Relevant bibliographies by topics / 3D printing Prototyping

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic '3D printing Prototyping'

Author: Grafiati
Published: 7 June 2025
Last updated: 2 August 2025

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Journal articles on the topic "3D printing Prototyping"

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Raut, Shrikant V., and R. R. Arakerimath. "Comparison and Selection of Suitable 3D Printing Technology to Replicate Plastic Material Properties for Rapid Prototyping." International Journal for Research in Applied Science and Engineering Technology 10, no. 4 (2022): 1–3. http://dx.doi.org/10.22214/ijraset.2022.40415.

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Abstract: In R&D there is need of rapid prototyping to validate new concepts. 3D printing is widely used now a days For rapid prototyping of new concepts. As there are numerous 3D printing technologies are available now in market so it is always difficult to select correct 3D printing technology to replicate plastic material as per requirement in prototyping. Engineers in industry initially struggle or spend time to select best suited 3D printing technology for rapid prototyping of their concept or part. In this study we will be reviewing different available 3D printing technologies and it
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Bodani, Jayesh, Urval Panchal, and Prof Marnish Modi. "Research Paper Fabrication of 3D Printer." International Journal for Research in Applied Science and Engineering Technology 10, no. 4 (2022): 1156–59. http://dx.doi.org/10.22214/ijraset.2022.41481.

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Abstract: 3D printing is called as desktop fabrication. It is a process of prototyping where by a structure is synthesized from a 3d model. The 3d model is stored in as a STL format and then forwarded to a 3D printer. It can use a good range of materials like ABS, PLA, and composites also .3D printing may be a rapidly developing and price optimized sort of rapid prototyping. The 3D printer prints the CAD design layer by layer forming a true object. 3D printing springs from inkjet desktop printers during which multiple deposit jets and therefore the printing material, layer by layer derived fro
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Nugroho, Setiyo adi, and Arie Atwa Magriyanti. "PERKEMBANGAN TEKNOLOGI DALAM PROSES PERCETAKAN 3 DIMENSI DAN APLIKASINYA." Pixel :Jurnal Ilmiah Komputer Grafis 13, no. 1 (2020): 61–68. http://dx.doi.org/10.51903/pixel.v13i1.194.

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Developing of prototype now are became easier with the existence of 3 d printer, now is common known as rapid prototyping method. There are many different method on 3d printing depend on material used for printing. The wide range of material that can be print using 3d printer such as metal to plastic even ceramic. The rapid prototyping using 3d printer have various advantage compare to traditional prototyping. The development of 3d printing makes it not only for prototyping but can be a small batch manufacture, where economic scale of production cannot be reach with traditional production. The
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Li, Bo, Lifan Meng, Hongyu Wang, Jing Li, and Chunmei Liu. "Rapid prototyping eddy current sensors using 3D printing." Rapid Prototyping Journal 24, no. 1 (2018): 106–13. http://dx.doi.org/10.1108/rpj-07-2016-0117.

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Purpose The purpose of this paper is to investigate the process of rapid prototyping eddy current sensors using 3D printing technology. Making full use of the advantages of 3D printing, the authors study on a new method for fabrication of an eddy current sensor. Design/methodology/approach In this paper, the authors establish a 3D model using SolidWorks. And the eddy current sensor is printed by the fused deposition modeling method. Findings Measurement results show that the 3D printing eddy current sensor has a wider linear measurement range and better linearity than the traditional manufactu
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Vega-Feliciano, Josean L., Angélica P. Vera-Torres, Natalia A. Rodríguez-Figueroa, Zairelys A. Reyes-Rivera, Clara E. Isaza, and Mauricio Cabrera-Ríos. "3D Scanning to Enable 3D Printing in Ergonomics Projects." Científica 27, no. 1 (2023): 1–8. http://dx.doi.org/10.46842/ipn.cien.v27n1a01.

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3D Printing is an ideal technology to support prototyping and invention. Its possibilities are, however, limited by the user’s computer-aided modeling skills. Ergonomics would greatly enhance its practice with the adoption of the prototyping capabilities of 3D printers. For this to happen, Industrial Engineers who specialize in Ergonomics must adopt computer-aided modeling courses better suited to this end. Because curriculum modifications usually take a long time in colleges and universities to reflect a change of such nature, this work proposes the use of 3D Scanning to circumvent some of th
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Kahr, Matthias, Wilfried Hortschitz, Harald Steiner, Michael Stifter, Andreas Kainz, and Franz Keplinger. "Novel 3D-Printed MEMS Magnetometer with Optical Detection." Proceedings 2, no. 13 (2018): 783. http://dx.doi.org/10.3390/proceedings2130783.

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This paper reports a novel 3D printed MEMS magnetometer with optical readout, which demonstrates the advantages of 3D printing technology in terms of rapid prototyping. Low-cost and fast product development cycles favour 3D printing as an effective tool. Sensitivity measurement with such devices indicate high accuracy and good structural performance, considering material and technological uncertainties. This paper is focusing on the novelty of the rapid, 3D-printing prototyping approach and verification of the working principle for printed MEMS magnetometers.
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Khona, Nilesh Bharat. "Design and Fabrication of Arduino Based Flexible Manufacturing Process on the Desk: 3D Printing." International Journal for Research in Applied Science and Engineering Technology 10, no. 6 (2022): 2603–10. http://dx.doi.org/10.22214/ijraset.2022.44427.

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Abstract: Rapid prototyping technology also referred to as additive manufacturing or 3D printing, which can be used to create physical objects from geometrical representation by successive addition of materials in layer-by-layer form. 3D printing technology is the fastest emerging technology used to make work easier. It can be used in a wide range of materials such as PLA, ABS, HIPS & composite. 3D printing is a rapidly growing and very perfectly cost optimized form of rapid prototyping. 3D printing technology is appreciable in future challenges for mass production. This type of printing i
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Vorunichev, D. S., and K. Yu Vorunicheva. "Current capabilities of prototyping technologies for multilayer printed circuit boards on a 3D printer." Russian Technological Journal 9, no. 4 (2021): 28–37. http://dx.doi.org/10.32362/2500-316x-2021-9-4-28-37.

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A new direction in 3D printing was investigated – prototyping of single-sided, double-sided and multilayer printed circuit boards. The current capabilities and limitations of 3D printed circuit board printing technology were identified. A comparative analysis of the characteristics of two desktop 3D printers presented in the industry for prototyping radio electronics, as well as the first professional machine DragonFly LDM 2020, which is a mini-factory for prototyping multilayer printed circuit boards, was carried out. The first practical experience of working and printing on DragonFly LDM 202
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Sedunin, Vyacheslav, Yuri Marchenko, and Ilya Kalinin. "PROTOTYPING OF CENTRIFUGAL MICROCOMPRESSORS USING ADDITIVE TECHNOLOGIES." Perm National Research Polytechnic University Aerospace Engineering Bulletin, no. 67 (2021): 27–34. http://dx.doi.org/10.15593/2224-9982/2021.67.03.

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In the fast-developing market of customer products, a development lead time becomes more and more critical. However, these technologies have limits. Also, the application of so-called additive manufacturing technologies, particularly FDM 3D printing, is limited by the materials used and the part’s quality. The significant advantage of additive manufacturing is building components without the use of molds or tools. The paper presents an experience of fast prototyping a centrifugal compressor using 3D printing with polymer plastics. 3D printing of parts has the main goal in this study to develop
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Hems, Edward, and Nigel J. Knott. "3D printing in prosthodontics." Faculty Dental Journal 5, no. 4 (2014): 152–57. http://dx.doi.org/10.1308/204268514x14096686726120.

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A technological revolution in dentistry is creating new paradigms of innovation that were unimaginable only a decade ago. A bull has entered the antique china shop and is running rampant among long-established manufacturing practices dependent upon expensive human skills and craftsmanship. Adventurous dental technophiles and their patients are beginning to enjoy a new world of peerless technical excellence with prodigious potential. The digitisation of dental processes, which includes 3D printing (or rapid prototyping) is beginning to deliver real firepower in dental surgeries.
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Dissertations / Theses on the topic "3D printing Prototyping"

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Momotenko, Ruslana, Artem Terzi, and Yuryi Vlasenko. "Preparation of geometric data for 3D prototyping." Thesis, National aviation university, 2021. https://er.nau.edu.ua/handle/NAU/52827.

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1. Kasik D.J., Buxton W., Ferguson D.R. Ten cad challenges // IEEE Computer Graphics and Applications. 2005. (25). C. 81–92. 2. NURBS-based and parametric-based shape optimization with differentiated CAD kernel // Computer-Aided Design and Applications. 2018. № 6 (15). 3. STL, 3D Manufacturing Format, and Additive Manufacturing File Export Options [Electronic resource]. - Access mode: http://help.solidworks.com/2018/english/SolidWorks/ sldworks/HIDD_STL.htm<br>Despite the presence of high-tech CAD/CAM/CAE-systems, the problem of exchanging engineering data, primarily the structural elements
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Kaloda, Vít. "Výroba částí prototypových forem s využitím metod rapid prototyping." Master's thesis, Vysoké učení technické v Brně. Fakulta strojního inženýrství, 2020. http://www.nusl.cz/ntk/nusl-417084.

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The diploma thesis pointed out the possibility of using rapid prototyping methods in the field of plastic injection, specifically to make shaped inserts into the injection mold. The universal frame of the injection mold was used and only the shaped inserts were changed. The main part of the work was the construction of an injection mold with the subsequent practical production of shaped inserts for a specified part. In the introductory part, a theoretical search was performed, about which production methods in combination with suitable materials could be theoretically used. Furthermore, the po
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Dimitrov, D., Beer N. De, and T. Centner. "Product and process innovations by means of rapid technologies." Journal for New Generation Sciences, Vol 4, Issue 1: Central University of Technology, Free State, Bloemfontein, 2006. http://hdl.handle.net/11462/487.

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Published Article<br>Over the past few years, methods of layered manufacturing (LM) have advanced substantially to the point where they now provide vital strategic benefits to various organisations. One area of application where LM technologies have begun to reach a critical mass is in the development and production of high-performance tooling in different forming processes. With these tooling capabilities now available, the next challenge becomes the development of optimal process chains to minimise lead times and production costs, while still ensuring high quality of castings. The relevant i
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Granath, Victor. "3D Printing for Computer Graphics Industry." Thesis, Högskolan i Gävle, Avdelningen för Industriell utveckling, IT och Samhällsbyggnad, 2011. http://urn.kb.se/resolve?urn=urn:nbn:se:hig:diva-10439.

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Rapid prototyping is a relativity new technology and is based on layered manufacturing which has similarities to the method an ordinary desktop paper printer works. This research is to obtain a better understanding on how to use computer graphics software, in this particular case Autodesk Maya, to create a model. The goal is to understand how to create a suitable mesh of a 3D model for use with a 3D printer and produce a printed model that is equivalent to the CAD software 3D model. This specific topic has not been scientifically documented which has resulted in an actual 3D model.
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Honiball, John Robert. "The application of 3D Printing in reconstructive surgery." Thesis, Stellenbosch : University of Stellenbosch, 2010. http://hdl.handle.net/10019.1/4207.

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Thesis (MScEng (Industrial Engineering))--University of Stellenbosch, 2010.<br>ENGLISH ABSTRACT: As part of a growing trend in the medical industry of patient specific solutions, a need arises for means and methods that could grant surgeons the ability to improve their pre-operative planning, and help streamline their intra-operative proceedings relative to each individual patient. A suitable solution has emerged in the form of Additive Fabrication. Most of the traditional layer manufacturing technologies have been considered to be too expensive for medical application, and could not alwa
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Hänel, Thomas. "Technologieentwicklung für die Herstellung patientenindividueller Knochenaufbauimplantate aus [beta]-Tricalciumphosphat [Beta-Tricalciumphosphat] durch 3D-Printing." Berlin mbv, Mensch-und-Buch-Verl, 2009. http://d-nb.info/995880042/04.

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Jiao, Hankun, I. M. Perepelitsa, I. M. Nakonecniy, Я. В. Носова, and M. Y. Tymkovych. "Development of natural models of human lungs by means of rapid prototyping." Thesis, RS Global S. z O.O, 2019. http://openarchive.nure.ua/handle/document/8634.

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The initial data were spiral-computer tomographic sections of the lung area, presented in the DICOM format. It should be noted that the thickness of the transition surface formed was chosen on the assumption that the volume would be reduced by 5 times. Using the FreeCAD software, the bracket was modeling in real physical dimensions, which combined into one model with the lungs. Next, the resulting model was loaded into specialized software MeshMixer. It allows you to perform various manipulations on three-dimensional models before printing. With its use, t
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Bonet, Navarro Andreu. "KHCO3/CO2 ELECTROREDUCTION FOR FUEL CELL APPLICATIONS: Reaction and reactor optimization, prototyping with 3D printing and automatic testing." Doctoral thesis, Universitat Rovira i Virgili, 2021. http://hdl.handle.net/10803/673156.

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Des de la primera revolució industrial, els humans hem emès enormes quantitats de CO2 a l'atmosfera. Aquest CO2 fa que les temperatures mundials augmentin, amb conseqüències catastròfiques per al medi ambient. Una de les solucions és deixar d’emetre CO2 mitjançant l’ús d’energies renovables. Tanmateix, fins i tot només retallar les emissions de CO2 no serà suficient, per tant és necessària l’eliminació de CO2 de l’atmosfera. Ja hi ha tecnologies d’eliminació de CO2 ben desenvolupades, però encara són necessàries per millorar les tecnologies que transformen aquest CO2 en productes valuosos perq
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Halamíček, Lukáš. "Návrh 3D tiskárny s dvojicí tiskových hlav." Master's thesis, Vysoké učení technické v Brně. Fakulta strojního inženýrství, 2017. http://www.nusl.cz/ntk/nusl-318389.

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The master thesis deals with design of multi material FDM 3D printer. In the first part, current market situation and possible principles of multi material printing are described. Possible variants of individual construction nodes are described in the next part and then the selected variant is processed into a design solution. The benefit of this thesis is a proposal of solution for the automatic printing head exchange, which is practically not concerned by printer manufacturers.
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De, Beer Neal. "An investigation towards developing capability profiles of rapid prototyping technologies with a focus on 3D-printing." Thesis, Stellenbosch : Stellenbosch University, 2004. http://hdl.handle.net/10019.1/53724.

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Thesis (MEng)--University of Stellenbosch, 2004.<br>ENGLISH ABSTRACT: Rapid prototyping (RP) technologies have expanded vastly over recent years. With the advent of new materials along with new processes, each technology has been contributing to the diversities in different fields of application for the growing technologies. In the course of improvement, it is however critical to understand exactly what the capability of each individual technology is in order to compare future improvements, or even to compare current processes and technologies. The objective of this research has been t
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Books on the topic "3D printing Prototyping"

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3D Printing in Space. National Academies Press, 2014.

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Aeronautics and Space Engineering Board, National Research Council, Division on Engineering and Physical Sciences, Committee on Space-Based Additive Manufacturing, and National Materials and Manufacturing Board. 3D Printing in Space. National Academies Press, 2014.

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Aeronautics and Space Engineering Board, National Research Council, Division on Engineering and Physical Sciences, Committee on Space-Based Additive Manufacturing, and National Materials and Manufacturing Board. 3D Printing in Space. National Academies Press, 2014.

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Aeronautics and Space Engineering Board, National Research Council, Division on Engineering and Physical Sciences, Committee on Space-Based Additive Manufacturing, and National Materials and Manufacturing Board. 3D Printing in Space. National Academies Press, 2014.

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Meijs, Piet. Rapid Prototyping and 3D Printing in Architecture. Blurb, 2014.

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Cameron, Rich. Mastering 3D Printing: A Guide to Modeling, Printing, and Prototyping. Apress, 2020.

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Bitonti, Francis. 3D Printing Design. Bloomsbury Publishing Plc, 2019. http://dx.doi.org/10.5040/9781474220989.

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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 throug
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Gebhardt, Andreas, and Jan-Steffen Hötter. Additive Manufacturing: 3D Printing for Prototyping and Manufacturing. Hanser Publications, 2016.

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Farooqi, Kanwal Majeed. Rapid Prototyping in Cardiac Disease: 3D Printing the Heart. Springer, 2018.

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Rapid Prototyping in Cardiac Disease: 3D Printing the Heart. Springer, 2017.

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Book chapters on the topic "3D printing Prototyping"

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Horvath, Joan, and Rich Cameron. "Prototyping and 3D Visualization." In Mastering 3D Printing. Apress, 2020. http://dx.doi.org/10.1007/978-1-4842-5842-2_12.

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Kanagachidambaresan, G. R. "Introduction to 3d Printing and Prototyping." In Internet of Things. Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-72957-8_9.

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Gopinath, Ajith, Tobias Waclawczyk, Raman Bedi, Avinash Babu, Shijo Thomas, and Praise Tom. "Rapid Prototyping Methods in Manufacturing of Biomedical Implants: A Review." In 3D Printing in Biomedical Engineering. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-5424-7_9.

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Bandyopadhyay, Abhijit, and Rahul Chatterjee. "3D Printing Vis-à-Vis Traditional Prototyping." In Polymer Processing. CRC Press, 2023. http://dx.doi.org/10.1201/9781003349341-5.

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Dongaonkar, Anuj V., and Rajesh M. Metkar. "Reconstruction of Damaged Parts by Integration Reverse Engineering (RE) and Rapid Prototyping (RP)." In 3D Printing and Additive Manufacturing Technologies. Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-0305-0_14.

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Nguyen, Khanh. "Past Developments and Future Directions of 3D Cardiac Printing: A Surgeon’s Perspective." In Rapid Prototyping in Cardiac Disease. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-53523-4_19.

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Benros, Deborah, Arman Hashemi, Su Yunsheng, Zhong, and Carl Callaghan. "Robotic Micro-house – Experience with 3D Concrete Printing for Housing Construction." In Computational Design and Robotic Fabrication. Springer Nature Singapore, 2025. https://doi.org/10.1007/978-981-96-3433-0_2.

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Abstract This study introduces a digital manufacturing approach for mini and micro-housing design, deploying 3D concrete printing. Combining shape grammar with robotic construction methods, it aims to revolutionize architectural practice by enabling mass customization while ensuring creativity and feasibility. Traditional construction methods often hinder affordability and design diversity, necessitating innovative approaches. Shape grammars, rooted in design language principles, facilitate architectural design exploration. This research focuses on developing a novel generative system and harn
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Kale, P. J., R. M. Metkar, and S. D. Hiwase. "Development and Optimization of Dental Crown Using Rapid Prototyping Integrated with CAD." In Advances in 3D Printing & Additive Manufacturing Technologies. Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-10-0812-2_15.

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Dhillon, Mandeep S., Siddhartha Sharma, and Prasoon Kumar. "Virtual Planning, Rapid Prototyping and 3D Printing in Orthopedic Surgery." In Biomedical Translational Research. Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-16-4345-3_16.

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Buń, Paweł, Filip Górski, Radosław Wichniarek, Wiesław Kuczko, and Magdalena Żukowska. "Low-Cost 3D Printing in Innovative VR Training and Prototyping Solutions." In Advances in Intelligent Systems and Computing. Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-97490-3_53.

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Conference papers on the topic "3D printing Prototyping"

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Huang, Yifeng, Guoyong Lin, Chengjia Huang, Le Li, Saren Gaowa, and Zhengui Huang. "Application of laser 3D printing technology in rapid prototyping manufacturing." In International Conference on Optics, Electronics, and Communication Engineering, edited by Yang Yue. SPIE, 2024. http://dx.doi.org/10.1117/12.3048082.

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Yen, Songyi, Ljubodrag B. Boskovic, and Dejan S. Filipovic. "On the Utility of 3D Printing for Rapid Prototyping Wideband Arrays for RCS Measurements." In 2024 IEEE International Symposium on Phased Array Systems and Technology (ARRAY). IEEE, 2024. https://doi.org/10.1109/array58370.2024.10880314.

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Kimura Junior, Almir, Edmundo Alves Dos Santos Neto, Kevin Carlos Tavares de Freitas, and Eduardo Barbosa Caldeira. "STEM APPROACH IN A DIGITAL FABRICATION LABORATORY: TRAINING IN DIGITAL MODELING AND 3D PRINTING FOR PROTOTYPING." In 19th International Technology, Education and Development Conference. IATED, 2025. https://doi.org/10.21125/inted.2025.1342.

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Yu, Chen, Xin Liu, Xiao Zhang, Yang Lu, and Wen-Liang Liu. "A Low Loss W-Band Four-Way Power Combiner Based on Gap Waveguide and Rapid 3D Printing Prototyping." In 2024 IEEE MTT-S International Microwave Workshop Series on Advanced Materials and Processes for RF and THz Applications (IMWS-AMP). IEEE, 2024. https://doi.org/10.1109/imws-amp62793.2024.10966650.

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Houda, Maryam, and Dagmar Reinhardt. "Structural Optimisation for 3D Printing Bespoke Geometries." In CAADRIA 2018: Learning, Prototyping and Adapting. CAADRIA, 2018. http://dx.doi.org/10.52842/conf.caadria.2018.1.235.

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Houda, Maryam, and Dagmar Reinhardt. "Structural Optimisation for 3D Printing Bespoke Geometries." In CAADRIA 2018: Learning, Prototyping and Adapting. CAADRIA, 2018. http://dx.doi.org/10.52842/conf.caadria.2018.1.235.

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Grubb, Peter M., Harish Subbaraman, and Ray T. Chen. "Inkjet printing enabled rapid prototyping and model verification processes." In Laser 3D Manufacturing VI, edited by Henry Helvajian, Bo Gu, and Hongqiang Chen. SPIE, 2019. http://dx.doi.org/10.1117/12.2507293.

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Xue, Amy L., and Ruth J. Okamoto. "Functional Prototyping Using 3-D Printing." In ASME 2024 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2024. https://doi.org/10.1115/imece2024-137558.

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Abstract 3D printing is the most popular activity in the Makerspace at our mid-sized university, with 340 users submitting over 3400 3D print jobs during the 2022–23 academic year. Fifty percent of these print jobs are for users in courses or research labs, who are frequently printing parts for design prototypes. The goal of this research was to identify common issues in the 3D printing process and develop a training module and workshop that educates users how to successfully incorporate 3D printed parts into functional prototypes. We performed mechanical testing to provide recommendations spe
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de Moraes, Claudio Coreixas, and Robson Costa Santiago. "AUV Scaled Model Prototyping using 3D Printing Techniques." In 2018 IEEE/OES Autonomous Underwater Vehicle Workshop (AUV). IEEE, 2018. http://dx.doi.org/10.1109/auv.2018.8729828.

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Leibig, Cora, Laurie Larwin, and Bart Engendahl. "3D Printing Flexible Materials: Transcending Prototyping With Industrial Manufacturing." In International Sealing Conference. VDMA Fluidtechnik, 2022. http://dx.doi.org/10.61319/j4wn6q1r.

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Reports on the topic "3D printing Prototyping"

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Strauss, Bernhard, Britta Kleinsorge, and Pantea Lotfian. 3D printing technologies in the food system for food production and packaging. Food Standards Agency, 2023. http://dx.doi.org/10.46756/sci.fsa.suv860.

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3D printing, also called additive manufacturing, represents a range of technologies that create 3D objects through a layer-by-layer deposition process using digital image files. 3D printing evolved over the past four decades from a prototyping tool to a manufacturing method in its own right in a number of industries and several additive manufacturing processes have matured into robust production technologies for highly customised and bespoke products when produced in small numbers. However, 3D printing technologies at their current stage of evolution are usually not considered commercially via
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Kennedy, Alan, Mark Ballentine, Andrew McQueen, Christopher Griggs, Arit Das, and Michael Bortner. Environmental applications of 3D printing polymer composites for dredging operations. Engineer Research and Development Center (U.S.), 2021. http://dx.doi.org/10.21079/11681/39341.

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This Dredging Operations Environmental Research (DOER) technical note disseminates novel methods to monitor and reduce contaminant mobility and bioavailability in water, sediments, and soils. These method advancements are enabled by additive manufacturing (i.e., three-dimensional [3D] printing) to deploy and retrieve materials that adsorb contaminants that are traditionally applied as unbound powders. Examples of sorbents added as amendments for remediation of contaminated sediments include activated carbon, biochar, biopolymers, zeolite, and sand caps. Figure 1 provides examples of sorbent an
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Slattery, Kevin T. Unsettled Aspects of the Digital Thread in Additive Manufacturing. SAE International, 2021. http://dx.doi.org/10.4271/epr2021026.

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In the past years, additive manufacturing (AM), also known as “3D printing,” has transitioned from rapid prototyping to making parts with potentially long service lives. Now AM provides the ability to have an almost fully digital chain from part design through manufacture and service. Web searches will reveal many statements that AM can help an organization in its pursuit of a “digital thread.” Equally, it is often stated that a digital thread may bring great benefits in improving designs, processes, materials, operations, and the ability to predict failure in a way that maximizes safety and m
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