A homogeneous and compact super-aligned carbon nanotube(SACNT)-reinforced nickel-matrix composite was successfully prepared by electrodeposition. The mechanical properties of the laminar SACNT/Ni composites were subst...A homogeneous and compact super-aligned carbon nanotube(SACNT)-reinforced nickel-matrix composite was successfully prepared by electrodeposition. The mechanical properties of the laminar SACNT/Ni composites were substantially improved compared with those of pure nickel. With increasing content of SACNTs, the tensile strength of the composite increased and the elongation decreased because of the high-strength SACNTs bearing part of an applied load and the fine-grained strengthening mechanism. The nanohardness of the SACNT/Ni composites was improved from 3.92 GPa(pure nickel) to 4.62 GPa(Ni-4 vol%SACNTs). The uniform distribution of SACNTs in the composites and strong interfacial bonding between the SACNTs and the nickel matrix resulted in an improvement of the mechanical properties of the SACNT/Ni composites. The introduced SACNTs refined the nickel grains, increased the amount of crystal twins, and changed the preferred orientation of grain growth.展开更多
BACKGROUND The endovascular repair of juxtarenal abdominal aortic aneurysms(JAAA)usually requires combination treatment with various stent graft modifications to preserve side branch patency.As a feasible technique,ac...BACKGROUND The endovascular repair of juxtarenal abdominal aortic aneurysms(JAAA)usually requires combination treatment with various stent graft modifications to preserve side branch patency.As a feasible technique,according to the situation,antegrade in situ laser fenestration still needs to be improved.CASE SUMMARY This report describes a case that was successfully treated with endovascular repair facilitated by antegrade in situ laser fenestration while maintaining renal arterial flow.Laser fenestration was performed using a steerable sheath positioned in the stent graft lumen in front of the renal artery ostium.With the bare stent region unreleased,renal artery perfusion could be maintained and accurate positioning could be achieved by angiography in real time.CONCLUSION This study suggests the feasibility and short-term safety of this novel antegrade in situ laser fenestration technique for select JAAA patients.展开更多
基金partially financially supported by the Tsinghua University Initiative Scientific Research Program(No.20111080980)the High Technology Research and Development Program of China(No.2013AA031201)
文摘A homogeneous and compact super-aligned carbon nanotube(SACNT)-reinforced nickel-matrix composite was successfully prepared by electrodeposition. The mechanical properties of the laminar SACNT/Ni composites were substantially improved compared with those of pure nickel. With increasing content of SACNTs, the tensile strength of the composite increased and the elongation decreased because of the high-strength SACNTs bearing part of an applied load and the fine-grained strengthening mechanism. The nanohardness of the SACNT/Ni composites was improved from 3.92 GPa(pure nickel) to 4.62 GPa(Ni-4 vol%SACNTs). The uniform distribution of SACNTs in the composites and strong interfacial bonding between the SACNTs and the nickel matrix resulted in an improvement of the mechanical properties of the SACNT/Ni composites. The introduced SACNTs refined the nickel grains, increased the amount of crystal twins, and changed the preferred orientation of grain growth.
文摘BACKGROUND The endovascular repair of juxtarenal abdominal aortic aneurysms(JAAA)usually requires combination treatment with various stent graft modifications to preserve side branch patency.As a feasible technique,according to the situation,antegrade in situ laser fenestration still needs to be improved.CASE SUMMARY This report describes a case that was successfully treated with endovascular repair facilitated by antegrade in situ laser fenestration while maintaining renal arterial flow.Laser fenestration was performed using a steerable sheath positioned in the stent graft lumen in front of the renal artery ostium.With the bare stent region unreleased,renal artery perfusion could be maintained and accurate positioning could be achieved by angiography in real time.CONCLUSION This study suggests the feasibility and short-term safety of this novel antegrade in situ laser fenestration technique for select JAAA patients.
