增材制造 彻底改变了我们看待制造业的方式： 匪夷所思的几何形态、空前的复杂度以及全新的材料组合。
增材制造 由于不需要开模，工艺快速而且经济高效。 这样不仅可以提高成本效益，还能缩短产品上市时间。
- 更高效的生产 流程
增材制造 正在解锁全新的可能性： 可以将多个生产步骤合而为一，实现大规模定制。
Processes with additive manufacturing metal powders
In 2010, the American Society for Testing and Materials (ASTM) group created a set of standards that classify all different additive manufacturing processes into seven main categories. In short, they consist of VAT photopolymerization, material jetting, binder jetting, material extrusion, powder bed fusion, sheet lamination and direct energy deposition.
This new powder handling concept makes industrialization of 3D manufacturing possible
5 things to think about when designing a 3D printed part in metal
Customer service investigation
A flexible AM portfolio that fits most 3D printers
Höganäs’ additive manufacturing metal powders can be used for many AM technologies as well as together with a wide range of 3D printer brands from the world’s most renowned 3D printer manufacturers. Here you can read about common 3D printer manufacturers and what AM process they use in their respective 3D printers.
Obtain high-quality metal 3D printing powder
With the vacuum induction melting inert gas (VIGA) atomization technique, Höganäs can produce high-purity 3D printing metal powders in a volume of your choice. VIGA is used for producing high-quality Co-, Ni- and Fe-based metal powders.
Tooling – the heart and soul of perfect parts
Making use of metal 3D printing for the manufacture of tooling can save both time and money. Here, it’s vitally important to use the right additive manufacturing process as well as the right metal powder.