. The major production process includes tooling designing & making, die casting, forging, stamping, precision machining, drilling, surface plating, Intelligent infrared detecting and automation packing, etc. Mostly exported to more than 35 countries and regions, major markets are the USA, Europe, the Middle East, and Southeast Asia.
Certificate Of Honor
  • 900 ISO 2022
  • SGS -RoHs testing 02 SHAEC22002232201
  • Environmental System
  • Health System
  • Quality System
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Forging Parts Industry knowledge
What factors affect the mechanical properties of Forging Parts?
The mechanical properties of forging parts are shaped by a variety of interrelated factors, ranging from process parameters during the forging process to the selection of metal materials and subsequent processing.
Forging temperature is one of the crucial parameters in the forging process. High temperatures help increase the plasticity of the metal, making it easier to deform during the forging process, resulting in a more uniform structure. This is critical to the overall strength and toughness of the Forging Parts. In this process, the amount of deformation is also a key factor. Moderate deformation helps to form a tighter and more uniform grain structure and improve the performance of the material.
Proper forging speed helps control the grain refinement of the metal and improves mechanical properties. However, speeds that are too fast or too slow can lead to undesirable results, so precise regulation is required based on the specific situation.
The choice of metal material is one of the decisive factors affecting the performance of forged parts. Different metals have different chemical compositions and crystal structures, which directly affect their mechanical properties. Therefore, the mechanical properties required by the customer and the adaptability of the material need to be considered comprehensively during the design stage of forgings.
The cooling rate during the forging process, the die design and the geometry of the forged part also have a profound impact on the final performance. A faster cooling rate helps form a fine grain structure and improves strength, while a properly designed mold can ensure that the forged parts have a uniform organizational structure. Geometry plays a key role in the flow and deformation of metal during the forging process, so the potential impact of shape on mechanical properties needs to be considered in the design.
The heat treatment process is one of the important steps to temper the forged parts after forging. Through appropriate heat treatment processes such as annealing and normalizing, the organizational structure of Forging Parts can be adjusted and its hardness, strength, toughness and other properties can be optimized. This process plays an important role in ensuring that the forged parts can withstand greater stresses and loads in actual use.