Hudák Radovan, Živčák Jozef, Tóth Teodor, Majerník Jaroslav, L. Martin
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引用次数: 6
摘要
使用增材制造技术制造的定制植入物的验证是植入物临床应用之前要完成的关键任务。它包括各个步骤中的参数验证,从软件设计,到制造,表面处理,直到医疗产品的定型。增材技术的使用有助于制造非机械载荷的人体部位(例如颅骨植入物)的定制植入物,以及替换关节或骨骼,这些关节或骨骼在日常活动中受到机械载荷。本文介绍了塑料3D打印和计算机断层扫描(Metrotom 1500, Carl Zeiss,德国)的可能用途,用于验证使用直接金属激光烧结(DMLS)技术和EOSINT M280设备(EOS GmbH,德国)制造的静态定制植入物的选定参数,这些植入物来自生物相容性钛合金Ti-6Al-4V(5级)。
Evaluation of custom-made implants using industrial computed tomography
Verification of custom-made implants manufactured using the additive manufacturing technologies is the key task to be fulfilled prior to the clinical application of an implant. It consists of parameters verification within individual steps, from a software design, through manufacturing, surface finishing, up to finalisation of a medical product. The use of additive technologies facilitates the manufacture of custom-made implants for human body parts which are not mechanically loaded (e.g. cranial implant), as well as replacement of joints, or bones, which are mechanically loaded during common everyday activities. The article presents possible uses of a plastic 3D printing and the computed tomography (Metrotom 1500, Carl Zeiss, Germany) for the verification of selected parameters of static customised implants manufactured using the Direct Metal Laser Sintering (DMLS) technology with the EOSINT M280 equipment (EOS GmbH, Germany) from the biocompatible titanium alloy Ti-6Al-4V (Grade 5).
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