对金属钛的理解,我们可能只知道它一直用于航空航天工业。然而,在近些年,钛在石油、化工、轻工、汽车、医疗等方面发展迅速。金属钛,由于其较高的性能和较低的成本,研究人员不断努力开发出了高性能和低成本的钛合金。将讨论钛的制备以及发展。在生物学上,生物医学复合材料是由两种或两种以上不同材料之间的复合材料生物医学材料组成;主要用于组织修复替代和制造人造器官,因此许多复合生物材料最近被运用于研究医疗应用程序,其中一些为目前商业化的优势传统材料。本文介绍了操作方法、结构、钛的制备、性能和最近的发展。通过这篇论文,我希望人们将对生物医学复合材料有更好的更全面的知识,尤其是钛这种材料的进一步的深入研究,并推动材料科学行业的发展。 The understanding of titanium metal, we may only know it has been used in the aerospace industry. However, in recent years, titanium has been rapidly developed in the fields of petroleum, chemical engineering, light industry, automobile and medical treatment. Titanium metal, due to its high performance and low cost, has been working hard to develop high performance and low cost titanium alloys. The preparation and development of titanium will be discussed. Biologically, biomedical composites consist of composite biomedical materials between two or more different materials; they are mainly used for tissue repair to replace and manufacture artificial organs. Therefore, many composite biomaterials have recently been applied in research Some of the medical applications, traditional materials that are currently commercialized. This article describes the method of operation, structure, preparation of titanium, properties and recent developments. Through this essay, I hope people will have better and more comprehensive knowledge of biomedical composite materials, especially the further research of titanium materials and promote the development of material science industry.