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Journal articles on the topic 'Manufacturabilité'

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Published: 18 May 2022

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1

Kino-oka, Masahiro, Manabu Mizutani, and Nicholas Medcalf. "Cell manufacturability." Cell and Gene Therapy Insights 5, no. 10 (October 21, 2019): 1347–59. http://dx.doi.org/10.18609/cgti.2019.140.

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2

Malec, Henry A. "Measuring manufacturability." Quality and Reliability Engineering International 9, no. 5 (September 1993): 399. http://dx.doi.org/10.1002/qre.4680090502.

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3

LI, JIN, and HONG YI. "RESEARCH ON SHIP MANUFACTURABILITY AND EVALUATION METHOD." Journal of Advanced Manufacturing Systems 10, no. 01 (June 2011): 3–10. http://dx.doi.org/10.1142/s0219686711001916.

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Ship manufacturability is one of the most important works for modern shipbuilding industry. The basic concept of ship manufacturability and its evaluation system are discussed first. Then the characteristics of ship manufacturability are analyzed. One kind of ship manufacturability evaluation (SME) strategy is put forward. Two evaluation methods of ship manufacturability (knowledge-based manufacturability evaluation and simulation-based manufacturability evaluation) are proposed too. With the proposed methods, the ship manufacturability can be evaluated reasonably.
4

KELLY, M. J. "Nanotechnology and manufacturability." Nanotechnology Perceptions 7, no. 2 (July 30, 2011): 79–81. http://dx.doi.org/10.4024/n03ke11a.ntp.07.02.

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5

KELLY, M. J. "Nanotechnology and manufacturability." Nanotechnology Perceptions 7, no. 2 (November 30, 2011): 95–103. http://dx.doi.org/10.4024/n05bo10a.ntp.07.02.

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6

Bazrov, B. M., and A. A. Troitskii. "Manufacturability of Products." Russian Engineering Research 40, no. 8 (August 2020): 683–87. http://dx.doi.org/10.3103/s1068798x20080055.

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7

KIMURA, Fumihiko. ""Manufacturability" and "Recyclability"." Journal of the Society of Mechanical Engineers 101, no. 954 (1998): 349–50. http://dx.doi.org/10.1299/jsmemag.101.954_349.

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8

Margail, J. "SIMOX material manufacturability." Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 74, no. 1-2 (April 1993): 41–46. http://dx.doi.org/10.1016/0168-583x(93)95011-s.

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9

Troitsky, Alexandr. "Design formulae of product design production manufacturability." Science intensive technologies in mechanical engineering 2020, no. 7 (July 16, 2020): 31–34. http://dx.doi.org/10.30987/2223-4608-2020-7-31-34.

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There are shown basic drawbacks of the well-known factors of manufacturability. The formulae of manufacturability factors excluding mentioned drawbacks and taking into account the impact of product design characteristics upon complete laboriousness of its manufacturing are offered. The developed formulae of these manufacturability factors give possibility for obtaining an integral estimate of manufacturability by means of their summation.
10

Yeung, Y. C., and Kai Ming Yu. "Manufacturability of Fractal Geometry." Materials Science Forum 471-472 (December 2004): 722–26. http://dx.doi.org/10.4028/www.scientific.net/msf.471-472.722.

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Nowadays more and more aesthetic product developments, assemblage and decoration designs are taking aesthetically appealing forms of natural objects such as rough terrain, ripples on lakes, coastline and seafloor topography. They are mathematical definable via fractal geometry theory and emerge to attract a lot of attention. However, not many methods for manufacturing of fractal objects have been reported in the literature and no previous research papers concern the manufacturability of fractal geometry. The paper will, thus, give a tentative classification and nomenclature of fractal geometry. Then, a state-of-the-art overview of manufacturing techniques is presented. By bridging the gap between fractal geometry and manufacturing, those processes that are promising to manufacture the three dimensional (3D) fractal objects will be highlighted. Afterward, a brief overview of limitation of those processes will be discussed.
11

Foreman, J. William. "Mercier's aspheric manufacturability index." Applied Optics 26, no. 22 (November 15, 1987): 4711. http://dx.doi.org/10.1364/ao.26.004711.

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12

Nardi, A., and A. L. Sangiovanni-Vincentelli. "Logic synthesis for manufacturability." IEEE Design and Test of Computers 21, no. 3 (May 2004): 192–99. http://dx.doi.org/10.1109/mdt.2004.15.

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13

Guo, Changsheng C., and Yan Y. Tang. "Screw Rotor Profile Manufacturability." Machining Science and Technology 7, no. 1 (January 3, 2003): 53–64. http://dx.doi.org/10.1081/mst-120018955.

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14

Базров, Б., and B. Bazrov. "Problem in product manufacturability." Science intensive technologies in mechanical engineering 1, no. 4 (April 30, 2016): 30–34. http://dx.doi.org/10.12737/18099.

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The analysis of a problem state in produce design manufacturability is presented, the necessity in the development of theoretical fundamentals for produce manufacturability assurance and their content is shown.
15

Hu, J., and S. Sapatnekar. "Editorial: Design for manufacturability." IET Circuits, Devices & Systems 2, no. 1 (2008): 1. http://dx.doi.org/10.1049/iet-cds:20089003.

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16

Vallishayee, Rakesh R., Steven A. Orszag, Eric Jackson, and Eytan Barouch. "Manufacturability of Electronic Chips." Theoretical and Computational Fluid Dynamics 10, no. 1-4 (January 1, 1998): 407–23. http://dx.doi.org/10.1007/s001620050073.

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17

George, L. J., John W. Priest, and G. T. Stevens. "Proprinter design for manufacturability." Computers & Industrial Engineering 25, no. 1-4 (September 1993): 481–85. http://dx.doi.org/10.1016/0360-8352(93)90325-r.

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18

Jin, Xin, Guo Xi Li, Jing Zhong Gong, Yue Hui Yan, and Shao Xing Li. "Research of Mechanical Product Digital Structure Design and Manufacturability Analysis and Evaluation Integration Technology." Applied Mechanics and Materials 437 (October 2013): 404–13. http://dx.doi.org/10.4028/www.scientific.net/amm.437.404.

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The necessity of integration of design and manufacturability was analyzed. By carrying out the research of mechanical product digital structure design and manufacturability analysis and evaluation integration technology, the roadmap of design manufacturability integration was established with support tool integration, information integration, knowledge integration, function integration and flow integration. The design manufacturability integration support system was developed. It was supported that designers could carry out manufacturability analysis and evaluation while doing structure design and finally the changes and rework of mechanical product design was reduced and the success rate of digital structure design was improved by using the system.
19

Irzaev, Gamid, Magomedimin Kanaev, and Marzhanat Isalova. "Selection of the preferred design for manufacturability by constructing the Pareto tuple." Journal of Applied Engineering Science 19, no. 2 (2021): 275–81. http://dx.doi.org/10.5937/jaes0-26922.

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The system to ensure manufacturability of industrial products is aimed at reducing the costs of all types of resources at the stages of their life cycle, selecting the most competitive in cost and functionality designs at the early stages of engineering. When assessing the new designs for manufacturability to be developed and selecting the best analogue or basic reference standard in terms of manufacturability, the engineer faces the need to apply multicriteria optimization methods. The solution of the applied task of design optimization by quantitative criteria of manufacturability in the conditions of an uncertain design and production environment is considered in the article as implementable in the system for ensuring design for manufacturability. The decisive rules for implementing the multi-step process of ranking the design options according to the manufacturability criteria with the construction of the Pareto tuple are formed. The implementation of the method is exemplified in practice when choosing the oscilloscope design that is advantageous in terms of manufacturability at a mass-production instrument-making plant.
20

Liu, Hong Jun, Rong Mo, Qing Ming Fan, Zhi Yong Chang, and Xiao Peng Li. "Research on Machinability and Evaluation Methods of Feature-Based Part under Concurrent Engineering Environment." Materials Science Forum 532-533 (December 2006): 805–8. http://dx.doi.org/10.4028/www.scientific.net/msf.532-533.805.

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Part manufacturability under Concurrent Engineering (CE) environment was analyzed in detail. An evaluation system of Design For Manufacturing (DFM) was proposed according to CE ideas. The evaluation methods for part manufacturability feature-based are intended to present in this paper. Product design can be guided according to feedback information by evaluating the part manufacturability. Finally an example of rabbet-feature manufacturability of a turbine blade was given to show the method available and practicable.
21

Malikova, D. M. "DEVELOPMENT OF A METHODOLOGY FOR ASSESSING THE MANUFACTURABILITY OF INDUSTRIAL PRODUCTS IN THE CONDITIONS OF PILOT PRODUCTION." Bulletin of Udmurt University. Series Economics and Law 31, no. 4 (August 12, 2021): 597–602. http://dx.doi.org/10.35634/2412-9593-2021-31-4-597-602.

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The article is devoted to improving the reliability of a comprehensive quantitative assessment of the technological performance of the product design in the conditions of pilot production, taking into account the specific production and technological conditions of the enterprise by solving the problem of objective selection of technological performance indicators. To achieve this goal, the following tasks were solved: the indicators of the manufacturability of product designs, their quantitative assessment were studied; a mathematical model for the formation of design indicators of manufacturability was developed, the optimal set of indicators of manufacturability for a particular product was selected; a method for quantitative evaluation and expert selection of indicators of manufacturability by their weights was developed; an algorithm for determining the integral indicator of the product's manufacturability was developed; the developed algorithm for the integral evaluation of the product's manufacturability indicators was applied. The practical significance of the work lies in the approbation of the author's method of expert selection and the determination of the integral index of manufacturability. This indicator is one of the elements of improving the efficiency of the enterprise, especially in the conditions of pilot production. The method developed by the author makes it possible to more reliably assess the manufacturability of the product at the initial stages of design. A positive result was obtained by expert selection of indicators that take into account the design features and the technological level of the manufacturer. In addition, the proposed method made it possible to identify reserves for improving the manufacturability of the product design. The use of the author's methodology helps to reduce the time and costs associated with the development and production of a new product.
22

Бочкарев, Петр, Petr Bochkarev, Лариса Бокова, and Larisa Bokova. "State and directions of development in field of product design manufacturability assurance." Science intensive technologies in mechanical engineering 2018, no. 2 (February 20, 2019): 37–42. http://dx.doi.org/10.30987/article_5c486cc4ba27c1.37542277.

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A present state of approaches and procedures for the assessment of product manufacturability is considered. There are shown sources of information and regulatory-reference literature on types, indices and methods of part design optimization for manufacturability. Current directions in scientific investigations in the field of manufacturability assurance of a product design are presented.
23

Bazrov, Boris. "Manufacturability support of product design." Science intensive technologies in mechanical engineering 2020, no. 8 (August 16, 2020): 18–22. http://dx.doi.org/10.30987/2223-4608-2020-8-18-22.

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A methodical approach to the development of product design manufacturability support is presented. The approach described takes into account the stages of product life, difference in initial conditions, contradictions in the impact of one and the same characteristics of product design upon labor-intensity of different stages of product life and conditions under which the optimization for manufacturability is carried out in absolute and relative values of manufacturability.
24

Balasinski, Artur. "Optimizing IC Design for Manufacturability." Recent Patents on Electrical Engineeringe 1, no. 3 (November 1, 2008): 209–13. http://dx.doi.org/10.2174/1874476110801030209.

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25

Cochrane, Sean, Robert Young, Keith Case, Jennifer Harding, James Gao, Shilpa Dani, and David Baxter. "Knowledge reuse in manufacturability analysis." Robotics and Computer-Integrated Manufacturing 24, no. 4 (August 2008): 508–13. http://dx.doi.org/10.1016/j.rcim.2007.07.003.

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26

Wijesuriya, Sujeewa D., Elizabeth Pongo, Milan Tomic, Fangjiu Zhang, Consuelo Garcia-Rodriquez, Fraser Conrad, Shauna Farr-Jones, James D. Marks, and Arnold H. Horwitz. "Antibody engineering to improve manufacturability." Protein Expression and Purification 149 (September 2018): 75–83. http://dx.doi.org/10.1016/j.pep.2018.04.003.

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27

Hafizi, Madjid. "HBT IC manufacturability and reliability." Solid-State Electronics 41, no. 10 (October 1997): 1591–98. http://dx.doi.org/10.1016/s0038-1101(97)00111-1.

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28

de Vries, W. A. H., F. L. M. Delbressine, and A. C. H. van der Wolf. "Guaranteeing Manufacturability of CSG Operations." CIRP Annals 44, no. 1 (1995): 97–100. http://dx.doi.org/10.1016/s0007-8506(07)62283-5.

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29

Chen, Huang-yu, and Yao-wen Chang. "Routing for manufacturability and reliability." IEEE Circuits and Systems Magazine 9, no. 3 (2009): 20–31. http://dx.doi.org/10.1109/mcas.2009.933855.

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30

Forbes, G. W. "Manufacturability estimates for optical aspheres." Optics Express 19, no. 10 (May 5, 2011): 9923. http://dx.doi.org/10.1364/oe.19.009923.

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31

ADALIER, MEHMET, and COSTAS TSATSOULIS. "REDESIGNING FOR MANUFACTURABILITY USING REINRED." Applied Artificial Intelligence 6, no. 3 (July 1992): 285–302. http://dx.doi.org/10.1080/08839519208949956.

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32

Brown, N. J., K. G. Swift, G. E. M. Jared, and C. A. Rodriguez-Toro. "Manufacturability in the Designers' Sandpit." Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 221, no. 2 (February 2007): 143–53. http://dx.doi.org/10.1243/09544054jem668.

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33

Ding, Kai, Vitaliy Avrutin, Natalia Izyumskaya, Ümit Özgür, and Hadis Morkoç. "Micro-LEDs, a Manufacturability Perspective." Applied Sciences 9, no. 6 (March 22, 2019): 1206. http://dx.doi.org/10.3390/app9061206.

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Compared with conventional display technologies, liquid crystal display (LCD), and organic light emitting diode (OLED), micro-LED displays possess potential advantages such as high contrast, fast response, and relatively wide color gamut, low power consumption, and long lifetime. Therefore, micro-LED displays are deemed as a promising technology that could replace LCD and OLED at least in some applications. While the prospects are bright, there are still some technological challenges that have not yet been fully resolved in order to realize the high volume commercialization, which include efficient and reliable assembly of individual LED dies into addressable arrays, full-color schemes, defect and yield management, repair technology and cost control. In this article, we review the recent technological developments of micro-LEDs from various aspects.
34

Anastasio, F. J., and D. J. Miller. "Technology development: focus on manufacturability." IEEE Transactions on Components, Hybrids, and Manufacturing Technology 14, no. 3 (1991): 488–92. http://dx.doi.org/10.1109/33.83932.

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35

Malik, Farid, and Masood Hasan. "Manufacturability of the CMP process." Thin Solid Films 270, no. 1-2 (December 1995): 612–15. http://dx.doi.org/10.1016/0040-6090(96)80083-6.

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36

Strojwas, Andrzej J. "Design for manufacturability and yield." Microelectronics Journal 21, no. 2 (January 1990): 53–66. http://dx.doi.org/10.1016/0026-2692(90)90026-y.

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37

Shire, Steven J. "Formulation and manufacturability of biologics." Current Opinion in Biotechnology 20, no. 6 (December 2009): 708–14. http://dx.doi.org/10.1016/j.copbio.2009.10.006.

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38

Gupta, Satyandra K., William C. Regli, Diganta Das, and Dana S. Nau. "Automated manufacturability analysis: A survey." Research in Engineering Design 9, no. 3 (September 1997): 168–90. http://dx.doi.org/10.1007/bf01596601.

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39

Matuszek, J., T. Seneta, D. Plinta, and D. Więcek. "Manufacturability assessment in assembly processes." IFAC-PapersOnLine 53, no. 2 (2020): 10536–41. http://dx.doi.org/10.1016/j.ifacol.2020.12.2801.

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40

Shu, Tian Jia, and Xiao Qiang Zhong. "Evaluation Model of Product Manufacturability for Rapid Response Design." Advanced Materials Research 542-543 (June 2012): 281–84. http://dx.doi.org/10.4028/www.scientific.net/amr.542-543.281.

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Rapid Response Design (RRD) attempts to put the product design into effect in the minimum time to satisfy the customer requirements. Product manufacturability has a very important effect on the performance of product design, especially in the progress of rapid response design. The concept of product manufacturability is usually considered as a multi-objective problem. An effective product manufacturability evaluation procedure necessitates the consideration of qualitative criteria, e.g., product quality, as well as quantitative criteria such as material cost in the decision process. This paper purposed an evaluation model of product manufacturability for RRD based on the data envelopment analysis (DEA) methodology and analytic hierarchy process (AHP). The proposed evaluation model is both effective and efficient.
41

Lianos, Andreas K., Harry Bikas, and Panagiotis Stavropoulos. "A Shape Optimization Method for Part Design Derived from the Buildability Restrictions of the Directed Energy Deposition Additive Manufacturing Process." Designs 4, no. 3 (July 1, 2020): 19. http://dx.doi.org/10.3390/designs4030019.

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The design methodologies and part shape algorithms for additive manufacturing (AM) are rapidly growing fields, proven to be of critical importance for the uptake of additive manufacturing of parts with enhanced performance in all major industrial sectors. The current trend for part design is a computationally driven approach where the parts are algorithmically morphed to meet the functional requirements with optimized performance in terms of material distribution. However, the manufacturability restrictions of AM processes are not considered at the primary design phases but at a later post-morphed stage of the part’s design. This paper proposes an AM design method to ensure: (1) optimized material distribution based on the load case and (2) the part’s manufacturability. The buildability restrictions from the direct energy deposition (DED) AM technology were used as input to the AM shaping algorithm to grant high AM manufacturability. The first step of this work was to define the term of AM manufacturability, its effect on AM production, and to propose a framework to estimate the quantified value of AM manufacturability for the given part design. Moreover, an AM design method is proposed, based on the developed internal stresses of the build volume for the load case. Stress tensors are used for the determination of the build orientation and as input for the part morphing. A top-down mesoscale geometric optimization is used to realize the AM part design. The DED Design for Additive Manufacturing (DfAM) rules are used to delimitate the morphing of the part, representing at the same time the freeform mindset of the AM technology. The morphed shape of the part is optimized in terms of topology and AM manufacturability. The topology optimization and AM manufacturability indicator (TMI) is introduced to screen the percentage of design elements that serve topology optimization and the ones that serve AM manufacturability. In the end, a case study for proof of concept is realized.
42

Bazrov, Boris, and Alexandr Troitsky. "Transformation of manufacturability factors at their group impact upon complexity of product manufacturing." Science intensive technologies in mechanical engineering 2020, no. 11 (November 30, 2020): 8–15. http://dx.doi.org/10.30987/2223-4608-2020-11-8-15.

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A procedure for development of the calculation formulae of manufacturability factors in groups exerting influence upon the same kind of complexity is presented. There are shown adjusted calculation formulae of manufacturability factors.
43

Pleshivtsev, A. "THE CONCEPT OF TECHNOLOGICAL EFFECTIVENESS OF AN ARCHITECTURAL SYSTEM AND A WAY TO EXPAND THE CAPABILITIES OF AN ARCHITECTURAL COMPOSITION." ASJ. 2, no. 41 (October 12, 2020): 4–8. http://dx.doi.org/10.31618/asj.2707-9864.2020.2.41.29.

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This research is based on the scientific hypothesis about role and importance property of the manufacturability for creating effective architectural systems. The subject of this research is the features at interaction of manufacturability with the main components composition (functional, constructive, artistic and aesthetic) architectural images, considered for some stages of historical, technological development. The relevance of this research is associated with assessing the prospects for the impact manufacturability on the development at areas related to the use innovative techniques in architectural activity.
44

Yushchenko, K. A., A. V. Bulat, N. V. Skorina, A. E. Marchenko, V. I. Samojlenko, and N. Yu Kakhovsky. "Effect of binder type on manufacturability and properties of E-08Kh20N9G2B type coated electrodes." Paton Welding Journal 2017, no. 1 (January 28, 2017): 2–9. http://dx.doi.org/10.15407/tpwj2017.01.01.

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45

Antic, Radivoje Borivoje, Slavica Cvetkovic, Branko Pejovic, and Milan Cvetkovic. "Definition of manufacturability - product of mathematical expressions and fuzzy logic for his early design." International Journal of Engineering & Technology 2, no. 3 (August 25, 2013): 239. http://dx.doi.org/10.14419/ijet.v2i3.1082.

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The paper explaines manufacturability of products for robust design of a new product. Explained mathematical expressions of fuzzy logics describe manufacturability. Provides an example of using the model for the determination of the tmanufacturability.
46

Shu, Qi Lin, and Shuai Tao Li. "Development of STEP-NC Based Manufacturability Evaluation System." Advanced Materials Research 542-543 (June 2012): 1185–89. http://dx.doi.org/10.4028/www.scientific.net/amr.542-543.1185.

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A method and prototype system have been developed to assess manufacturability of a machining job with a known machine tool. The data for describing the machining task confirms to STEP-NC data model, i.e. ISO 14649. A group of manufacturability indices have been suggested used in the system. They are called “Key Manufacturability Indicators” (KMIs). Examples of KMIs are workpiece clamping data, machine tool’s capability and cutting tool information. To assist the evaluation process, a machine tool data model is used. The prototype system is validated through an example.
47

Ding, Liping, Shujie Tan, Wenliang Chen, Yaming Jin, and Yicha Zhang. "Manufacturability analysis of extremely fine porous structures for selective laser melting process of Ti6Al4V alloy." Rapid Prototyping Journal 27, no. 8 (August 25, 2021): 1523–37. http://dx.doi.org/10.1108/rpj-11-2020-0280.

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Purpose The manufacturability of extremely fine porous structures in the SLM process has rarely been investigated, leading to unpredicted manufacturing results and preventing steady medical or industrial application. The research objective is to find out the process limitation and key processing parameters for printing fine porous structures so as to give reference for design and manufacturing planning. Design/methodology/approach In metallic AM processes, the difficulty of geometric modeling and manufacturing of structures with pore sizes less than 350 μm exists. The manufacturability of porous structures in selective laser melting (SLM) has rarely been investigated, leading to unpredicted manufacturing results and preventing steady medical or industrial application. To solve this problem, a comprehensive experimental study was conducted to benchmark the manufacturability of the SLM process for extremely fine porous structures (less than 350 um and near a limitation of 100 um) and propose a manufacturing result evaluation method. Numerous porous structure samples were printed to help collect critical datasets for manufacturability analysis. Findings The results show that the SLM process can achieve an extreme fine feature with a diameter of 90 μm in stable process control, and the process parameters with their control strategies as well as the printing process planning have an important impact on the printing results. A statistical analysis reveals the implicit complex relations between the porous structure geometries and the SLM process parameter settings. Originality/value It is the first time to investigate the manufacturability of extremely fine porous structures of SLM. The method for manufacturability analysis and printing parameter control of fine porous structure are discussed.
48

Wang, Qigui, and Yucong Wang. "Virtual Manufacturability Analyzer for Casting Components." SAE International Journal of Materials and Manufacturing 4, no. 1 (April 12, 2011): 771–79. http://dx.doi.org/10.4271/2011-01-0528.

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49

Pan, David Z. "Manufacturability Aware Routing in Nanometer VLSI." Foundations and Trends® in Electronic Design Automation 4, no. 1 (2010): 1–97. http://dx.doi.org/10.1561/1000000015.

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50

Sonoda, T., Y. Yamamoto, N. Hayafuji, H. Yoshida, H. Sasaki, T. Kitano, S. Takamiya, and M. Ostubo. "Manufacturability and reliability of InP HEMTs." Solid-State Electronics 41, no. 10 (October 1997): 1621–28. http://dx.doi.org/10.1016/s0038-1101(97)00115-9.

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