激光3D打印在生物制造中的應(yīng)用

Chapter Ⅰ Low-dimensional nanomaterials reinforced biomaterials by laser 3D printing
Nanodiamond reinforced polyvinylidene fiuoride/bioglass scaffolds for bone tissue engineering
Graphene oxide as an interface phase between polyetheretherketone and hydroxyapatite fortissue engineering scaffolds
A combined nanostructure constructed by graphene and boron nitride nanotubesreinforces ceramic scaffolds
A space network structure constructed by tetraneedlelike Zn0 whiskers supporting boron nitride nanosheets to enhance comprehensive properties of poly(L-lacti acid) scaffolds
Chapter Ⅱ Oxides reinforced biomaterials by laser 3D printing
Biosilicates scaffolds for bone regeneration： infiuence ofintroducing Sr0
A mesoporous silica composite scaffold： cell behaviors， biomineralization andmechanicalproperties
MgO whiskers reinforced poly (vinylidene fiuoride) scaffolds
Chapter Ⅲ Alloying elements in biomedical metals by laser rapid solidification
Laser rapid solidification improves corrosion behavior of Mg-Zn-Zr alloy
Microstructure evolution and biodegradation behavior oflaser rapid solidified Mg-Al-Zn alloy
Influence of alloying treatment and rapid solidification on the degradation behavior and mechanical properties of Mg
Preparation and characterization of laser-melted Mg-Sn-Zn alloys for biomedical application
Rare earth element yttrium modified Mg-Al-Zn alloy： microstructure， degradation properties andhardness
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Chapter Ⅳ Liquid phase-assisted densification in laser 3D printing
Chapter Ⅴ Combination of different types of biomaterials by laser 3D printing