Add to ORKGThe technology is used by manufacturing companies of metallic and ceramic parts. The PIM companies have an important problem: they have to use a patented feedstock. This fact causes an increasing of the cost of final product. Moreover sometimes is difficult to obtain parts from several materials because only exists few commercial feedstocks. We offer some innovative aspects, the possibility of development of feedstocks from different ceramic and metallic powders and different morphologic and surface characteristics
Micro Powder Injection Moulding (MicroPIM) continues to attract attention as a unique process by whi...
The implementation of multi-component injection moulding (well known in polymer shaping) into powder...
The present study examines the processing of a ceramic-metal powder via powder injection moulding (P...
The technology is used by manufacturing companies of metallic and ceramic parts. The PIM companies h...
In recently years, Powder Injection Molding (PIM) is one of the powder metallurgy processes, which i...
This paper is a revised and expanded version of a paper entitled ‘Torque rheology of zircon feedsto...
Titanium metal injection molding (Ti-MIM) has been practiced since the late 1980s. Logically, the Ti...
Powder Injection Molding (PIM) is a low cost manufacturing process that produces very complex parts ...
Titanium metal injection molding (Ti-MIM) has been practiced since the late 1980s. Logically, the Ti...
In previous studies we investigated the structure-property correlation of metal-ceramic composite ma...
Powder injection moulding as a near net shaping technology with a high automation potential can be s...
In this study, the metal injection molding (MIM) process is applied to produce Ti-6Al-4V parts using...
Today, more tan 90% of used feedstock for MIM in Europe, came from BASF (exclusive patent), with low...
In order to create powder metallurgical parts with a more complex and uniform shape, metal injecti...
Powder injection moulding (PIM) is often characterized by being a process for the mass production of...
Micro Powder Injection Moulding (MicroPIM) continues to attract attention as a unique process by whi...
The implementation of multi-component injection moulding (well known in polymer shaping) into powder...
The present study examines the processing of a ceramic-metal powder via powder injection moulding (P...
The technology is used by manufacturing companies of metallic and ceramic parts. The PIM companies h...
In recently years, Powder Injection Molding (PIM) is one of the powder metallurgy processes, which i...
This paper is a revised and expanded version of a paper entitled ‘Torque rheology of zircon feedsto...
Titanium metal injection molding (Ti-MIM) has been practiced since the late 1980s. Logically, the Ti...
Powder Injection Molding (PIM) is a low cost manufacturing process that produces very complex parts ...
Titanium metal injection molding (Ti-MIM) has been practiced since the late 1980s. Logically, the Ti...
In previous studies we investigated the structure-property correlation of metal-ceramic composite ma...
Powder injection moulding as a near net shaping technology with a high automation potential can be s...
In this study, the metal injection molding (MIM) process is applied to produce Ti-6Al-4V parts using...
Today, more tan 90% of used feedstock for MIM in Europe, came from BASF (exclusive patent), with low...
In order to create powder metallurgical parts with a more complex and uniform shape, metal injecti...
Powder injection moulding (PIM) is often characterized by being a process for the mass production of...
Micro Powder Injection Moulding (MicroPIM) continues to attract attention as a unique process by whi...
The implementation of multi-component injection moulding (well known in polymer shaping) into powder...
The present study examines the processing of a ceramic-metal powder via powder injection moulding (P...