中国九游会科技推出最新升级升级入门版精细直写3D打印设备
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- 发布时间:2021-06-27 23:07
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【概要描述】中国九游会科技以“专注创造价值”为中心,致力于为客户提供完善,稳定的专业技术方案,为客户创造更高...
中国九游会科技推出最新升级升级入门版精细直写3D打印设备
【概要描述】中国九游会科技以“专注创造价值”为中心,致力于为客户提供完善,稳定的专业技术方案,为客户创造更高...
- 分类:资讯中心
- 发布时间:2021-06-27 23:07
- 访问量:
中国九游会科技推出Adventure-3D-LB-Printer-100、50入门版精细直写3D打印设备升级版
可打印材料以及应用领域:
1. 活细胞生物组织打印:
L929, HepG2, MCST3活细胞组织打印。
2. 生物材料:
天然蛋白类生物材料:胶原,明胶,纤连蛋白,丝素。
合成高分子生物材料:琼脂,PLA,PLGA,泊洛沙姆407,F127,明胶。
骨修复生物陶瓷材料:羟基磷灰石,磷酸三钙,珍珠质。
3. 陶瓷材料
功能陶瓷材料:二氧化钛凝胶,二氧化钛,氧化铝,氧化锆,锆钛酸铅压电陶瓷,钛酸钡浆料。
传统陶瓷材料:高白泥、紫砂泥、黄泥、黄泥,瓷泥等。
4. 硅胶材料
PDMS生物硅胶,蓝、绿、红荧光硅胶。
采用Adventure 3D–LB-Printer发表相关论文(部分):
[1] Zhu PF, Yang WY, Wang R, et al. 2017. Direct Writing of Flexible Barium Titanate/Polydimethylsiloxane 3D Photonic Crystals with Mechanically Tunable Terahertz Properties[J]. Adv. Opt. Mater., 5: 6.
[2] Wang R, Yang WY, Zhu PF, et al. 2018. Creation of 3D terahertz photonic crystals by the direct writing technique with a TiO2 sol-gel ink[J]. J. Am. Ceram. Soc., 101: 1967-1973.
[3] Wang R, Zhu PF, Yang WY, et al. 2018. Direct-writing of 3D periodic TiO2 bio-ceramic scaffolds with a sol-gel ink for in vitro cell growth[J]. Mater. Des., 144: 304-309.
[4] Zeng XX, Wang R, Xi XQ, et al. 2018. 3D direct writing of terahertz metamaterials based on TbFeO3 dielectric ceramics[J]. Appl. Phys. Lett., 113: 5.
[5] Gao J, Wang R, Zhao Q, et al. 2018. A Modularized and Switchable Component for Flexible Passive Device: Terahertz Photonic Crystals with Fine-Tuning[J]. Adv. Opt. Mater.,
[6] Zhu PF, Yang WY, Wang R, et al. 2018. 4D Printing of Complex Structures with a Fast Response Time to Magnetic Stimulus[J]. ACS Appl. Mater. Interfaces, 10: 36435-36442.
[7] Pan YH, Zhu PF, Wang R, et al. 2019. Direct ink writing of porous cordierite honeycomb ceramic[J]. Ceram. Int., 45: 15230-15236.
[8] Wang R, Yang WY, Gao S, et al. 2019. Direct-writing of vanadium dioxide/polydimethylsiloxane three-dimensional photonic crystals with thermally tunable terahertz properties[J]. J. Mater. Chem. C, 7: 8185-8191.
[9] Wang R, Yang WY, Gao S, et al. 2019. Modulation of terahertz properties of 3D ceramic photonic crystals via post-creation non-metal anion doping treatment[J]. J. Am. Ceram. Soc., 102: 4688-4697.
[10] Zeng XX, Zhang GQ, Xi XQ, et al. 2019. Terahertz transmission of square-particle and rod structured TbFeO3 metamaterials[J]. Mater. Lett., 234: 66-68.
[11] Ju X, Yang W, Gao S, et al. 2019. Direct Writing of Microfluidic Three-Dimensional Photonic Crystal Structures for Terahertz Technology Applications[J]. ACS Appl. Mater. Interfaces, 11: 41611-41616.
[12] Su N,Zhu P, et al. 2020 3D-printing of shape-controllable thermoelectric devices with enhanced output performance
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