Products related to 3D:
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Additive Manufacturing for Plastic Recycling : Efforts in Boosting A Circular Economy
This book provides a comprehensive and up-to-date discussion of breakthroughs on additive manufacturing for plastic material recycling to boost a circular economy.It offers new ideas of combining/hybridizing processing methods that work as a source of information for manufacturers in making new and strategic product development plans.Additive Manufacturing for Plastic Recycling: Efforts in Boosting a Circular Economy provides a critical, comprehensive, methodological, and strong state-of-the-art work on the processing of thermoplastic and thermosetting along with new directions and applications.It describes the common and hybrid approaches of recycling processes and includes theoretical and practical ideas of combining/hybridizing processing methods with the use of fused deposition modelling, which is one of the low-cost additive manufacturing techniques.The book also discusses mechanical twin-screw extrusion followed by case studies for developing hybrid composite structures for biomedical and structural applications.Recent innovations in melt processing for recycling and the fundaments, process parameters investigations, and applications for new product development are also presented.This book is a first-hand reference source of information for academic scholars and commercial manufacturers for making strategic development plans for new product development.
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1500ml plastic biodegradable food packaging containers
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3D Scanning for Advanced Manufacturing, Design, and Construction
3D Scanning for Advanced Manufacturing, Design, and Construction Learn how 3D scanning technology drives advanced manufacturing and modern construction 3D scanning technology allows non-contact scanning of objects for unprecedented data collection, analysis, and modeling. 3D models created this way are valuable at every stage of the design and build process and they have become a staple in additive manufacturing or 3D printing.As 3D printing transforms global industry at every scale, there has never been a better time for engineers and industrial professionals to be competitive in the area of 3D scanning, a multibillion-dollar market that continues to grow. 3D Scanning Technology for Advanced Manufacturing, Design, and Construction provides a comprehensive introduction to 3D scanning and its applications in both the AEC and manufacturing industries.After establishing the history and basic principles of 3D scanning, it includes discussions of the various scanner types and software interfaces, the use of 3D point clouds for analysis and reverse engineering, and much more.It covers the full range of technology and processes that engineers, architects, and manufacturing professionals use to increase accuracy and quality while reducing project timelines. Readers of 3D Scanning Technology for Advanced Manufacturing, Design, and Construction will also find: Case studies that highlight techniques useful for specific real-world applicationsComparisons of various scanning devices and software that aid in choosing the proper technologies for a specific projectResources and references for online learning, organizations, and certifications Perfect for engineers, technicians, students, and industry professionals new to laser scanning, 3D Scanning Technology for Advanced Manufacturing, Design, and Construction will earn its place in libraries of technical, vocational, and continuing education audiences seeking to improve their knowledge of 3D scanning.
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Smart Manufacturing : Integrating Transformational Technologies for Competitiveness and Sustainability
The manufacturing industries remain the foundation of local, regional, and global economies.Manufacturing plants operate in dynamic markets that demand upgrading with transformational technologies for maintaining profitability, competitiveness, and business sustainability.Yet most manufacturing plants currently use technologies that are no longer competitive, and industry leaders face an overwhelming array of operational challenges that require agile and enhanced transformational solutions.This book offers manufacturers effective strategies and tools for the adoption and implementation of advanced operational technologies to ensure long-term innovation, efficiency, and profitability. Covers advanced automation integration in manufacturing, including digitization, AI, machine learning, IIoT, and cybersecurity Describes innovation, development, and integration of control technologies for sustainable manufacturing Explains how to upgrade existing manufacturing plants for the global market Shows how to apply emerging technologies including asset optimization and process integration for product lifecycle improvements, plant operation and maintenance enhancement, and supply chain integrationThis book serves as a strategic guide to applying advanced operational technologies for engineers, industry professionals, and management in the manufacturing sector.
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Are plastic waste from 3D printing environmentally hazardous?
Yes, plastic waste from 3D printing can be environmentally hazardous if not properly managed. The disposal of 3D printing waste can contribute to plastic pollution in landfills and waterways, leading to harm to wildlife and ecosystems. Additionally, some 3D printing materials may contain toxic chemicals that can leach into the environment if not handled and disposed of correctly. Therefore, it is important for 3D printing users to implement proper waste management practices, such as recycling and proper disposal, to minimize the environmental impact of plastic waste from 3D printing.
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Are plastic waste from 3D printing also environmentally hazardous?
Yes, plastic waste from 3D printing can be environmentally hazardous if not properly managed. The disposal of 3D printing waste can contribute to plastic pollution in landfills and oceans, leading to harmful effects on wildlife and ecosystems. To mitigate these environmental impacts, it is important for 3D printing users to recycle or properly dispose of their plastic waste. Additionally, exploring alternative materials for 3D printing, such as biodegradable filaments, can help reduce the environmental footprint of this technology.
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Which 3D programs are suitable for creating 3D models for 3D printers?
Some of the most suitable 3D programs for creating 3D models for 3D printers are Autodesk Fusion 360, Blender, and Tinkercad. Autodesk Fusion 360 is a professional-grade software with powerful modeling and simulation tools. Blender is a free and open-source software with a wide range of features for 3D modeling and animation. Tinkercad is a user-friendly and web-based program, making it accessible for beginners and hobbyists to create 3D models for 3D printing.
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How can one recover plastic filament from a 3D printer?
To recover plastic filament from a 3D printer, you can start by heating the extruder to melt any remaining filament. Once the extruder is hot, carefully pull out the filament from the printer. If the filament is stuck, you can try using pliers to gently pull it out. Make sure to let the filament cool down before handling it further.
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Recycling Class : The Contradictions of Inclusion in Urban Sustainability
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Additive Manufacturing and 3D Printing Technology : Principles and Applications
Additive Manufacturing and 3D Printing Technology: Principles and Applications consists of the construction and working details of all modern additive manufacturing and 3D-printing technology processes and machines, while also including the fundamentals, for a well-rounded educational experience.The book is written to help the reader understand the fundamentals of the systems.This book provides a selection of additive manufacturing techniques suitable for near-term application with enough technical background to understand the domain, its applicability, and to consider variations to suit technical and organizational constraints.It highlights new innovative 3D-printing systems, presents a view of 4D printing, and promotes a vision of additive manufacturing and applications toward modern manufacturing engineering practices.With the block diagrams, self-explanatory figures, chapter exercises, and photographs of lab-developed prototypes, along with case studies, this new textbook will be useful to students studying courses in Mechanical, Production, Design, Mechatronics, and Electrical Engineering.
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3D Printing Design : Additive Manufacturing and the Materials Revolution
To work with the materials of tomorrow, design students across visual arts disciplines need to understand the cutting edge of today.Whether you’re modelling in interiors, designing in fashion or constructing for interiors, in your work or as part of a final project, 3D Printing design is an encouraging guide to additive manufacturing within design disciplines.Francis Bitonti gives an insider’s view from his design studio on how 3D printing is already shaking up the industry, and where it’s likely to go next.Complete with interviews from designers, business owners and 3D-print experts throughout, Bitonti considers whether 3D body scans mean couture for all, how rapid prototyping can change your design method and if 3D printing materials can enhance medical design, amongst other areas of this emerging method of manufacture.This is inspirational reading for the designers of tomorrow.
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3D Printing for Product Designers : Innovative Strategies Using Additive Manufacturing
3D Printing for Product Designers closes the gap between the rhetoric of 3D printing in manufacturing and the reality for product designers.It provides practical strategies to support the adoption and integration of 3D printing into professional practice. 3D printing has evolved over the last decade into a practical proposition for manufacturing, opening up innovative opportunities for product designers.From its foundations in rapid prototyping, additive manufacturing has developed into a range of technologies suitable for end-use products.This book shows you how to evaluate and sensitively understand people, process, and products and demonstrates how solutions for working with additive manufacturing can be developed in context.It includes a practical, step-by-step plan for product designers and CEOs aimed at supporting the successful implementation of 3D printing by stakeholders at all levels of a manufacturing facility, tailored to their stage of technology integration and business readiness.It features a wide range of real-world examples of practice illustrated in full colour, across industries such as healthcare, construction, and film, aligning with the strategic approach outlined in the book. The book can be followed chronologically to guide you to transform your process for a company, to meet the unique needs of a specific client, or to be used as a starting point for the product design entrepreneur.Written by experienced industry professionals and academics, this is a fundamental reference for product designers, industrial designers, design engineers, CEOs, consultants, and makers.
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Why is no plastic coming out of my 3D pen?
There are a few potential reasons why no plastic is coming out of your 3D pen. First, check to make sure that the filament is properly loaded and that there are no obstructions in the pen's nozzle. Additionally, ensure that the pen is heated to the correct temperature for the type of filament you are using. If the pen is not heating up at all, there may be an issue with the power source or the pen itself. Finally, if none of these solutions work, it may be a sign that the pen is malfunctioning and may need to be repaired or replaced.
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How is the plastic 3D effect achieved in this video?
The plastic 3D effect in the video is achieved through a combination of techniques. First, the video is likely shot with a 3D camera or a camera rig that captures two slightly different perspectives of the same scene. Then, during the editing process, these two perspectives are combined to create the illusion of depth. Additionally, post-production effects such as color grading and depth mapping may be used to enhance the 3D effect and make certain elements appear to pop out of the screen. Overall, the combination of specialized filming techniques and post-production editing creates the plastic 3D effect in the video.
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How does plastic recycling work?
Plastic recycling involves collecting used plastic items, sorting them by type and color, cleaning and shredding them into small pieces. These pieces are then melted down and formed into pellets, which can be used to create new plastic products. The process helps to reduce the amount of plastic waste in landfills and minimizes the need for new plastic production, thus conserving resources and reducing environmental impact.
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How much are the costs for plastic with the 3D printer?
The costs for plastic with a 3D printer can vary depending on the type and quality of the filament used. On average, a spool of standard PLA filament, which is one of the most commonly used materials for 3D printing, can cost anywhere from $20 to $50. Other types of filaments, such as ABS or specialty materials, may be more expensive. It's important to consider the cost of filament when budgeting for 3D printing projects, as well as any additional costs for maintenance and replacement parts for the printer.
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