7.4 Specifying a Simple Cost Model for Precision AM. 7.2 A Primer in Manufacturing Cost Modelling. 6.9 Future and Planned Standards Activities. 6.3.3 Morphology Characterisation Methods. 6.3.2 Particle Size Determination and Distribution. 6.3 AM Powder Feedstock Characterisation Standards. Chapter 6 Standards in Additive Manufacturing. 5.10.2.5 Automation and Targeted Finishing. 5.10.1 New Processes and Technologies in Development. 5.9 How to Impact AM Design for Finishing. 5.7 What Processes Are Appropriate for AM?. 5.6.3.2 Hybrid Mass Finishing and Chemical. 5.6.2 Non-Conventional Machining Methods. 5.6 Available Secondary Finishing Processes. 5.5.4 Finishing Challenges for AM in Precision Applications. 5.5.2 Geometrical Challenges for Finishing Operations. 5.5.1.1 Challenges of Surface Topography. 5.4 Specification Standards in Secondary Finishing. Chapter 5 Secondary Finishing Operations. 4.7 Concluding Remarks and Future Outlook. 4.6.3 GIGO Approach to Model Calibration. 4.6.2 Digital and Physical Design of Experiments. 4.5.4 Need for Heat-Treatment as Post-Process. 4.5.3 Revisiting Solidification during AM from a Metallurgical Perspective. 4.5.2 Metallurgical Modelling Techniques. 4.4.5 Surfaces and Solidification during AM. 4.4.3 Melt-Pool Dynamics in a Powder Bed. 4.4.2 Simulating Laser–Material Interactions. 4.4.1 Powder Bed Formation and Representation. 4.3.3 Full-Scale, Reduced-Order and Effective Models. 4.3.1 Understanding Thermal History, Residual Stresses and Distortions. 4.2.2 Challenges of Length and Time Scales. 4.2.1 The Physics of Laser Powder Bed Fusion. 3.8 Future Perspectives for Precision AM Processes. 3.7.2 Artificial Intelligence and Decision-Making Systems for Digital Quality Control. 3.7 Precision Processes in the Domain of Industry 4.0. 3.6.2.2 Artificial Neural Network Modelling. 3.6.2 Modelling of Process Performance (Quantifying Input/Output Process Relationships). 3.5.7 System-Wide Performance Indicators. 3.2 State of the Art and Insight into Precision Process Development. Chapter 3 Development of Precision Additive Manufacturing Processes. 2.3.3 Towards TO Methods for Avoiding Distortion in Precision AM Parts. 2.3.2 TO Methods for Preventing Overheating in Precision AM Parts. 2.3.1.1 Two-Dimensional Overhang Control. 2.3 Topology Optimisation for Precision Metal AM. 1.3 Towards Precision Additive Manufacturing. 1.1 Introduction to Additive Manufacturing.
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