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|a The XXVII-Th INTERNATIONAL CONFERENCE of INVENTICS INVENTICA 2023 :
|b Science of Creativity.
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|a 1st ed.
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|a Basel/Berlin/Boston :
|b Walter de Gruyter GmbH,
|c 2023.
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|c ©2023.
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|a 1 online resource (214 pages)
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|a 9788367405201-fm.pdf -- 9788367405201-001.pdf -- 9788367405201-002.pdf -- 9788367405201-003.pdf -- 9788367405201-004.pdf -- IDENTIFYING A SET-UP -- FOR ANALYZING THE FRICTION DRILLING PROCESS -- Elisaveta CRĂCIUN1*, Mihai ȚURCAN2, Margareta COTE -- Gheorghe Asachi Technical University of Iași, Blvd -- 1 -- Abstract: Friction drilling is a process generally -- Keywords: friction drilling -- functional requiremen -- I.INTRODUCTION -- Drilling is the machining process of removing ma -- Holes can be classified by considering different c -- Other methods of making holes with a circular cros -- Friction drilling, or thermomechanical drilling th -- The consultation of the specialized literature rel -- Thus, Kumar and Hynes highlighted the applicabilit -- The advantages and disadvantages of using friction -- A synthesis of the results obtained up to the year -- In general, the aspects addressed so far concern t -- This article's authors are unaware of the existenc -- II.FRICTION DRILLING -- As previously mentioned, friction drilling involve -- Assuming that the material of the active area of t -- The melted material near the active area of the ro -- Aspects of technological interest can be noticed i -- It is found there that the molten material of the -- Although such a burr is generally regarded as a ne -- For the materialization of a friction drilling pro -- Among the machine tools usually found in a machine -- On drilling and milling machines, the feed motion -- In the case of machine tools such as lathes, the c -- As output parameters of the friction drilling proc -- The main groups of factors capable of influencing -- - Chemical composition and physical-mechanical pro -- - The shape and dimensions of the active surface o -- - The chemical composition and physical-mechanical -- - Rotation speed of the rotating tool.
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|a The axial force F by which the rotating tool is -- Figure 2 shows the results of using an Ishikawa di -- III.AXIOMATIC DESIGN -- Axiomatic design is a methodology that analyzes th -- Although some aspects of an axiomatic design were -- Axiomatic design is based on using axioms, i.e., i -- Thus, thanks to this division and analysis, the op -- Axioms, domains, and inquiry processes are part of -- Two axioms are taken into account when applying ax -- The second axiom is the information axiom -- accordi -- IV.FUNCTIONAL REQUIREMENTS, DESIGN PARAMETERS, AND PR -- When considering the use of axiomatic design, it -- CN: Design equipment capable of determining the fe -- Next, it is necessary that starting from the clien -- The zero-order functional requirement can be defin -- FR0: ensure the equipment design capable of determ -- This zero-order functional requirement would corre -- DP0: Equipment that determines the feed rate in fr -- By decomposing the zero-order functional requireme -- The various first-order functional requirements ap -- Functional requirements, FR -- Design parameters, DP -- Process variables, PV -- FR1: Provide the tooling required to materialize t -- DP1: Cylindrical rotating tool with a conical tip -- PV1: Cylindrical shape with a tapered tip, tool di -- FR2: Ensure tool rotation -- DP2: Drilling machine -- PV2: The rotation speed of the tool -- FR3: Ensure locating and clamping the tool -- DP3: Chuck with elastic bushing -- PV3: Bushing with a bore corresponding to the diam -- FR4: Ensure the feed movement of the rotating tool -- DP4: Translation torque -- PV4: The diameter of the cylindrical bore in which -- FR5: Provide constant feed force -- DP5: Pan -- PV5: The amount of weight that will be placed on t -- FR6: Ensure the locating and clamping of the workp -- DP6: Clamps and screws, drilling machine table.
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|a PV6: Dimensions of clamps, screws, and T-channels -- FR7: Make sure to change the rotational speed of t -- DP7: Drive the tool with a DC motor fed with a var -- PV7: Different values of the rotation speed of the -- FR8: Make sure to change the amount of feed force -- DP8: Weights of different sizes placed on the pan -- PV8: Weights of known masses -- FR9: Provide measurement of the time required for -- DP9: Chronometer -- PV9: Measuring with sufficient accuracy the time r -- Table 1, Functional requirements, design parameter -- in the case of the equipment for studying friction -- Each requirement has one or more design paramete -- The most general form of the design matrix relatio -- {FR}=[A] {DP}. -- (1) -- In the case of the tracked equipment, the design m -- 1 2 3 4 5 6 7 8 -- (2) -- In the design matrix (the first factor on the righ -- When these "X" symbols are placed only along the d -- If the "X" symbols are all arranged either above o -- For situations other than the previously described -- Examining the structure of the decision matrix rev -- V.THE CONSTRUCTIVE SOLUTION PROPOSED BY TAKING INTO -- By considering the results of using axiomatic desi -- It can be seen that a bench drilling machine has b -- The DC electric motor for rotating the tool can be -- The workpiece in which holes will be made using fr -- To perform a test to determine the feed rate (as a -- By starting the electric motor, the rotating tool -- By relating the thickness of the workpiece to the -- By changing the values of the input factors in the -- VI.CONCLUSIONS -- Friction drilling is one of the drilling processes -- The intense friction between the rotating tool and -- The problem of designing and materializing equipme -- An initial analysis of the conditions in which th -- The use of the Ishikawa diagram method led to a su.
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|a This way, the functional requirements, design para -- Using axiomatic design principles, a variant of eq -- In the future, it is intended to materialize the e -- References -- [1]Kumar R., Rajesh Jesudoss Hynes N., 2019, Thermal -- [2]Eliseev, A., Kolubaev, E., 2021, Friction drilling -- [4]Dehghan S., Ismail M.I.S., Ariffin M.K..A.M., Baha -- [5]Flowdrill Tool for Friction Drilling, 2023. Availa -- [9]Dehghan S. , Abbasi -- [11]Slătineanu L., 2029, Fundamentals of scientific re -- 9788367405201-005.pdf -- HIERARCHIZATION OF TECHNICAL CREATION METHODS -- APPLICABLE IN THE FIELD OF PROSTHETICS -- Dimitrie-Cristian FODOR1,2, Neculai-Eugen SEGHEDIN -- 1"Gheorghe Asachi" Technical University of Iași, -- 67 Professor Dimitrie Mangeron Boulevard, 700050, -- 2"Dr. Iacob Czihac" Military Emergency Clinical Ho -- 7-9 General Berthelot Henri Mathias Street, 700483 -- dimitrie-cristian.fodor@student.tuiasi.ro, neculai -- Abstract: The work includes a structuring of the b -- Keywords: technical creation methods -- AI-generated -- Pioneer inventions are those with the highest degr -- Some classifications were made using one of the me -- By combining idea diagrams and morphological matri -- In order to highlight the fact that the planning o -- Thus, in the adapted diagram (fig. 1) are presente -- Fig. 1. The antithesis between traditional creatio -- in relation to the supposed inventor -- The second antithesis proves that solving a techni -- The attitude adopted by the inventor in the entire -- The last antithesis and probably the most importan -- A correct application of traditional methods of te -- Especially lately, chatbots are promoted as artifi -- DABUS is invented by Dr. Stephen Thaler (physicist -- A simple consultation of the original documents fi -- These patent applications were filed at the indust -- If these intelligent machines will generate ideas.
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|a So, until the possibility of acquiring a personal -- Some of the best-known methods and techniques of t -- These methods are listed in Table I and for each m -- Table I. Classification of classical methods for t -- Method index -- The method of technical creation -- (the generic name from the specialized literature -- of the field - technical, medical, biomedical, etc -- Inventory and ranking -- of ideas and technical solutions from the state -- of the art -- The generation of new ideas and technical solution -- Ideas with a high degree -- of novelty -- Ideas with a low degree -- of novelty -- 1 -- ● -- 〇 -- 2 -- ● -- 〇 -- 3 -- Method of morphological matrices -- ● -- 〇 -- 4 -- ● -- 〇 -- 5 -- ● -- 〇 -- 6 -- Brainstorming (Osborn method) -- ● -- 〇 -- 7 -- Imaginary brainstorming -- 〇 -- 8 -- Philips 66 method -- ● -- 〇 -- 9 -- 6-3-5 Brainwriting -- ● -- 〇 -- 10 -- Delphi method -- 〇 -- 11 -- Personal analogy method -- 〇 -- 12 -- Induction method -- ● -- 〇 -- 13 -- Challenge assumptions -- 〇 -- 14 -- Frisco method -- 〇 -- 15 -- Reverse engineering -- 〇 -- 16 -- Theory of inventive problem solving (TRIZ) - Altsh -- ● -- 〇 -- 17 -- Concept-Knowledge Theory (C-K Theory) -- ● -- 〇 -- 18 -- Value analysis, value engineering -- 〇 -- 19 -- Analysis of Interconnected Decisions Areas (AIDA) -- ● -- 〇 -- 20 -- ELECTRE - Élimination et Choix Traduisant la Reali -- ● -- 〇 -- 21 -- Electre-Phiz Complex (Electre-Philips-Zwicky) -- ● -- 〇 -- 22 -- Analyse des Functions par Rapport aux Indices et a -- ● -- 〇 -- 23 -- PINDAR - Prospect of Independent Decisions Areas -- ● -- 〇 -- 24 -- VETRA method -- ● -- 〇 -- 25 -- Sherlock Holmes method -- 〇 -- 26 -- ICR (inform, create, reflect) network method -- 〇 -- 27 -- The Harvey Card Method -- 〇 -- 28 -- Lotus flower method -- 〇 -- 29 -- Method of heuristic approaches -- 〇 -- 30 -- Synectics - Gordon method -- 〇 -- 31.
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|a Biomimicry/biomimetics.
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|a Description based on publisher supplied metadata and other sources.
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|a Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
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|i Print version:
|t The XXVII-Th INTERNATIONAL CONFERENCE of INVENTICS INVENTICA 2023
|d Basel/Berlin/Boston : Walter de Gruyter GmbH,c2023
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|a ProQuest (Firm)
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|u https://ebookcentral.proquest.com/lib/matrademy/detail.action?docID=31281617
|z Click to View
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