了解钛和钛基合金的工业应用。钛是一种在航空航天、汽车和医疗工业中备受欢迎的材料。
发布日期 2/18/2020
类别: 应用

Learn all about coating the additive manufactured Titanium64 #2

In the previous article we’ve seen how AlTiN thin film deposition process was carried out via reactive Physical Vapor Deposition High-Power Impulse Magnetron Sputtering (PVD HiPIMS) to coat Ti6Al4V substrates, realized via Selective Laser Melting (SLM).
Two different SLM process conditions were employed for modifying the obtained part surface morphology and, later, the samples were heat-treated under high vacuum.

Do not miss this in-depth investigation and the conclusions at the end, we’ll provide you all the information to get the most out of these three technologies.

...阅读所有文章。

发布日期 1/21/2020
类别: 应用

Learn all about coating the additive manufactured Titanium64 #1

Among the industrial AM technologies, selective laser melting (SLM) is the most widespread, thanks to its process stability and its favorable ratio between costs and part quality. However, selective laser melted products require coatings for functionalizing the surface with extra properties and in this article we’ll see how thin film deposition process can be carried out to coat titanium substrates.

Is it possible to coat the titanium alloy substrates to obtain a good improvement of the mechanical surface features?
What’s the role of vacuum heat treatments on additive manufactured parts?
Can the laser scanning paths affect the resulting adhesion of the coatings?

...阅读所有文章。

发布日期 5/10/2018
类别: 应用

Metal additive manufacturing and vacuum heat treatments

Additive Manufacturing (AM) is any of various processes of making three-dimensional solid objects from a digital file.
Unlike subtractive manufacturing methods that start with a solid block of material and then cut away the excess to create a finished part, additive manufacturing builds up a part (or features onto parts) layer by layer from geometry described in a 3D design model.

Discover how the additive manufacturing processing of metals makes it possible to design and build lightweight parts in real time and understand potential of heat treatments in vacuum for 3D printed parts.

...阅读所有文章。

发布日期 11/25/2016

钛材料扩散键合:终极指南

先进的工程部件不仅需要更好的材料,而且还需要新的连接或焊接工艺。近年来,扩散键合已成为制造结构硬件或造航空航天和电子工业流体和气体流动装置的可行方法。这种技术对接头材料进行加热和加压,利用分子扩散来完成接合。这意味着由此生成的接头具有与母材类似或相当的属性。该工艺具备生产高质量钛接头的能力,使整个接合面上不会出现冶金不连续性,也不会存有气孔。

...阅读所有文章。

您是否想要了解本篇博客谈到的某个话题?

如果您对某篇文章有任何看法或有任何问题咨询,我们都非常欢迎。