Additive Manufacturing of Glass
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Additive Manufacturing of Glass
From Science to Applications
Rapp, Bastian E.; Kotz-Helmer, Frederik
Elsevier - Health Sciences Division
09/2024
296
Mole
Inglês
9780323854887
15 a 20 dias
Descrição não disponível.
Introduction
Digital Glass Forming using Direct Heating Techniques
Sol-gel and Colloidal Glass Processing
Deposition-based, Indirect Glass 3D Printing
Photostructuring of Silicate and Chalcogenide Glasses
Laser-based Approaches for 3D Structuring of Glass
State of the Art Container Glass Forming
3D Printing of Bioactive Glasses and Glass-Ceramics for Bone Tissues Regeneration
Next Generation Micro Optics
Role and Impact of Glass in Chemistry, Flow Chemistry and Microfluidic Technologies
Digital Glass Forming using Direct Heating Techniques
Sol-gel and Colloidal Glass Processing
Deposition-based, Indirect Glass 3D Printing
Photostructuring of Silicate and Chalcogenide Glasses
Laser-based Approaches for 3D Structuring of Glass
State of the Art Container Glass Forming
3D Printing of Bioactive Glasses and Glass-Ceramics for Bone Tissues Regeneration
Next Generation Micro Optics
Role and Impact of Glass in Chemistry, Flow Chemistry and Microfluidic Technologies
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D printed optics; 3D printing; 3D-printed glass microfluidic devices; Ablation; Additive manufacturing; Additive manufacturing of glass; Additive manufacturing of optics; Binder jetting; Bioactive glasses; Bone regeneration; Chalcogenide glass; CO2 laser; Colloids; Dielectrophoresis; Direct ink writing; Droplet-based microfluidics; Femtosecond; Flow chemistry; Forming; Functionally graded materials; Future perspectives of glassmaking; Glass; Glass 3D printing; Glass additive manufacturing; Glass bottle; Glass container; Glass markets; Glass shaping; Glassomer; Gradient refractive index; Historic glassmaking; Industrial processes; Ink jetting; Inspection; IS machine; Laser processing; Materials synthesis; Metastability; Microfluidics; Microlenses; Modification; Nanosecond; Nonlinear processes; Self-assembled materials; Silicate glass; Sol; Sol-gel; Stereolithography; Supramolecular chemistry; Thermoplastic forming; Tissue engineering; Two-photon polymerization; Ultrashort pulsed
Introduction
Digital Glass Forming using Direct Heating Techniques
Sol-gel and Colloidal Glass Processing
Deposition-based, Indirect Glass 3D Printing
Photostructuring of Silicate and Chalcogenide Glasses
Laser-based Approaches for 3D Structuring of Glass
State of the Art Container Glass Forming
3D Printing of Bioactive Glasses and Glass-Ceramics for Bone Tissues Regeneration
Next Generation Micro Optics
Role and Impact of Glass in Chemistry, Flow Chemistry and Microfluidic Technologies
Digital Glass Forming using Direct Heating Techniques
Sol-gel and Colloidal Glass Processing
Deposition-based, Indirect Glass 3D Printing
Photostructuring of Silicate and Chalcogenide Glasses
Laser-based Approaches for 3D Structuring of Glass
State of the Art Container Glass Forming
3D Printing of Bioactive Glasses and Glass-Ceramics for Bone Tissues Regeneration
Next Generation Micro Optics
Role and Impact of Glass in Chemistry, Flow Chemistry and Microfluidic Technologies
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D printed optics; 3D printing; 3D-printed glass microfluidic devices; Ablation; Additive manufacturing; Additive manufacturing of glass; Additive manufacturing of optics; Binder jetting; Bioactive glasses; Bone regeneration; Chalcogenide glass; CO2 laser; Colloids; Dielectrophoresis; Direct ink writing; Droplet-based microfluidics; Femtosecond; Flow chemistry; Forming; Functionally graded materials; Future perspectives of glassmaking; Glass; Glass 3D printing; Glass additive manufacturing; Glass bottle; Glass container; Glass markets; Glass shaping; Glassomer; Gradient refractive index; Historic glassmaking; Industrial processes; Ink jetting; Inspection; IS machine; Laser processing; Materials synthesis; Metastability; Microfluidics; Microlenses; Modification; Nanosecond; Nonlinear processes; Self-assembled materials; Silicate glass; Sol; Sol-gel; Stereolithography; Supramolecular chemistry; Thermoplastic forming; Tissue engineering; Two-photon polymerization; Ultrashort pulsed
