Saib ua ntej mus rau yav tom ntej, titanium ingot thev naus laus zis tab tom muaj kev hloov pauv loj ntawm kev txawj ntse, ntsuab, thiab muaj peev xwm heev. Kev txawj ntse muaj kev cuam tshuam hauv kev tsim kho cov txheej txheem tag nrho cov ntxaib thiab kev txiav txim siab ntse- ua qhov system.
By integrating IoT sensing, multi physics numerical simulation, and big data analysis, virtual production and optimization of the entire process from melting, solidification to heat treatment can be achieved, and predictive control of internal structure and defects of ingots can be carried out, moving from "experience driven" to "data and model driven". The core of greenization is to develop efficient and high-value residual titanium recovery and recycling technologies. Through advanced processes such as EBCHM, high-value titanium shavings and waste generated during the processing are 100% recycled, producing high-end ingots with performance no different from raw materials. This is crucial for reducing costs and achieving sustainable development of the industry chain. Extreme manufacturing responds to major national demands, aiming to manufacture ingots and components with larger dimensions (single weight>50 tons), kev ua tau zoo dua (xws li ultra-siab toughness, ultra- kub), thiab ntau cov duab (ze net shape). Qhov no tsis yog tsuas yog kev sib tw ntawm cov cuab yeej muaj peev xwm, tab sis kuj yog ib qho kev sib tw sib sib zog nqus rau cov kev qhuab qhia tseem ceeb xws li cov khoom siv science, metallurgy, physics, thiab chemistry. Lub neej yav tom ntej ntawm Tuam Tshoj txoj kev lag luam titanium nyob rau hauv seb nws puas tuaj yeem ua tiav cov txheej txheem thiab kev tsim kho tshiab raws li peb txoj hauv kev, yog li ua tiav qhov kev vam meej ntawm "kev coj noj coj ua" mus rau "kev coj noj coj ua thev naus laus zis".
