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OEM die-casting Plant

Magnesium alloys are well-known for being the lightest structural alloys [1].

They are made of magnesium, the lightest structural metal, mixed with other metal elements to improve the physical properties. These elements include manganese, aluminium, zinc, silicon, copper, zirconium, and rare-earth metals [2].

Some of magnesium’s favourable properties include low specific gravity and a high strength-to-weight ratio. As a result, the material lends itself to a range of automotive, aerospace, industrial, electronic, biomedical, and commercial applications

Properties and advantages Applications

Magnesium alloys cover a wide array of applications, from automotive and aerospace applications to electronic and biomedical uses.

Structural applications Automotive, aerospace, industrial, and commercial applications are examples of structural applications. The advantage of magnesium alloys to be used in such applications is their light weight, high strength-to-weight ratio, high stiffness-to-weight ratio, castability, machinability, and great damping [4].

Automotive: support brackets for brakes and clutch, housing for transmission

Aerospace: landing wheels, helicopter rotor fittings, gearbox housings

Industrial: high-speed operating machinery, such as textile machines

Commercial: luggage, hand tools, computer housings, ladders

Electronic applications Electronic applications include electronic packaging, hard drive arms, cell phone and portable media device housings. Magnesium alloys are being used instead of plastics due to their light weight, strength and durability. They also are relatively better for heat dissipation and protection against electromagnetic and radio frequency interference [5].

Medical applications Portable medical equipment and wheelchairs that require light material make good use of magnesium alloys. Also, cardiovascular stents and orthopaedic devices are potential applications of some magnesium alloys due to magnesium’s biocompatibility and bioabsorbability [4].

Die casting is a process by which solid metal parts and shapes, called die castings, are formed. Die casting takes place in facilities called foundries. In short, die casting works by applying high pressure and forcing molten material into dies, also called molds or die molds, then letting the metal cool. Secondary finishing processes sometimes follow this process to bring die castings up to the quality of their intended applications.

The metal to be cast, Diese. die casting machine.
This method is preferred as it is known to produce accurate precision parts, with detailed specifications, and uniform quality. Thousands of castings can be produced in the same mold with identical design and detail, making it ideal for the mass production of components. This method is ideal for non-ferrous alloys such as zinc and aluminum.

OEM die-casting Plant Products

Latest OEM die-casting Plant News

2023-7-13
Magnesium Die Casting: An Innovative Solution for Precision Manufacturing
Introduction: In the world of precision manufacturing, finding innovative solutions that meet the ever-increasing demand for lightweight, high-performance, and cost-effective products is crucial. Magnesium die casting has emerged as a game-changing technique that offers numerous advantages over traditional manufacturing methods. This article explores the benefits and applications of magnesium die casting and highlights why it is considered a revolutionary solution for precision manufacturing. Unveiling the Advantages: 1. Lightweight and High Strength: Magnesium is the lightest structural metal available, with a density of about 1.7g/cm³, making it 75% lighter than steel and 33% lighter than aluminum. Despite its lightweight nature,...
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2023-11-18
The Advantages and Applications of Magnesium Die Casting
Magnesium die casting is a manufacturing process that involves injecting molten magnesium into a mold cavity, allowing it to solidify into the desired shape. This process offers numerous advantages and finds its applications in various industries. In this article, we will explore the advantages and applications of magnesium die casting. One of the key advantages of magnesium die casting is its lightweight nature. Magnesium is the lightest structural metal, which makes it an ideal choice for applications where weight reduction is crucial. Compared to aluminum, magnesium is 36% lighter and offers a higher strength-to-weight ratio. This lightweight characteristic is...
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2023-11-3
Exploring the Advantages and Applications of Magnesium Die Casting
Introduction: Magnesium die casting is a manufacturing process that involves injecting molten magnesium into a die or mold to create complex shapes and structures. It is an innovative and versatile technique with numerous advantages and applications. In this article, we will delve into the advantages of magnesium die casting and explore its diverse range of applications in various industries. Advantages of Magnesium Die Casting: 1. Lightweight: Magnesium is the lightest of all structural metals, weighing approximately two-thirds of aluminum and one-fourth of steel. This makes it an ideal choice for applications that require weight reduction without compromising on strength...
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2023-7-1
Creating Excellence with Die Casting Products
Die casting is a highly efficient and cost-effective manufacturing process that produces complex and intricately designed metal components. It involves injecting molten metal into a mold cavity under high pressure, allowing the metal to solidify and create the desired shape. Die casting products are known for their high strength, dimensional accuracy, and excellent surface finish, making them widely used in various industries such as automotive, aerospace, electronics, and more. One of the key advantages of die casting is its ability to produce parts with intricate and complex geometries. The use of molds allows for the creation of intricate details,...
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2023-5-23
Precision Engineering for High-Quality Die Casting Molds
Die casting is a manufacturing process that is widely used in the production of metal parts. It involves injecting molten metal into a mold cavity, where it solidifies and takes the shape of the mold. The quality of the final product largely depends on the quality of the mold used in the process. Therefore, precision engineering is crucial in the design and production of high-quality die casting molds. Precision engineering involves the use of advanced technologies, tools, and techniques to ensure accurate and precise manufacturing of components. In the case of die casting molds, precision engineering helps to achieve...
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2023-10-31
Creating an Aluminum Die Casting Mold: A Guide to Precision and Efficiency
Introduction Aluminum die casting is a widely-used manufacturing process in which molten aluminum is injected into a mold under high pressure to produce complex, near-net-shape parts. The quality and efficiency of the die casting process heavily rely on the accuracy and durability of the mold. In this guide, we will explore the key considerations and steps involved in creating an aluminum die casting mold that ensures precision and efficiency. Design Considerations Before diving into the mold creation process, it is essential to carefully analyze the design requirements of the part to be produced. Understanding the part's size, shape, and...
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