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"This book provides details on the innovations made to achieve sustainability in manufacturing. It highlights the trends of current progress in research and development being done to achieve overall sustainability in manufacturing technology. Green-EDM, Hybrid machining, MQL assisted machining, sustainable casting, welding, finishing and casting, energy and resource-efficient manufacturing are some of the important topics discussed in this book."

"This book presents selected proceedings of the International Conference on Production and Industrial Engineering (CPIE) 2018. Focusing on recent developments in the field of production and manufacturing engineering, it provides solutions to wide-ranging contemporary problems in manufacturing engineering and other allied areas using analytical models and the latest numerical approaches. The topics covered in this book include conventional and non conventional machining, casting, welding, materials and processing. As such it is useful to academics, researchers and practitioners working in the field of manufacturing and production engineering.;"

"This book provides a solid background for understanding the immediate past, the ongoing present, and the emerging trends of additive manufacturing, with an emphasis on innovations and advances in its use for a wide spectrum of manufacturing applications. It contains contributions from leading authors in the field, who view the research and development progress of additive manufacturing techniques from the unique angle of developing high-performance composites and other complex material parts. It is a valuable reference book for scientists, engineers, and entrepreneurs who are seeking technologically novel and economically viable innovations for high-performance materials and critical applications. It can also benefit graduate students and post-graduate fellows majoring in mechanical, manufacturing, and material sciences, as well as biomedical engineering."

"Metode Wire Arc Additive Manufacturing (WAAM) merupakan metode yang sedang berkembang saat ini. Metode ini adalah proses produksi yang digunakan untuk 3D print atau memperbaiki bagian logam, yang mengakibatkan metode WAAM sangat potensial dan inovatif. Skripsi ini menyajikan studi awal metode WAAM pada pengelasan dissimilar menggunakan Tungsten Inert Gas (TIG) otomatis, yang melibatkan stainless steel 316 dengan filler aluminium ER5356 dan ER1100, yang bertujuan untuk mencari hasil pengelasan yang terbaik dengan permukaaan yang rapih dan cacat las seminimal mungkin, dengan menggunakan polaritas AC dan DC dan arus 60 A – 170 A. Kecepatan pengelasan konstan di 3.125 cm/s dan gas pelindung menggunakan Argon dengan flowrate konstan sebesar 11 L/min. Hasil yang didapat menunjukkan bahwa pengelasan menggunakan filler ER5356 hanya optimal menggunakan polaritas DC pada arus 160A. Sedangkan filler ER1100 optimal pada range arus 125A – 130A dengan menggunakan polaritas DC dan arus 75A dengan menggunakan polaritas AC. Disarankan menggunakan polaritas DC untuk kedua filler karena hasil manik lebih konsisten. Studi WAAM ini masih tahap awal, maka pengembangan yang lebih lanjut dibutuhkan untuk mendapatkan hasil yang sempurna.

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Wire Arc Additive Manufacturing (WAAM) is a method that is currently being developed until now. This method is a production process used for 3D print or to repair metal parts, which makes the WAAM method very potential and innovative. This thesis presents a preliminary study of the WAAM method using automatic Tungsten Inert Gas (TIG) welding, involving stainless steel 316 with aluminium fillers ER5356 and ER1100, which aims to find the best welding results with a clean surface and minimal defects, using both AC and DC polarity, weld current at 60 A – 170 A. The welding speed is constant at 3.125 cm/s and Argon is used as a shielding gas with a constant flowrate of 11 L/min. The results obtained show that welding using ER5356 filler is optimal only using DC polarity at 160A. While the ER1100 filler is optimal in the current range of 125A – 130A using DC polarity and 75A using AC polarity. It is recommended to use DC polarity for both fillers because the bead results are more consistent. This WAAM study is still in its early stages, so more development is needed to get perfect results."

"This book provides an overview of training and teaching methods, as well as education strategies, for Additive Manufacturing (AM) and its application in different business sectors. It presents real-world applications and case studies to demonstrate the key practical and theoretical fundamentals of AM training, written by international experts from the field.Additive Manufacturing is a rapidly developing technology, and having a well-trained workforce is essential. Accordingly, readers are introduced to new training approaches and recent breakthroughs that can facilitate and accelerate the design, application and implementation of AM."

"This book covers various multiple-criteria decision making (mcdm) methods for modeling and optimization of advanced manufacturing processes (AMPs). Processes such as non-conventional machining, rapid prototyping, environmentally conscious machining and hybrid machining are finally put together in a single book. It highlights the research advances and discusses the published literature of the last 15 years in the field. Case studies of real life manufacturing situations are also discussed."

"This volume consists of 52 peer-reviewed papers, presented at the International Conference on Sustainable Design and Manufacturing (SDM-19) held in Budapest, Hungary in July 2019. Leading-edge research into sustainable design and manufacturing aims to enable the manufacturing industry to grow by adopting more advanced technologies, and at the same time improve its sustainability by reducing its environmental impact. The topic includes the sustainable design of products and services; the sustainable manufacturing of all products; energy efficiency in manufacturing; innovation for eco-design; circular economy; industry 4.0; industrial metabolism; automotive and transportation systems. Application areas are wide and varied. The book will provide an excellent overview of the latest developments in the Sustainable Design and Manufacturing Area."

"This book introduces readers to the theory and practice of extrusion bio-printing of scaffolds for tissue engineering applications. The author emphasizes the fundamentals and practical applications of extrusion bio-printing to scaffold fabrication, in a manner particularly suitable for those who wish to master the subject matter and apply it to real tissue engineering applications. Readers will learn to design, fabricate, and characterize tissue scaffolds to be created by means of extrusion bio-printing technology."

"This book comprises selected proceedings of the International Conference on Engineering Materials, Metallurgy and Manufacturing (ICEMMM 2018). It discusses innovative manufacturing processes, such as rapid prototyping, nontraditional machining, advanced computer numerical control (CNC) machining, and advanced metal forming. The book particularly focuses on finite element simulation and optimization, which aid in reducing experimental costs and time. This book is a valuable resource for students, researchers, and professionals alike."

"Additive Manufacturing (AM) adalah kumpulan teknologi untuk fabrikasi komponen 3D dari sebuah model CAD dengan cara layar per layar. AM memiliki kelebihan seperti menghemat biaya material, waktu fabrikasi yang relatif cepat serta kemampuan untuk fabrikasi struktur rumit. Kelebihan – kelebihan tersebut menjadi AM sangat populer diaplikasikan pada area biomedical terutama bone grafting, scaffolding atau area trauma maxillofacial. Oleh karena itu, studi ini dilakukan untuk menelusuri lebih lanjut mengenai perancangan mesin 3d printer keramik dengan basis plunger type extrusion additive manufacturing serta pengaruh – pengaruh dari variasi parameter cetak guna menghasilkan cara untuk memproduksi biomedical implant basis keramik yang affordable dan sesuai spesifikasi yang didesain. Variasi terhadap nilai parameter cetak meliputi diameter nozzle dari ukuran 1.5 mm, 2 mm, 2.5 mm dan 3 mm, kecepatan cetak 5 mm/s, 10 mm/s, 15 mm/s, dan 20 mm/s serta extrusion flow rate 10 mm3/s, 15 mm3/s, 20 mm3/s, 25 mm3/s. Dari hasil penelitian lebih lanjut, penulis menemukan bahwa nilai optimal dari variasi parameter cetak yang menghasilkan spesimen terakurat dan presisi terhadap desain CAD semula adalah diameter nozzle 2.5 mm, kecepatan cetak 20 mm/s dan extrusion flow rate 25 mm3/s. Selain dari itu, melalui uji ANOVA, penulis juga menemukan bahwa extrusion flow rate memiliki pengaruh paling signifikan terhadap kualitas hasil cetak

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AM is a collection of technologies for fabricating 3D components from a screen-by-screen CAD model. AM has advantages such as saving material costs, relatively fast fabrication time, and the ability to fabricate complex structures. These advantages make AM very popular to be applied in biomedical areas, especially bone grafting, scaffolding, or areas of maxillofacial trauma. Therefore, this study was conducted to explore further the design of a ceramic 3d printer machine with a plunger-type extrusion additive manufacturing base and the effects of variations in printing parameters to generate a way to produce affordable ceramic-based biomedical implants according to the designed specifications. Variations in printing parameter values ​​include nozzle diameters of 1.5 mm, 2 mm, 2.5 mm, and 3 mm, print speeds of 5 mm/s, 10 mm/s, 15 mm/s, and 20 mm/s as well as an extrusion flow rate of 10 mm3 /s, 15 mm3/s, 20 mm3/s, 25 mm3/s. From the results of further research, the authors found that the optimal value of the variation of printing parameters that produce accurate and precise specimens against the original CAD design is a nozzle diameter of 2.5 mm, a print speed of 20 mm/s, and an extrusion flow rate of 25 mm3/s. Apart from that, the ANOVA test also found that the extrusion flow rate had the most significant effect on the quality of the printouts."