Syarikat kami bersebelahan dengan pangkalan pengeluaran span titanium berkualiti tinggi, dan pembelian bahan mentah dibuat daripada span titanium gred 0 dan gred 1, yang pada asasnya menjamin kualiti produk dan meletakkan asas untuk pemprosesan seterusnya produk dan kualiti produk akhir.
At present, the industrial method for the production of titanium metal is the Kraul method, and the product is titanium sponge. The traditional process of making titanium is to melt and cast sponge titanium into ingots, and then process them into titanium. According to this, the main steps of the technological process from mining to making titanium are: titanium ore -> mining -> beneficiation -> too concentrate -> enrichment -> titanium-rich material -> chlorination -> crude TiCl4-> Refining -> Pure TiCl4-> Magnesium reduction -> Sponge titanium -> Casting -> Titanium ingots -> Processing ->Bahan titanium atau bahagian titanium. Penyediaan kimia TiCI4 mentah. Di samping itu, operasi pemutus haruslah proses metalurgi, tetapi kadangkala ia juga diklasifikasikan sebagai proses pemprosesan.
Pemprosesan dalam proses di atas merujuk kepada pemprosesan dan penuangan plastik. Kaedah pemprosesan plastik termasuk penempaan, penyemperitan, penggulungan, regangan dan sebagainya. Ia boleh memproses jongkong titanium ke dalam pelbagai saiz kek, cincin, pinggan, paip, bar, profil dan produk lain, dan juga boleh dibuang ke dalam pelbagai bentuk bahagian dan komponen. Pemprosesan plastik aloi titanium dan titanium mempunyai ciri-ciri rintangan ubah bentuk yang besar; perbezaan keplastikan suhu biasa, had hasil tinggi dan nisbah had kekuatan, lantunan besar, sensitif kepada takuk, mudah diikat dengan acuan semasa ubah bentuk, dan mudah menyerap gas berbahaya apabila dipanaskan, dll. Pemprosesan plastik lebih sukar daripada keluli dan tembaga.
Oleh itu, teknologi pemprosesan titanium dan aloi titanium mesti mempertimbangkan ciri-ciri mereka.
Titanium adopts plastic processing, the processing size is not limited, and it can be mass-produced, but the yield rate is low, and a large amount of scraps and residues are generated during the processing. In view of the above shortcomings of titanium plastic processing, powder metallurgy technology has been developed in recent years. The powder metallurgy process of titanium is the same as ordinary powder metallurgy, but the sintering must be carried out under vacuum. It is suitable for the production of large-volume, small-sized parts, and is especially suitable for the production of complex parts. This method requires almost no processing and has a high yield rate. It can not only make full use of titanium waste as raw materials, but also reduce production costs, but it cannot produce large-size titanium parts. The powder metallurgy process of titanium is: titanium powder (or titanium alloy powder) -> sieving -> mixing -> press forming -> sintering -> auxiliary processing ->produk titanium.
