The proceedings contain 61 papers. The special focus in this conference is on additivemanufacturing, modeling systems and 3d prototyping. The topics include: Kinematic optimization of the robot head movements for the...
ISBN:
(纸本)9783030202156
The proceedings contain 61 papers. The special focus in this conference is on additivemanufacturing, modeling systems and 3d prototyping. The topics include: Kinematic optimization of the robot head movements for the evaluation of human-robot interaction in social robotics;personalized human factor and ergonomics: Usability design of 3d printed patient-specific fracture external fixator;parametric design of applied origami with a synthetic computational approach;generative design for printable mass customization jewelry products;application of robust design techniques for 3d printing on textiles;an algorithmic approach to viewsheds analysis for cultural landscape: Manziana and the bracciano lake area;design anddigital fabrication of a parametric joint for bamboo sustainable structures;visionaria. an open design approach for the regeneration of historical urban heritage;Three renaissance vaults in Milan. cultural heritage anddigital workflows for BIM modelling;3d printing to innovate the guitar design;four projects of pier luigi nervi. a methodology for the construction and3d print of architectural models;rapidprototyping for dissemination of perspective treatises;semantic and procedural approaches in generative modeling for the representation of cultural heritage;procedural modelling as a tool for morphological analysis of the design idea;resolution analysis of image-based3d models;generative models for experimentation and knowledge of perspective principles;using virtual reality and rapidprototyping to co-create together with hospitalized children;avoiding product abandonment through user centereddesign: A case study involving the development of a 3d printed customized upper limb prosthesis;evaluation of orthosis rapidprototypingduring the design process: Analysis of verification models.
The proceedings contain 51 papers. The special focus in this conference is on Advanced Production Management and Process Control. The topics include: Evaluating Strategies to Restore Trust in decision Support systems ...
ISBN:
(纸本)9783319941950
The proceedings contain 51 papers. The special focus in this conference is on Advanced Production Management and Process Control. The topics include: Evaluating Strategies to Restore Trust in decision Support systems in Cross-Company Cooperation;designing for the Future Factory: Exploring the Co-evolution of manufacturingdigital Intensity and Personas;ways to Encourage Re-manufacturing as Nigeria Seeks to Transition into a Green Economy;Exoskeleton Assistance Assessment (EAA)-Tool;regional development in Modern Robotic Education on Industrial and Society Context;the Effect of Speed Variation on Initial and Sustained Forces during Pushing and Pulling Activities: A Preliminary Study;Human Factor and Working Out of NBIC Technologies;prior Knowledge and Opportunity Recognition;modelling 3d Objects Using 2d Sketches Through Radial Renderings of Curvature Maps;evaluation of Order Picking Processes Regarding the Suitability of Smart Glasses-Based Assistance Using Rasmussen’s Skills-Rules-Knowledge Framework;towards a digital Healthcare Revolution Views and Researches of the Milanese FabLab Community;direct Control of 3d Models Through User Input to Simulate the Behavior of Mechatronic systems;3ddesign Process: Case Study of Metaproject Analysis and3d Printing Concept Proposal in the Field of Fashion;image Processing of Artworks for Construction of 3d Models Accessible to the Visually Impaired;use of digital modeling and3d Printing for the Inclusive Valorization of Cultural Heritage;applying the Programmable modeling Tool to Support the Hospital Infection Control Staff in Customizing the Filtering Face-Piece Respirators for Health Care Worker;reverse Engineering anddigital Archives as a Resource for Practical Craft-Basedmanufacturing Process;c4t: Safe Behavior Performance Tool.
The proceedings contain 49 papers. The special focus in this conference is on Production Management and Process Control. The topics include: A Review of Sustainable Materials Used in Thermoplastic Extrusion and Powder...
ISBN:
(纸本)9783030519803
The proceedings contain 49 papers. The special focus in this conference is on Production Management and Process Control. The topics include: A Review of Sustainable Materials Used in Thermoplastic Extrusion and Powder Bed Melting additivemanufacturing;quantifying discrepancies at Positioning Custom 3d-Printed Surgical Guides for Bone Tumor Resection;design of 3d Printed Cellular Meta-materials for Improved Tool-Handle Ergonomics;destructive Tests of an additively Manufactured Compressor Wheel Performed at High Rotational Speeds;research on Body Type’s Characteristics of Young Men and Women Based on 3d Body Scanning;Product development with Biopolymers Made from Brewers’ Spent Grain (BSG) and Carboxymethylcellulose (CMC), Using 3d Food Printer;Smart Garden (SMAG): A System of Outdoor Furniture Equipped with Artificial Intelligence;Mixed Reality for Visualization of Operating data and Semantic Self-descriptions of Machines using OPC UA;a detailed Investigation on Apparent and Root Causes of Accidents in manufacturing;from Working for Others to Working for Yourself;mathematical Model for Ergonomic Job Rotation Scheduling to Balance the Workload of Employees in Assembly Lines;simulated Ergonomics Evaluation Using Modern Multi-task Evaluation Models;Model-Based Interconnection of digital and Physical Twins Using OPC UA;educational Effects by Formalizing of Traditional Backing Techniques in Japan;dynamic View of Human Elements design and Projection of Human Factors in Critical Task Operation Using Bayesian Networks;activity Process Analysis in Automobile Sheet Metal dent Repair;Quality Circles and Kaizen Award Evaluation Process Improvement in KALdER: Application of Multi-criteria decision Making Techniques;factory Change Agent Combining Lean manufacturing Concept and Environmental Management in Construction Production.
additivemanufacturing offers flexibility in customizing, designing, minimizing waste, faster prototyping andmanufacturing complex profiles. The process parameters play a crucial role in the mechanical strength of th...
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ISBN:
(纸本)9783031650062;9783031650079
additivemanufacturing offers flexibility in customizing, designing, minimizing waste, faster prototyping andmanufacturing complex profiles. The process parameters play a crucial role in the mechanical strength of the 3d printed product. The present research aims to investigate the impact of various 3d printing process settings on the hardness of PLA copper composite. The results of selecting terms with significant effects on the response show that all the factors studied present such effects. Indeed, the analysis of the final screening plans showed that the most influential factors are the filling density and the thickness of the layer for the Flat and Edge positions. The printing speed influences the hardness of the samples in its quadratic form while it itself has no influence. All the factors adopted are influential in their different forms.
additivemanufacturing, or 3d printing, as it is more commonly known, is the production of a three-dimensional model of an object by adding material layer by layer using digital data. additivemanufacturing is a techn...
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ISBN:
(数字)9783031671951
ISBN:
(纸本)9783031671944;9783031671951
additivemanufacturing, or 3d printing, as it is more commonly known, is the production of a three-dimensional model of an object by adding material layer by layer using digital data. additivemanufacturing is a technology that produces a physical model from a computer model through a layer-by-layer manufacturing process. Unlike traditional manufacturing methods, 3d printing creates objects in layers, providing designers and manufacturers with greater flexibility and free-dom. additivemanufacturing technology, also known as 3d printing, has gained significant attention in industries due to its advantages in customizing complex geometries and reducing costs. despite the abundance of research on process de-sign, control, andprototyping, there remains a dearth of work on adapting addi-tive manufacturing to *** study discusses the topic of additive manu-facturing in the existing literature. Fuzzy logic was included in the study in order to quantitatively analyse the causal relationship between the various characteristics that influence industrial adaptability. This text examines the literature on fuzzy logic-basedadditivemanufacturing studies and explains their purposes. The studies are categorized based on the parameters and fuzzy logic techniques used. It is crucial to carefully adjust the parameters in additivemanufacturing to achieve the desired outcome. To ensure a successful additivemanufacturing pro-cess, it is critical to determine the most suitable parameters for each application and material type. The objective of this study is to conduct a quantitative analysis of additivemanufacturing technology and identify gaps in the existing literature for future research.
The additivemanufacturing (AM) applications using collaborative robots (cobot) are rapidly increasing in the manufacturing field. The integration of AM with a cobot abilities can help prototyping andmanufacturing cu...
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The additivemanufacturing (AM) applications using collaborative robots (cobot) are rapidly increasing in the manufacturing field. The integration of AM with a cobot abilities can help prototyping andmanufacturing custom-made parts in a more efficient way. This paper relies on manufacturing cell that combines a fuseddeposition modeling (FdM) extruder with a 6-axis cobot controlled by IoT edge computing devices. The production processes are designed in a robot simulation software, where digital twin (dT) of the manufacturing cell is available. direct and reverse communication between the simulation software and the physical manufacturing cell allows for implementing the real industrial cases. The manufacturing cell has been tested to demonstrate the viability of replacing traditional 3d printers in the industrial sector while taking advantage of working in a complex anddynamic environment. According to this approach this paper promotes the enlargement of the set of robot-abilities by adding additivemanufacturing capabilities.
additivemanufacturing (AM) is a family of manufacturing processes suitable for rapidprototyping and building near-net-shape components. AM mainly relies on the 2d-slicing process, which does not perform well for fre...
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ISBN:
(纸本)9798331516246;9798331516239
additivemanufacturing (AM) is a family of manufacturing processes suitable for rapidprototyping and building near-net-shape components. AM mainly relies on the 2d-slicing process, which does not perform well for free-form shapes, causing the need for support structures, staircase defects, and anisotropy. To address these challenges, several works have been done on Non-planar (NP) slicing techniques to improve flexibility and fabrication performances. While existing work primarily focuses on thin-walled geometries and conformal printing, the issue of filled fabrication with inner cavities remains partially unaddressed. In this context, this work specifically tackles NP-slicing for overhanging components with internal features (such as inner cavities). Our method uses a volumetric mesh (based on tetrahedral elements) and leverages the geodesic field to minimize layer thickness variations, aiming to reduce anisotropy. Although this work is exploratory, it shows the method's feasibility through the robotic toolpaths' simulations.
additivemanufacturing is one of the growing trends in manufacturing processes. This technology enables the creation of complex forms and geometries that were previously impossible or too challenging to achieve with e...
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ISBN:
(纸本)9783031650062;9783031650079
additivemanufacturing is one of the growing trends in manufacturing processes. This technology enables the creation of complex forms and geometries that were previously impossible or too challenging to achieve with existing technologies. The consideration for the characteristics of the manufacturing process, the objective of this work is to numerically simulate the mechanical properties of FdM components using a CAd model. We simulated the FdM process using a numerical environment and CAE software, and then employed the finite elements technique. In truth, additivemanufacturing (FdM) process simulations have shown very positive outcomes on a number of fronts. For instance, their mechanical characteristics make them suitable for use in the design of industrial products. Furthermore, FdM process simulations can provide valuable insights into the effectiveness of the production process, such as stress levels and Elastic modulus. Indeed, FdM process simulations can also optimize the design and production process, reducing cost and time.
additivemanufacturing (3d printing) is a revolutionary technology with widespread applications among various industries. It is a cost effective and fast prototyping technology of 20th century, the parts produced by 3...
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additivemanufacturing is often used in rapidprototyping andmanufacturing, allowing the creation of lighter, more complex designs that are difficult or too expensive to build using traditional manufacturing methods....
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additivemanufacturing is often used in rapidprototyping andmanufacturing, allowing the creation of lighter, more complex designs that are difficult or too expensive to build using traditional manufacturing methods. This work considers the implementation of a novel digital twin ecosystem that can be used for testing, process monitoring, and remote management of an additivemanufacturing-fuseddeposition modeling machine in a simulated virtual environment. The digital twin ecosystem is comprised of two approaches. One approach is data-driven by an open-source 3d printer web controller application that is used to capture its status and key parameters. The other approach is data-driven by externally mounted sensors to approximate the actual behavior of the 3d printer and achieve accurate synchronization between the physical and virtual 3d printers. We evaluate the sensor-data-driven approach against the web controller approach, which is considered to be the ground truth. We achieve near-real-time synchronization between the physical machine and its digital counterpart and have validated the digital twin in terms of position, temperature, and run duration. Our digital twin ecosystem is cost-efficient, reliable, replicable, and hence can be utilized to provide legacy equipment with digital twin capabilities, collect historical data, and generate analytics.
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