Toward Stimuli-Responsive Soft Robots with 3D Printed Self-Healing Konjac Glucomannan Gels [0.03%]
具有3D打印自愈魔芋葡甘露糖凝胶的刺激响应性软体机器人研究
Krishna Manaswi Digumarti,Daniel Gosden,Nguyen Hao Le et al.
Krishna Manaswi Digumarti et al.
Significant progress in fabricating new multifunctional soft materials and the advances of additive manufacturing technologies have given birth to a new generation of soft robots with complex capabilities, such as crawling, swimming, jumpin...
Toward Emulating Human Movement: Adopting a Data-Driven Bitmap-Based "Voxel" Multimaterial Workflow to Create a Flexible 3D Printed Neonatal Lower Limb [0.03%]
模仿人类运动:采用数据驱动的位图为基础的“体素”多材料工作流程创建灵活的3D打印新生儿下肢
Bernard Joseph Guy,Ana Morris,Seyed Ali Mirjalili
Bernard Joseph Guy
It is increasingly common to produce physical anatomical medical models using high-fidelity multiproperty 3D printing to assist doctor-patient communication, presurgical planning, and surgical simulation. Currently, most medical models are ...
Adaptable Method for Dynamic Planning of 3D Spatial Wireframes Extrusion with Neural Networks and Robotic Automation [0.03%]
基于神经网络和机器人自动化的3D空间线框挤出动态规划的适应性方法
Dan Luo,Weiguo Xu
Dan Luo
3D extrusion of spatial wireframe provides an alternate method for additive manufacture, which holds a significant advantage over the typical layering printing method in terms of material and time efficiency. However, the complexity of the ...
Three-Dimensional Additive Manufacturing of Artificial Oil Reservoir Rock Core Plugs for Core Flooding Experimental Tests [0.03%]
人工油藏岩心封尾的三维打印及其驱油实验研究
Juan Antonio Cruz-Maya,Luis Carlos Martínez-Mendoza,Florencio Sánchez-Silva et al.
Juan Antonio Cruz-Maya et al.
Laboratory tests in which a fluid or combination of fluids that are injected into a core rock are designed to determine oil reservoir rock petrophysical properties, understand the mobility of fluid flow in the porous samples, and calibrate ...
Chemical Polishing of Additively Manufactured, Porous, Nickel-Titanium Skeletal Fixation Plates [0.03%]
增材制造的多孔镍钛骨骼固定板的化学抛光
Agnieszka Chmielewska,Ahmadreza Jahadakbar,Bartłomiej Wysocki et al.
Agnieszka Chmielewska et al.
Nickel-titanium (NiTi) alloys have shown promise for a variety of biomedical applications because of their unique properties of shape memory, superelasticity, and low modulus of elasticity (Young's modulus). Nevertheless, NiTi bulk componen...
Fracture Toughness of Three-Dimensional Stereolithography Printed Polymer Reinforced with Continuous Carbon Fibers [0.03%]
连续碳纤维增强的三维光固化打印聚合物的断裂韧性研究
Yue Lu,Xiao Xiao Han,Andrew Gleadall et al.
Yue Lu et al.
Additive manufacturing of fiber-reinforced polymers is one of the latest technical developments in composites manufacturing. However, there is a severe shortage of research into continuous fiber-reinforced polymers manufactured through ster...
Roughness and Near-Surface Porosity of Unsupported Overhangs Produced by High-Speed Laser Powder Bed Fusion [0.03%]
高速激光粉末床融合产生的无支撑悬垂表面粗糙度及近表面孔隙率
Mfanufikile Shange,Ina Yadroitsava,Anton du Plessis et al.
Mfanufikile Shange et al.
Laser powder bed fusion (LPBF) is a promising technology that requires further work to improve productivity to be adopted more widely. One possible approach is to increase the laser power and scan speed. A customized high-speed and high-pow...
Cheryl Perich,Robert MacCurdy,Ashley Macner et al.
Cheryl Perich et al.
Layered assembly is a voxel-based additive manufacturing process that relies on parallel grasping of voxels to produce multi-material parts. Although there exists substantial diversity in mechanisms of gripping, there still exists a lack of...
Microstructure and Properties of Al-6.0Mg-0.3Sc Alloy Deposited by Double-Wire Arc Additive Manufacturing [0.03%]
双丝电弧增材制造Al-6.0Mg-0.3Sc合金的显微组织与性能研究
Lingling Ren,Huimin Gu,Wei Wang et al.
Lingling Ren et al.
Al-6.0Mg-0.3Sc alloy deposits are prepared by means of a double-wire arc additive manufacturing process. The formation, porosity, metallographic structure, type of precipitated phase, and mechanical properties of the deposit are studied. Do...
Mechanical Performance of Lightweight-Designed Honeycomb Structures Fabricated Using Multijet Fusion Additive Manufacturing Technology [0.03%]
使用多射流熔融增材制造技术制作的轻量化设计蜂窝结构的力学性能研究
Aamer Nazir,Ahmad Bin Arshad,Shang-Chih Lin et al.
Aamer Nazir et al.
Cellular structures including three-dimensional lattices and two-dimensional honeycombs have significant benefits in achieving optimal mechanical performance with light weighting. Recently developed design techniques integrated with additiv...