This book presents the Proceedings of the 3rd conference on Additive Manufacturing in Products and Applications AMPA2023, a conference that brought together engineers, designers, and managers to exchange ideas and knowledge on how to support real-world value chains by developing additive manufactured serial products. It covers a range of topics related to additive manufacturing (AM), including design for AM, physical and digital process chains, as well as for technology transfer into companies and applications. The book is divided in Sections such as Design for AM, Digital Process Chains, Emerging AM Technologies and Teaching & Training. In addition to these technical topics, the book also covers broader issues related to additive manufacturing, such as Manufacturing Readiness Levels, implementing AM machines into the existing production chain, and quality assurance and control mechanisms. 

Design for AM 1

• Novel Design Method for Manufacturing Internal Cooling Channels Additively with a Functional Support Structure
• Comparative Evaluation of Optimization Algorithms for Automatic Build Orientation for Powder Bed Fusion of Metals Using a Laser Beam
• Review and Development of Design Guidelines for Additive Tooling of Injection Molds Using PolyJet Modelling

Design for AM 2

• Design of Additively Manufactured 3D Lattice Cores of Sandwich Panels
• Designing Variable Thickness Sheets for Additive Manufacturing Using Topology Optimization with Grey-Scale Densities
• Sustainability-Oriented Topology Optimization Towards a More Holistic Design for Additive Manufacturing

Process Chain 1: Digital Process Chain

• Integration of the Whole Digital Chain in a Unique File for PBF-LB/M: Practical Implementation Within a Digital Thread and Its Advantages
• Approach to an Automated Method for Load-Optimized Design of Multimaterial Joints for Additive Manufacturing
• Uncoupling Development Time from the Size of a Library of AM Parts Through Complexity Reduction and Modeling of Topology Optimization Results

Process Chain 2: Physical Process Chain

• Fabrication Forecasting of LPBF Processes Through Image lnpainting with In-Situ Monitoring Data
• The Influence of Nozzle Size on the Printing Process and the Mechanical Properties of FFF-Printed Parts
• Systematical Assessment of Automation Potential in Additive Manufacturing Process Chains

Emerging AM Technologies

• Numerical Modeling of Part Formation in Volumetric Additive Manufacturing
• Cost Saving Potential of a Shell-Core Strategy of Combined Powder Bed Fusion of Metals with Laser Beam and Hot Isostatic Pressing
• Automated Design of 3D-Printed Silicone Parts: A Case Study on Hand Rehabilitation Gloves for Stroke Patients
• Investigation of the Feasibility to Process NiTi Alloys with Powder Bed Fusion for Potential Applications
• Simulation
• Design for Additive Manufacturing and Finite Element Analysis of Fe-Mn Biodegradable Fracture Fixation Plate with Varying Porosity Levels
• Laser Powder Bed Fusion Processing Simulation of Simple Geometries in lnconel 738
• Toward Automated Topology Optimization: Identification of Non-Design Features of CAD Models Using Graph Neural Networks

Teaching and Training

• Investigating the Use of Augmented Reality Head-Mounted Displays to Teach Design for Additive Manufacturing
• Skills Requirements of Additive Manufacturing - A Textual Analysis of Job Postings Using Natural Language Processing
• Evaluating Digital Assistance in Form of Augmented Reality for Manual Processes in the Metal Binder Jetting Process Chain

Process Innovations for Applications

• Effect of Targeted Porosity in Additively Manufactured Heat Pipes
• On the Effectiveness of Triply-Periodic Minimal Surface Structures for Heat Sinks Used in Automotive Applications
• Soft Magnetoactive Morphing Structures with Self-Sensing Properties Using Multi-Material Extrusion Additive Manufacturing 

Use Cases

• Additive Manufacturing in Gas Cleaning Applications
• Evaluation of the Ultra-High Vacuum Suitability of Laser Powder Bed Fusion Manufactured Stainless Steel 316L
• Exploring the Integration of Additive Manufacturing: Lessons Learned and Success Factors of Use Cases