生物材料的激光增材制造原理与技术 英文版
作者:CijunShuai 著
出版时间:2017年版
目录:
Part Ⅰ Bioceramic
A novel MgO—CaO—Si02 system for fabricating bone scaffolds with improved overall performance
Calcium sulfate bone scaffolds with controllable porous structure by selective laser sintering
Analysis of 3D printed diopside scaffolds properties for tissue engineering
Boron nitride nanotubes reinforce tricalcium phosphate scaffolds and promote the osteogenic differentiation of mesenchymal stem cells
Mechanical and structural characterization of diopside scaffolds reinforced with grapheme
Synergistic effect of carbon nanotubes and graphene on diopside scaffolds
Part Ⅱ Bioglass
A 45S5 bioactive glass scaffold reinforced with ZnO and MgO
Improvement in degradability of 58s glass scaffolds by ZnO and β—TCP modification
Functionalization of calcium sulfate/bioglass scaffolds with zinc oxide whisker
Development of a novel double liquid phase for sintering β—tricalcium phosphate scaffold
Selective laser sintering of β—TCP/nano—58s composite scaffolds with improved mechanicalproperties
Enhanced stability of calcium sulfate scaffolds with 45S5 bioglass for bone repair
Part Ⅲ Biopolymer
Polyetheretherketone/poly(glycolic acid)blend scaffolds with biodegradable properties
Microstructure,mechanical and biological properties of porous poly(vinylidene fluoride)scaffolds fabricated by selective laser sintering
Diopside modified porous polyglycolide scaffolds with improved properties
Tailoring properties of porous Poly(vinylidene fluoride)scaffold through nano—sized 58s bioactive glass
A nano—sandwich construct built with graphene nanosheets and carbon nanotubes
enhances mechanical properties of HAP—PEEK scaffolds
Part Ⅳ Magnesium alloy
System development,formability quality and microstructure evolution of selective laser melted magnesium
The microstructure,mechanical properties and degradation behaviour of laser—melted Mg—Sn alloys
The enhancement of Mg corrosion resistance by alloying Mn and laser—melting
