分层厚度和CuO-TiO_(2)含量对黏结剂喷射成形Al_(2)O_(3)陶瓷型芯性能的影响  

作　　者：赵巍[1] 常佳俊 魏青松[1] 吴甲民 叶春生[1] ZHAO Wei;CHANG Jiajun;WEI Qingsong;WU Jiamin;YE Chunsheng(State Key Laboratory of Materials Processing and Die&Mould Technology,School of Materials Science and Engineering,Huazhong University of Science and Technology,Wuhan 430074,China)

机构地区：[1]华中科技大学材料科学与工程学院,材料成形与模具技术全国重点实验室,武汉430074

出　　处：《硅酸盐学报》2024年第9期2925-2933,共9页Journal of The Chinese Ceramic Society

基　　金：基于粘结剂喷射增材陶瓷芯制备技术研究(JCKY2022213C008)资助。

摘　　要：Al_(2)O_(3)陶瓷因其良好的耐高温性和化学稳定性,常被用作涡轮叶片铸造成形的型芯材料,但低温烧结的力学性能难以满足型芯零件的应用标准。为了解决该问题,本工作提出一种黏结剂喷射成形过程中以CuO-TiO_(2)作为液-固相烧结助剂实现Al_(2)O_(3)陶瓷型芯的低温力学性能的提升。详细探究了CuO-TiO_(2)含量(0~10%,质量分数)和分层厚度(60~100μm)对Al_(2)O_(3)陶瓷孔隙率、尺寸收缩率和力学性能的影响规律。结果表明,添加CuO-TiO_(2)既可以部分填充颗粒孔隙,又可以与Al_(2)O_(3)反应来提高坯体的综合性能。此外,低分层厚度(如60μm)有利于获得较优的性能。1500℃保温2 h烧结后各成分烧结体对应的相对密度较优值分别为30.64%±1.01%,55.33%±2.49%,53.68%±0.99%,54.31%±0.74%和55.50%±1.95%,对应的孔隙率由64.94%±1.2%逐渐下降到41.85%±1.82%。此时,纯Al_(2)O_(3)陶瓷X-Z轴尺寸收缩率均小于4%,而含CuO-TiO_(2)的坯体X-Z轴尺寸收缩率最大值分别小于17%,19%和17%。抗弯和压缩强度随着CuO-TiO_(2)含量增加先增加后减小,5.0%坯体获得最佳值分别为(29.4±1.57)MPa和(61.82±1.73)MPa,这与显微结构中气孔分布和Cu-Al-O系物相生成量有一定关系。Introduction Compared with the preparation process of blade turbine using precision investment casting(PIC),additive manufacturing technology,especially binder jetting additive manufacturing(BJAM),possess many advantages such as the decreased cost,simplified process,easily preparation of complex porous materials,and diversified selectivity of binder types,therefore,it has been widely used to fabricate the core parts.Al_(2)O_(3)ceramic owns better oxidation and corrosion resistance,highly serviced temperature and high hardness,is widely used as the core materials.However,the solid sintering method is hard to meet the mechanical requirement of Al_(2)O_(3)ceramic cores.Therefore,a solid-liquid sintering additives,such as CuO and TiO_(2),was added to assist the sintering of Al_(2)O_(3)ceramic.In this work,influence of sintering additives contents ranged from 0 to 10%(mass fraction)and layer thickness ranged from 60-100μm on the porosity,microstructure,and mechanical properties of Al_(2)O_(3)ceramic cores were investigated.the results could construct a theoretical foundation for the rapid and low-cost printing of high-performance ceramic cores,and further expand the application Scope of Al_(2)O_(3)ceramics.Methods Irregular Al_(2)O_(3)powders were used as raw material,irregular CuO and ball-like TiO_(2)powders were used as liquid-solid phase sintering additives.Based on the mass fraction of 4:1 corresponding to the eutectic temperature of CuO and TiO_(2),0-10%(mass fraction)of CuO-TiO_(2)mixture was respectively weighted and added into Al_(2)O_(3)powders in the polystyrene jar with ethanol as medium,and then these powders with Al_(2)O_(3)balls(weight ratio of ball to powder was 5:1)were ball milled at 180 r/min for 2 h.After milling,the mixed powder was dried at 90℃for 12 h and then sieved through 800-mesh Screen(about 18μm)to gain the eventual printed powders.The complex parts were printed by a binder jetting 3D printer,the corresponding parameters were the layer thickness of 60-100μm,inkjet amount of 60%-80%and

关 键 词：氧化铝陶瓷型芯 液-固相烧结助剂 分层厚度 孔隙率 力学性能 

分 类 号：TQ174.6[化学工程—陶瓷工业]