July 13, 2023

Powder metallurgy become one of the three largest benefit li

nes for the manufacturing industry. 1. Cost savings: Powder metallurgy offers significant cost savings compared to traditional manufacturing methods. The process involves compacting metal powders into the desired shape and then sintering them at high temperatures. This eliminates the need for expensive machining operations, reducing material waste and labor costs. 2. Design flexibility: Powder metallurgy allows for complex and intricate shapes to be produced with ease. The powder particles can be mixed w

July 13, 2023

Powder metallurgy high strength aluminum alloy maybe applie

The use of powder metallurgy high strength aluminum alloy in the automotive industry is expected to increase significantly in the future. In order to further enhance the performance of these alloys, research on nano phase and nano intermetallic compound dispersion strengthening alloys has gained attention from technicians. The introduction of a new type of alloy nanoparticles for toughening reinforcement can greatly improve the strength of the material and reduce the amount of material needed. Nanoparticles toughening reinforcing materials have several ad

July 12, 2023

Powder metallurgy is hopeful to make titanium parts turn int

One of the emerging technologies is the use of metal injection molding (MIM) combined with powder metallurgy compaction process. This involves adding micro powder and improving the lubricant or binder content to enhance the liquidity, filling, and forming ability of the mixed powder. This technology allows for the production of complex geometry parts with features such as lateral concave and threaded holes. Titanium powder forming technology offers several advantages. It allows for the direct production of parts from powder, resulting in high yield and lo

July 12, 2023

Powder metallurgy high strength aluminum alloy maybe applie

The use of powder metallurgy high strength aluminum alloy in the automotive industry is expected to increase significantly in the future. Researchers are currently focusing on the development of nano phase and nano intermetallic compound dispersion strengthening alloys to further enhance the performance of aluminum alloys. These new alloys, reinforced with alloy nanoparticles, offer improved strength and reduced material usage. They also exhibit high toughness, low temperature superplasticity, easy processing, low density, and good performance, making them suitable for applications in th

July 09, 2023

The application of the metal powder injection parts in gun

Metal powder injection molding (MIM) technology has found extensive application in the production of gun parts. MIM allows for the direct formation of high precision and complex geometry small parts using a wide range of materials. Since its introduction in China in the 1970s, MIM has rapidly developed in various industries. In the field of ordnance production, MIM has been widely used for firearms, artillery shells, and other components. Gun parts are characterized by their complex shapes and structures, as well as the need for high quality due to the sp

July 09, 2023

The research and application of large size metal injection m

The research and application of large size metal injection molding (MIM) parts have been gaining prominence in recent years. MIM technology is known for its ability to produce small, complex shape parts effectively. However, the production of relatively large size and thick wall metal products has been limited due to forming and degreasing challenges. Despite these limitations, there have been advancements in enhancing sintering technology to improve the mechanical properties of MIM products. This breakthrough has allowed for the expansion of MIM products

July 09, 2023

The future development of powder injection molding may focus

In terms of material development, researchers are focusing on improving the properties of metal powders used in powder injection molding. This includes developing new alloys with enhanced mechanical properties, such as increased strength and durability. Additionally, efforts are being made to improve the sintering process, which is crucial for achieving the desired density and structural integrity of the final product. In terms of design, there is a growing emphasis on optimizing the shape and geometry of parts to maximize their performance and functional

July 09, 2023

The application of powder metallurgy technology in injection

In the past two years, the domestic metal injection molding (MIM) industry in China has experienced rapid growth. MIM factories, both large and small, have emerged all along the Guangdong coastal region, especially in eastern China. The mobile phone industry has been a major adopter of MIM metal parts, and many other industries are also increasingly importing MIM parts. Aerospace and automotive industries have been using MIM technology to produce structural and car parts. The use of MIM in powder metallurgy parts has become widespread in these fields. Wit

July 09, 2023

Powder metallurgy parts of welding subject or enter a new br

Due to the special properties and manufacturing technology of powder metallurgy materials, they have been widely used in various industries and have gradually replaced traditional metallurgy materials. One of the most important applications is the connection between powder metallurgy parts and other parts. In the communication industry, for example, optical fiber base plate parts often require welding processes. In the past, the most commonly used methods were brazing and projection welding. However, these methods had limitations in terms of the degree of

July 09, 2023

The application of powder injection molding products has rea

Powder injection molding, also known as PIM, is an advanced manufacturing technology that combines powder metallurgy and plastic forming. It includes metal injection molding (MIM) and ceramic injection molding (CIM). The process involves mixing powder and binder, granulating the mixture, and then injection molding it. The polymer binder provides viscosity to the mixture, aiding in forming, cavity filling, and powder loading uniformity. After forming, the binder is removed through degreasing, and the molded billet is sintered. Some sintered products may require additional densification pr

July 09, 2023

Metal injection molding process application will spread to m

Metal injection molding (MIM) is a process that has seen rapid growth and development in the past few years, particularly in the Shenzhen area of Guangdong province in China. There are now over 30 MIM factories in the region, with 80% of them being built and put into production in the past two years. This growth has also led to the emergence of equipment and feed manufacturers, which has helped to break the dominance of foreign suppliers in the industry. MIM is a subdivision of powder metallurgy, and it has been used to produce a wide range of products. I

July 09, 2023

Powder metallurgy technology can effectively solve the diffi

In recent years, our country has been focusing on the development and industrialization of high temperature high performance high titanium niobium alloy engineering technology. This new generation of aerospace engine materials, which have independent intellectual property rights, will soon enter the industrialization stage and bring our country's aerospace engine materials to a world-leading level. The high titanium niobium alloy is a research direction of innovation in our country and has obtained the world's first high temperature alloy patent. It has l

July 08, 2023

The comparison of titanium alloy and aluminum alloy

In summary, the main differences between titanium alloy and aluminum alloy are as follows: 1. Hardness: Titanium alloy has higher hardness than aluminum alloy. 2. Corrosion resistance: Titanium alloy has better acid and alkaline resistance than aluminum alloy. 3. Strength: Titanium alloy is more difficult to deform than aluminum alloy. 4. Color: Aluminum alloy has a slightly lower gloss, while titanium alloy has a high gloss and a color similar to stainless steel. 5. Workability: Aluminum alloy has good

July 08, 2023

Medical devices - an important market of injection molding i

The expansion of China's medical equipment market in recent years has been significant. The market scale increased from 120 billion yuan in 2011 to 242 billion yuan in 2012, and it is expected to reach 597 billion yuan in 2017. China's medical equipment market is now one of the largest in the world, following the United States and Japan. Medical equipment plays a crucial role in the healthcare industry and involves various industries such as medicine, electronics, machinery, powder metallurgy, and plastics. These products are highly advanced and incorpora

July 08, 2023

Powder metallurgy parts of welding subject or enter a new br

The special properties of powder metallurgy materials and manufacturing technology have led to its widespread use in various industries, gradually replacing traditional metallurgy materials. One of the most significant applications is the connection between powder metallurgy parts and other parts, particularly in the communication industry where optical fiber base plate parts often require welding. In the past, the most commonly used methods for welding these parts were brazing and projection welding. However, these methods had limitations in terms of the

July 08, 2023

The application of powder injection molding products has rea

Powder injection molding, also known as PIM, is an advanced manufacturing technology that combines powder metallurgy and plastic forming processes. It includes metal injection molding (MIM) and ceramic injection molding (CIM). The process begins by mixing powder and binder together, which is then granulated and injection molded. The polymer binder gives the mixture its viscous flowing characteristics, aiding in the forming, cavity filling, and uniformity of powder loading. After the molding process, the binder is removed t

July 08, 2023

Granulating process widely used in powder metallurgy materia

Granulating technology has a long history in China, particularly in the processing of proprietary Chinese medicine. Over time, it has been widely adopted in various industries such as pharmaceuticals, powder metallurgy, alloy production, metallurgy, ceramics, and fertilizers. In recent years, it has also found application in the production of diamond tools, specifically for improving production efficiency and quality of cold pressing heads to achieve automated production. There are several advantages to using the granulating process in powder metallurgy a

July 08, 2023

Metal injection molding process application will spread to m

Metal injection molding (MIM) is a rapidly growing subdivision of powder metallurgy in China. In the past two years alone, there have been over 30 MIM factories established in Shenzhen, Guangdong province. About 80% of these factories were built and put into production in the past two years. The domestic industry has also seen the emergence of equipment manufacturers and feed manufacturers, providing a reliable supply of industry equipment and raw materials. This has broken the dominance of foreign companies in the feed market. Powder metallurgy injection

July 08, 2023

Powder metallurgy technology can effectively solve the diffi

In recent years, China has made significant progress in the development and industrialization of high temperature high performance high titanium niobium alloy materials. These materials, which have independent intellectual property rights, are specifically designed for aerospace engine applications and are expected to make China a world leader in aerospace engine materials. The development of high titanium niobium alloy is a major innovation in China, with the country holding the world's first high temperature alloy patent in this field. This achievement

July 08, 2023

Medical devices -an important market of injection molding industry in China

In recent years, China's medical equipment market has been expanding rapidly. The market scale increased from 120 billion yuan in 2011 to 242 billion yuan in 2012, and is expected to reach 597 billion yuan in 2017. China's medical equipment market is now in a high-speed development period and is expected to become the world's third largest market after the United States and Japan. The medical equipment industry in China involves various industries such as medicine, electronics, machinery, powder metallurgy, and plastics. It is a collection of high-tech pr

July 08, 2023

The increasing demand of powder metallurgy products is the driving force of the rapid development of

Powder metallurgy is a manufacturing process that is cost-effective due to its high material utilization rate and minimal waste generation. It is widely used in various industries such as automotive, mechanical and electrical, home appliances, communications, and machinery manufacturing. This results in significant economic benefits. Iron powder is a crucial raw material in the powder metallurgy industry, and its production is highly valued worldwide. China is a major producer of iron powder, with a production capacity of over 30 tons, accounting for 60%

July 08, 2023

Powder metallurgy technology plays irreplaceable role in parts manufacturing

Powder metallurgy is an advanced manufacturing technology that combines material preparation and parts forming, resulting in energy and material savings, high efficiency, and minimal pollution. It plays an irreplaceable role in material and parts manufacturing and is at the forefront of modern material science development. Powder metallurgy materials consist of a matrix and pores, and the presence of these pores not only affects the mechanical, physical, chemical, and technological properties of the material but also increases the difficulty of achieving precise powder forming. To expand

July 08, 2023

Metal injection molding and other "green manufacturing" processes to become consensus to the wor

The conference discussed the importance of green manufacturing in the context of resource constraints, energy efficiency, and environmental sustainability. It emphasized the need for comprehensive resource utilization and recycling, as well as the development of alternative technologies in process industries and equipment manufacturing. Green manufacturing aims to reduce waste, pollutants, and emissions, while optimizing economic and environmental benefits. The greening of the entire life cycle of mechanical products was identified as a key trend in mecha

July 08, 2023

Domestic MIM industry is expected to get rapid development in the auto parts market

In 1988, the metal powder injection molding (MIM) technology was disclosed at the Florida World Conference on Powder Metallurgy, attracting experts and scholars from around the world. That same year, China Gangyan, the parent company of the original Iron and Steel Research Institute, started researching and developing this technology. By the late 1990s, the most familiar application of MIM was in tungsten alloy BP machine vibration motor vibrators. After 2000, stainless steel series became widely used, including in optical fiber connectors, hinge series f