The paper introduces the welding procedure and fabrication process of titanium alloy wheel, indicates the inspection method and quality result of welding location.
介绍了钛制叶轮的焊接工艺和制造过程,说明了焊接部位的检查方法及检查结果。
Objective Discuss the application of the design and fabrication of mandibular titanium framework based on ANSYS and rapid prototyping.
目的探讨ANSYS程序和快速成型技术在下颌钛植入支架的设计与制作中的应用。
A cobalt chromium alloy with titanium was used for the fabrication of the framework.
含钛的钴铬合金用来制作这个支架。
Conclusion Design and fabrication of mandibular titanium framework based on ANSYS and rapid prototyping is feasible.
结论利用ANSYS程序和快速成型技术,对下颌钛植入支架进行设计和制作是完全可行的。
A new technique has been designed to produce titanium matrix composites, in which it is possible to fabricate titanium matrix composites with high properties simply and at low fabrication cost.
成本和性能,本文开发设计了新型的钛基复合材料的制备工艺,可以低成本高效制备性能优异的钛基复合材料。
Microstructures of carbide and boride reinforced respectively titanium alloy matrix composites by different fabrication methods were reviewed.
论述了不同制备方法中分别以碳化物和硼化物为增强相的钛基复合材料的微观组织。
Microstructures of carbide and boride reinforced respectively titanium alloy matrix composites by different fabrication methods were reviewed.
论述了不同制备方法中分别以碳化物和硼化物为增强相的钛基复合材料的微观组织。
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