C-103 + Ti-6Al-4V FGM Test
page information
Writer InssTek 작성일24-07-15 19:55attached file
-
C-103Ti-6Al-4V FGM Test.pdf
(3.5M)
30 Download
DATE : 2025-02-12 14:29:36
related link
body text
We are thrilled to share the latest advancements in multi-material fabrication researched by Insstek's #MX_Lab !
Research Highlight: C-103 + Ti-6Al-4V FGM Test
Our study confirms the feasibility of fabricating multi-material parts using Functionally Graded Material (FGM) techniques. This approach allows for the seamless integration of C-103 (Nb Alloy) and Ti-6Al-4V (Ti Alloy), providing innovative solutions for high-performance applications.
SEM/EDS Analysis
The gradient melting of C-103 and Ti-6Al-4V has been meticulously analyzed, revealing a stable mixture ratio range from 100:0 to 50:50. Beyond this ratio, the high-melting-point Niobium (Nb) does not fully melt, highlighting the critical parameters for successful multi-material fabrication.
Elemental Graph Insights
The printing sample elemental graph illustrates the transition and distribution of elements throughout the graded material, ensuring optimal performance characteristics.
This breakthrough in FGM technology opens new avenues in aerospace, automotive, and other industries requiring advanced material solutions. Stay tuned for more exciting updates!
#AdvancedMaterials #FGM #Innovation #Research #MaterialScience #AdditiveManufacturing #3DPrinting #Engineering #Aerospace #Automotive
Research Highlight: C-103 + Ti-6Al-4V FGM Test
Our study confirms the feasibility of fabricating multi-material parts using Functionally Graded Material (FGM) techniques. This approach allows for the seamless integration of C-103 (Nb Alloy) and Ti-6Al-4V (Ti Alloy), providing innovative solutions for high-performance applications.
SEM/EDS Analysis
The gradient melting of C-103 and Ti-6Al-4V has been meticulously analyzed, revealing a stable mixture ratio range from 100:0 to 50:50. Beyond this ratio, the high-melting-point Niobium (Nb) does not fully melt, highlighting the critical parameters for successful multi-material fabrication.
Elemental Graph Insights
The printing sample elemental graph illustrates the transition and distribution of elements throughout the graded material, ensuring optimal performance characteristics.
This breakthrough in FGM technology opens new avenues in aerospace, automotive, and other industries requiring advanced material solutions. Stay tuned for more exciting updates!
#AdvancedMaterials #FGM #Innovation #Research #MaterialScience #AdditiveManufacturing #3DPrinting #Engineering #Aerospace #Automotive
Comments list
No comments have been registered.