Description |
1 online resource (500 pages) |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
Series |
Woodhead Publishing Series in Electronic and Optical Materials |
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Woodhead Publishing series in electronic and optical materials.
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Note |
Print version record. |
Contents |
Front Cover; Laser Additive Manufacturing; Related titles; Laser Additive Manufacturing: Materials, Design, Technologies, and Applications; Copyright; Contents; List of contributors; Woodhead Publishing Series in Electronic and Optical Materials; The role of lasers in additive manufacturing; Introduction; Laser as tool in AM; Laser-matter interaction in AM; Trends in powder- or wire-fed technology; Trends in powder bed technology; Summary; References; One -- Processes, technology and materials; 1 -- Laser-aided direct metal deposition of metals and alloys; 1.1 Introduction. |
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1.1.1 What is direct metal deposition?1.2 Review of the laser-cladding process; 1.2.1 What is laser-cladding technology?; 1.2.2 Novel materials and applications enabled by laser cladding; 1.2.3 Modeling of laser cladding; 1.2.3.1 Laser-powder interaction; 1.2.3.2 Heat transfer and fluid flow models; 1.2.3.3 Mass transfer models; 1.2.3.4 Self-consistent 3D transient model; 1.2.4 What is solid free-form fabrication?; 1.3 Material microstructure design and realization; 1.3.1 Homogenization design method; 1.4 Experimental procedure; 1.4.1 Negative coefficient of thermal expansion experiments. |
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1.4.2 Material selection1.5 Results and discussion; 1.5.1 Integrated design and manufacturing; 1.5.2 Remote manufacturing; 1.5.3 Process control and quality-assured manufacturing system (QAMS); 1.5.3.1 Geometry control; 1.5.3.2 Temperature and cooling rate control; 1.5.3.3 Composition sensor; 1.5.3.4 Microstructure sensor; 1.6 Summary and conclusion; Acknowledgments; References; 2 -- Powder bed fusion processes: an overview; 2.1 Process characteristics; 2.2 Processing parameters; 2.2.1 Definition of the combined processing parameters; 2.2.2 Morphology and size of particles. |
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2.3 Characteristics of the melt pool2.4 Microstructural features; 2.4.1 Texture; 2.4.2 Non-equilibrium microstructure; 2.4.3 Residual stresses, cracking and distortion of SLM-processed parts; 2.4.4 Defects and density of SLM-/SLS-processed parts; 2.5 Mechanical properties of SLM-processed metallic parts; 2.6 Concluding remarks; References; 3 -- Hybrid laser manufacturing; 3.1 Introduction; 3.2 Overview of possible hybrid laser manufacturing procedures; 3.3 Improving process performance by adding thermal heat sources; 3.3.1 Reducing stress by adding beam sources. |
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3.3.2 Preheating of the whole part in a furnace or by induction3.3.3 Hybrid laser manufacturing using local pre- and postheating by induction; 3.3.4 Effect of substrate preheating and comparison of different thermal effects; 3.3.5 Crack formation and delamination in LMD processes; 3.3.6 Influence of pre- and postheating on residual stresses at single and overlapping beads; 3.3.7 Geometry and position of the integrated inductor; 3.4 Hybrid approaches using mechanical impacts; 3.4.1 Reduction of distortion and stress by mechanical forces; 3.4.2 Combined finishing and laser-based AM. |
Note |
3.5 Conclusions and outlook. |
Subject |
Additive manufacturing.
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Lasers -- Industrial applications.
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Manufacturing processes.
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Fabrication additive.
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Lasers -- Applications industrielles.
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Fabrication.
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manufacturing.
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Additive manufacturing
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Lasers -- Industrial applications
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Manufacturing processes
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Other Form: |
Print version: Brandt, Milan. Laser Additive Manufacturing : Materials, Design, Technologies, and Applications. Kent : Elsevier Science, ©2016 9780081004333 |
ISBN |
9780081004340 (electronic bk.) |
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0081004346 (electronic bk.) |
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9780081004333 |
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0081004338 |
Standard No. |
AU@ 000061155818 |
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DEBSZ 482473568 |
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GBVCP 879400307 |
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