3D Printing Material Effective Than Stainless Steel For The Construction Industry.
3D Printing Materials Good Substitute For Steel
A team of German researchers from the Karlsruhe Institute of Technology is performing an experiment with an advanced Nanoscibe 3D printer to design a kind of construction material. The small and tiny hair-like printed structures, exactly 40 microns tall are displayed to be stronger than most of the standard building materials used in today’s day including the material as stainless steel. The new equipment of aluminum oxide-coated structures is ten times tougher than some forms of steel material and lighter in weight than water. In short, this new material of aluminum oxide-coated polymer structure tops the strength to weight ratio of many other construction materials used.
“When the elements are compressed they can withstand the pressure of up to 40,611 psi, in comparison with the today’s used stainless steel pressure of 30,458 psi.” The material has Superman-like features and that are acquired from the architecture of content.
The discovery of 3D Printed Construction could eventually change the production of transportation in the air, space and water mode, vehicles and some other kind of machinery that are very expensive to make with much weaker and less efficient materials. The revolution of 3D printing in the field of the construction industry is not only changing the building business by producing various projects faster, for instance, 3-D printed homes, but the discovery of 3D printing is now improving the materials employed to complete the respective projects.
Do you think that the introduction of this new super strength construction material will replace stainless steel and concrete down the road? And if they replace, would your business consider trying the material on building new projects shortly? Do you think how new materials like 3D printed materials affect firm codes and safe regulations of the near future?
If the researchers can make a way to scale up the process of production, the micro-engineered materials could make a way in the applications of making airplanes and spacecraft where strength matters but weight costs.
