Gan edrych ymlaen i'r dyfodol, mae technoleg ingot titaniwm yn cael ei esblygiad dwfn tuag at ddeallusrwydd, gwyrddni, a galluoedd eithafol. Mae deallusrwydd yn cael ei adlewyrchu yn y gwaith o adeiladu system deuol ddigidol proses lawn a- gwneud penderfyniadau deallus.
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 tunnell), perfformiad uwch (fel caledwch hynod, tymheredd uchel iawn), a siapiau mwy cymhleth (siâp bron â rhwyd). Mae hon nid yn unig yn gystadleuaeth o alluoedd offer, ond hefyd yn her ddofn i ddisgyblaethau sylfaenol megis gwyddor deunyddiau, meteleg, ffiseg a chemeg. Mae dyfodol diwydiant titaniwm Tsieina yn dibynnu a all gyflawni arloesedd systematig a gwreiddiol ar hyd y tri llwybr hyn, a thrwy hynny gyflawni naid hanesyddol o "arweinyddiaeth ar raddfa" i "arweinyddiaeth technoleg".
