RAPID prototyping, MANUFACTURING processes, MANUFACTURES, NEW product development, CONCURRENT engineering, JOB analysis, PROTOTYPES, TIME to market (New products), and ECONOMIC trends
This paper discusses the current status of layer-based manufacturing Rapid Prototyping (RP) technology and how it is being successfully implemented as a tool for product development (PD). A brief introduction to RP is given, focusing on the limitations of existing technology. Future trends for RP development are then discussed with further consideration for software issues in future applications. [ABSTRACT FROM AUTHOR]
TECHNOLOGY, RAPID prototyping, ENGINEERING design, MANUFACTURES, COLLEGE campuses, UNDERWATER pipelines, and OCEAN engineering
The article reports on the launch of Baker Hughes' Subsea Centre of Excellence (CoE) in Montrose on the northeast coast of Scotland in June 2019 to leverage the best of industry innovation, engineering, manufacturing, test and assembly facilities in the world. It mentions that upgraded and expanded CoE created to encourage product innovation on a new scale.
International Journal of Production Research. Jan1988, Vol. 26 Issue 1, p133. 10p.
WORK design, PROTOTYPES, and MANUFACTURES
Although prototyping is a technique widely used in manufacturing industry during the design development and manufacture of a new or updated project, the technique is rarely used to test out options during the design of a manufacturing system. The work organization action simulation was developed in response to a need identified in the training of engineers. Such an approach can be used to prototype sociotechnical systems and explore technical options in association with the organizational structure. [ABSTRACT FROM AUTHOR]
RAPID prototyping, MANUFACTURING processes, MANUFACTURES, DIGITAL printing, and UNITED States
The article discusses the potential of fourth dimensional (4D) printing to the manufacturing industry in the U.S. The topics discussed include the transformation and evolution of the additive manufacturing technology, the pioneer use of 4D printing by the Self-Assembly Laboratory and Skylar Tibbits of the Massachusetts Institute of Technology, and ways on how companies can benefit from its use.
This article reports that rapid prototyping has evolved from a relatively simple modeling technique that allows design engineers to "test" their ideas in three dimensions to a sophisticated custom-manufacturing tool that may one day find its place alongside the copy machines at the local copy center or in the parts department at the local automobile dealership. Direct metal deposition is a laser-melting process that uses a powder nozzle to deposit metal powder onto existing tools to build the components layer by layer. While the last few years have seen the development of new rapid-prototyping technologies and processes that overcome the geometry problem, the available materials have not had adequate properties to enable them to build production-quality parts. INSET: High-power lasers enable metal-powder prototyping.
ALGORITHMS, MANUFACTURES, ENGINEERING, MANUFACTURING processes, NEW product development, BIOMEDICAL engineering, COMPUTER simulation, and VIRTUAL reality
This paper proposes a multi-material virtual prototyping (MMVP) system that integrates the virtual reality (VR) and the layered manufacturing (LM) technologies for digital fabrication of heterogeneous multi-material prototypes for advanced product development and biomedical engineering. The system consists mainly of two algorithms for sequential and concurrent multi-toolpath planning, and a virtual prototyping system. The algorithms adopt a topological hierarchy-sorting algorithm to establish the hierarchy relationship of multi-material slice contours for facilitating toolpath planning of multi-material layered manufacturing (MMLM). Subsequently, the sequential multi-toolpath planning algorithm generates sequential toolpaths that avoid redundant tool movements. To reduce build time further, the concurrent multi-toolpath planning algorithm generates collision-free concurrent toolpaths. Based on the hierarchy information, a bounding box can be adopted to approximate envelopes of contour families of the same material property to simplify detection of tool collisions. The algorithms are integrated to form the MMVP system for planning, stereoscopic simulation, and validation of multi-toolpaths for MMLM. [ABSTRACT FROM AUTHOR]
The article focuses on three dimensional (3D) printing in 2014 and discusses how it will impact manufacturing and design. Topics include how 3D printing has revolutionized the manufacturing of customizable components, increased accessibility to 3D printing by consumers, and how 3D printing will lessen industrial waste.
International Journal of Production Research. Sep97, Vol. 35 Issue 9, p2639-2660. 22p. 2 Diagrams, 4 Charts, 3 Graphs.
MANUFACTURING processes, RAPID prototyping, PRODUCTION methods, INDUSTRIAL engineering, ARTIFICIAL intelligence, ARTIFICIAL neural networks, and MANUFACTURES
In an earlier work (Ransing et al . 1995), we represented the causal relationship in a defect-metacause-rootcause form. This representation was perceived to be of considerable importance to the research community as well as industry, as it is applicable to any form of manufacturing process. Based on this representation we proposed 'A Semantically Constrained Bayesian Network' for the diagnostic problems (Lewis and Ransing 1997). In this paper, we develop another popular Artificial Intelligence tool, 'Feedforward Neural Network', for such diagnostic problems. The network is constrained to defect-metacause-rootcause topology and it has been shown that metacause concepts can be successfully associated with the hidden nodes. The errors are calculated at both the output layer and the hidden layer. Although the learning process is based on the back-propagation algorithm with a momentum term, the weight changes would occur at a link connecting a node only if at least one of the nodes connected to it in the preceding layer has non-zero activation. The theoretical analysis of such constrained learning is given and it is shown that the network behaviour is acceptable for the diagnostic problems considered. [ABSTRACT FROM AUTHOR]
The design of a new product usually takes shape gradually over time. Traditionally prototypes follow the design and are concluded before product launch. To decrease the time-to-launch, one may want to start prototype tests in advance of the design completion. However, with a slowly evolving design, modifications (in design) between subsequent prototypes can be significant, thereby increasing the time required for prototyping. This effect would be enhanced further if the prototyping time per unit of design change (sensitivity) is high. Using analytical models, we show how the interaction between the speed of evolution and the sensitivity impacts overlapping strategies. In scenarios where the impact of design changes can only be measured in discrete units, we formulate a shortest-path model and show how discreteness may limit the number of used prototypes. [ABSTRACT FROM AUTHOR]
Nasri, Farrokh, Paknejad, Javad, and Affisco, John F.
Proceedings for the Northeast Region Decision Sciences Institute (NEDSI). 2009, p403-408. 6p.
MANUFACTURES, RAPID prototyping, MANUFACTURING execution systems, PRODUCTION engineering, and INDUSTRIAL engineering
This paper considers the basic Economic Order Quantity model that allows stockouts and backordering. It assumes that the number of defectives produced by the manufacturing process is random rather than constant. Specifically, we assume that each lot contains a random proportion of defective units. Based on this scenario, we adjust the EOQ with planned shortages model for the quality factor. In addition to the general relationships obtained, closed form relationships are also given for the two special cases where the proportion of defectives follow uniform and exponential distributions. [ABSTRACT FROM AUTHOR]
IEE Review. Jul2004, Vol. 50 Issue 7, p42-45. 4p. 1 Black and White Photograph, 1 Diagram.
RAPID prototyping, MANUFACTURES, SURGERY, and PROSTHETICS
Reports on the surgical applications of rapid prototyping techniques developed for the manufacturing industry in Great Britain. Use of stereolithography in creating models for surgery; Application in making prosthetics. INSETS: A NEW NOSE;SLICE BY SLICE.
Discusses the invention of the rapid prototyping device. Use of digital technologies for the rapid production of models, prototypes and patterns; Changes in the design, engineering and manufacturing processes within the consumer products, aerospace, medical devices and automotive industries; Definition of rapid prototyping as the collection of technologies that are driven by computer-aided design data to produce physical models.
RAPID prototyping, INDUSTRIAL engineering, NEW product development, MANUFACTURES, SCANNING systems, and EQUIPMENT & supplies
The article discusses the benefits of the Thing-O-Matic rapid prototyping machine produced by Makerbot Industries to decreasing manufacturing production time. More broadly, the author is concerned with industrial engineering methods during a time when the product development process has received increased attention. The device allows industrial engineers to create product designs with 3-D modeling software. The author also explains the benefits of the Reigl LMS-Q20 rapid laser scanner.
RAPID prototyping, LABORATORY equipment & supplies, MANUFACTURES, MANUFACTURING processes, PUBLIC spaces, and EQUIPMENT & supplies
The article discusses fabrication laboratories (Fab Lab), which are public spaces where individuals can rapidly prototype their products at a low cost, and how personalized manufacturing is supplementing traditional engineering methods. Topics include Fab Labs' role in democratizing digital fabrication equipment, distributed mass manufacturing and the creation of personal fabricators, and how there are Fab Labs all around the world.
CONFERENCES & conventions, RAPID prototyping, MANUFACTURES, and COMPUTER software
Highlights the Rapid Prototyping and Manufacturing 2004 Conference and Exposition in Dearborn, Michigan on May 10-13, 2004. Offer of design, prototyping, tooling and direct manufacturing opportunities; Demonstration of rapid prototyping technology; Equipment and software used in rapid prototyping.
MANUFACTURING processes, MANUFACTURES, RAPID prototyping, PRODUCTION engineering, IMPACT strength, and GUMS & resins
The article features two production resins for three-dimensional (3D) printing, the Figure 4 PRO-BLK 10, a thermoset from 3D Systems and the RPU 130 resin, a hybrid that is 30% biomaterial from Carbon.
RAPID prototyping, MANUFACTURING processes, NEW product development, MANUFACTURES, and COST effectiveness
The article focuses on rapid manufacturing embracing the direct-metal manufacturing methods that offers manufacturers substantial cost savings on product development and expensive tools. A report from Wohler Associates Inc. indicates that rapid manufacturing will increase. Cited as an example is Arcam AB, which has developed an electron beam melting system used to rapidly manufacture titanium parts for aerospace and medical uses.
Smart Business Akron/Canton. May2016, Vol. 25 Issue 12, p20-20. 2/3p.
RAPID prototyping, MANUFACTURES, and THREE-dimensional printing
The article discusses how Ohio has figured out additive manufacturing/3-D printing as a strategic technology focus area for the manufacturing industry. According to Tim Sweeney of JobsOhio, Ohio has a healthy talent pool and is well-positioned to be a place where it is not so expensive to manufacture compared to other states. The participation of many Ohio organizations in National Network for Manufacturing Innovation programs is cited.