Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Glass carbon composition, multilayer laminate, and 3D printed article
Microform crack-free glassy carbon articles having a length and a width of each of at least 10 mm and a thickness of at least 5 mm, as well as multilayer laminates of microform crack-free glassy carbon, and corresponding methods and apparatuses for making the same, are described. Also described are 3D printed glassy carbon articles, as well as 3D printing apparatuses and methods for producing the same. Methods for forming glassy carbon containing glassy carbon nanolattice articles therein as fillers are also described. The glassy carbon compositions, articles, and laminates of the present disclosure overcome thickness limitations of conventional glassy carbon manufacturing methods, as well as microcrack issues accompanying the effort of previously producing glassy carbon of significant size and thickness.
描述了长度和宽度各自为至少10mm且厚度至少为5mm的微形态上无裂纹的玻璃碳制品,以及微形态上无裂纹的玻璃碳的多层层压体,和用于制造其的相应方法和装置。还描述了3D打印的玻璃碳制品,以及用于生产其的3D打印装置和方法。还描述了用于形成其中含有玻璃碳纳米晶格制品作为填料的玻璃碳的方法。本公开的玻璃碳组合物、制品和层压体克服了常规玻璃碳制造方法的厚度限制,以及伴随先前生产显著尺寸和厚度的玻璃碳的努力的微裂纹问题。
Glass carbon composition, multilayer laminate, and 3D printed article
Microform crack-free glassy carbon articles having a length and a width of each of at least 10 mm and a thickness of at least 5 mm, as well as multilayer laminates of microform crack-free glassy carbon, and corresponding methods and apparatuses for making the same, are described. Also described are 3D printed glassy carbon articles, as well as 3D printing apparatuses and methods for producing the same. Methods for forming glassy carbon containing glassy carbon nanolattice articles therein as fillers are also described. The glassy carbon compositions, articles, and laminates of the present disclosure overcome thickness limitations of conventional glassy carbon manufacturing methods, as well as microcrack issues accompanying the effort of previously producing glassy carbon of significant size and thickness.
描述了长度和宽度各自为至少10mm且厚度至少为5mm的微形态上无裂纹的玻璃碳制品,以及微形态上无裂纹的玻璃碳的多层层压体,和用于制造其的相应方法和装置。还描述了3D打印的玻璃碳制品,以及用于生产其的3D打印装置和方法。还描述了用于形成其中含有玻璃碳纳米晶格制品作为填料的玻璃碳的方法。本公开的玻璃碳组合物、制品和层压体克服了常规玻璃碳制造方法的厚度限制,以及伴随先前生产显著尺寸和厚度的玻璃碳的努力的微裂纹问题。
Glass carbon composition, multilayer laminate, and 3D printed article
玻璃碳组合物、多层层压体、以及3D打印制品
RODDINGTON RICHARD (Autor:in) / MARIN LUIZ EDUARDO (Autor:in) / HULTQUIST STEVEN JOHN (Autor:in)
28.02.2023
Patent
Elektronische Ressource
Chinesisch
IPC:
C04B
Kalk
,
LIME