Dissertations / Theses on the topic 'Fine grinding'
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Conway-Baker, Jamie. "Measurement and modelling of fine grinding." Thesis, University of Exeter, 2001. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.403075.
Full textKarinkanta, P. (Pasi). "Dry fine grinding of Norway spruce (Picea abies) wood in impact-based fine grinding mills." Doctoral thesis, Oulun yliopisto, 2015. http://urn.fi/urn:isbn:9789526207193.
Full textTiivistelmä Puujauheita käytetään laajalti erilaisissa sovelluksissa, kuten esimerkiksi biokomposiiteissa ja suodattimissa. Tämän lisäksi on olemassa paljon tutkimustietoa siitä, kuinka puujauheita voitaisiin hyödyntää laajemminkin. Puu voidaan mekaanisesti prosessoida alle 100 µm:n kokoluokkaan, mutta yksityiskohtaista tietoa kuivahienojauhatuksen olosuhteiden vaikutuksesta jauheiden morfologiaan ja selluloosan kiteisyyteen ei ole saatavilla. Puujauheen morfologialla ja selluloosan kiteisyydellä on kuitenkin merkittävä vaikutus sovelluksia ja jatkojalostusta ajatellen. Puun kuivahienojauhatuksen tiedon puute hankaloittaa merkittävästi prosessin suunnittelua ja optimointia erilaisia sovelluksia varten. Tämän väitöskirjan tavoitteena on selvittää iskuihin perustuvien hienojauhimien vaikutukset puun ominaisuuksiin ja tutkia mekaanisen prosessoinnin energiatehokkuutta hienojauhatuksessa. Tutkimuksessa selvitettiin kolmen erilaisen iskuun perustuvan hienojauhatusmyllyn pääasiallisten operointiparametrien vaikutusta kuivatun metsäkuusen ominaisuuksiin ja energiankulutukseen. Jokaisella hienojauhimella onnistuttiin tuottamaan puujauhoja, joiden mediaanikoko oli alle 25 µm. Iskuihin perustuvalla jauhinkappalemyllyllä saatiin tuotettua puujauhoa, jonka selluloosan kiteisyys on alhaisempi ja partikkelimuodot pyöreämpiä verrattuna samankokoisiin puujauhoihin, jotka on tuotettu iskuihin perustuvilla jauhinkappaleettomilla hienojauhatusmyllyillä. Työssä saatiin käytännöllinen arvio kuivatun metsäkuusen hienojauhatuksen minimienergiankulutukselle iskuihin perustuville jauhinkappalemyllyille, mitä voidaan käyttää kyseisten myllytyyppien optimoinnin tavoitteena. Työssä havaittiin lisäksi, että kryogeenisiä jauhatusolosuhteita käyttämällä voidaan tuottaa erilaisia puujauhoja verrattuna puujauhoihin, jotka prosessoidaan ilman nestetyppijäädytystä, kun jauhatus suoritetaan iskuihin perustuvalla jauhinkappalemyllyllä. Ilman nestetyppijäädytystä puun kosteuspitoisuudella on merkittävämpi vaikutus puujauhojen ominaisuuksiin kuin kryogeenisissä olosuhteissa jauhetuilla. Kryogeenisillä jauhatusolosuhteilla voidaan parantaa myös jauhatuksen energiatehokkuutta. Torrefioinnilla voidaan vähentää hienojauhatuksen energiankulutusta iskuihin perustuvilla jauhinkappalemyllyillä, kun tavoitekoon mediaani on yli 17,4 µm (± 0,2 µm). Torrefioinnilla ei ole vaikutusta selluloosan kiteisyyteen tai partikkeleiden muotoon energiankulutuksen funktiona
Brown, Michael Duane. "An investigation of fine coal grinding kinetics." Thesis, Virginia Tech, 1986. http://hdl.handle.net/10919/45752.
Full textMaster of Science
Kewes, Eloi. "Silicon grinding and fine particles : generation and behavior of metallurgical-grade silicon fine particles during grinding for the silicones industry." Thesis, Ecully, Ecole centrale de Lyon, 2015. http://www.theses.fr/2015ECDL0030/document.
Full textMetallurgical-grade silicon (MG-Si, 99 %) powders were extensively investigated, particularly focusing on the fine particles (whose size is between 1 and 10 μm) comprised in these powders. This material is a reactant widely used in the silicones industry for the Direct Synthesis and is obtained by size reduction of millimetric silicon lumps. Powder properties are major stakes of the industrial process. Smaller sizes favor high specific surfaces and high rates of production, but can decrease the lowability, thus inducing poor heat evacuation resulting in hot spots and a decrease in selectivity. Such lowability issues are particularly associated with fine particles, hence understand the generation of these particles during grinding is of critical importance. New chemical and crystallographic characterization of MG-Si is presented, showing that fine particles contain on average less alloying elements than larger particles, yet their crystallographic structure is preserved through grinding. On the contrary, superfine particles (smaller than 1 μm) exhibit amorphous zones: this transformation is pressure induced, showing that these particles experience larger stresses during the grinding step. The behavior of MG-Si in grinding mills has been studied for the first time. At the single particle level, it has been confirmed that transgranular fracture is preferred in MG-Si. Moreover, fine particles can be produced from a single fracture event, due to multiple crack propagation and branching. The critical size under which plastic deformation preferentially occurs over fracture has been evaluated to be approximately 1 μm. These two facts are consistent with a lower level of impurities in fines, yet remaining crystalline, and with superfines exhibiting amorphous areas. At the multiple particle level, pilot scale batch milling experiments have been performed. The results are not included in this public version of the manuscript, please refer to the full manuscript. The consequences of the presence of fine particles in ground MG-Si powder on lowability has been assessed by means of angle of repose, compaction tests and fluidization experiments. A new elutriation behavior has been observed and characterized: for naturally ground MS-Si powders (including fine particles), particles smaller than 30 μm are entrained first, then only larger particles. This was not the case in absence of fine particles. The explanation may probably lie within the presence of polydisperse clusters, formed only in presence of fine particles. Parallel to this elutriation behavior, electrostatic measurements with an external electrometer showed that high potential with sign correlated with the type of particle elutriated are attained during elutriation. This may suggest that electrostatics is responsible for cluster formation
He, Mingzhao. "Slurry rheology of limestone and its effects on wet ultra-fine grinding /." Luleå, 2005. http://epubl.luth.se/1402-1757/2005/006.
Full textHe, Mingzhao. "Slurry rheology of industrial minerals and its effects on wet ultra-fine grinding /." Luleå : Division of Mineral Processing, Department of Chemical Engineering and Geosciences, Luleå University of Technology, 2007. http://epubl.ltu.se/1402-1544/2007/44/.
Full textBafakeeh, Omar T. "Micro/Nano Surface Finish Single Side Electrolytic In-Process Dressing (ELID) Grinding with Lapping Kinematics of Sapphire." University of Toledo / OhioLINK, 2017. http://rave.ohiolink.edu/etdc/view?acc_num=toledo1491948412941004.
Full textKhoshaim, Ahmed Bakr. "Single Side Electrolytic In-Process Dressing (ELID) Grinding with Lapping Kinematics of Silicon Carbide." University of Toledo / OhioLINK, 2014. http://rave.ohiolink.edu/etdc/view?acc_num=toledo1396269180.
Full textInam, Muhammad Asif. "Particle sizing and product quality in production of fine and nano particles by means of wet grinding process." Thesis, Toulouse, INPT, 2010. http://www.theses.fr/2010INPT0028/document.
Full textWet grinding process is an interesting means of producing fine and nano particles. The particle sizing plays an important role in interpretation, control and optimization of various aspects of the wet grinding process. There is a lack of knowledge in understanding different aspects of particle sizing during a wet grinding process. The particle sizing in a wet grinding process is typical in the sense: (i) The dispersions in a wet grinding process, often, involve additives and (or) impurities. It is less known how impurities and additives influence the particle size of the dispersions in the wet grinding process. (ii) In a wet grinding process, dispersions of different concentrations may be used. It is less known how dispersions of different concentration may influence the particle sizing in a wet grinding process. (iii) In a wet grinding process, the change in average particle size of the product is rapid due to relatively fast breakage of the particles. (iv) The degree of poly dispersity in product changes with grinding time. (v) The nature of interaction between particles is non-colloidal before grinding process; this interaction becomes colloidal after a certain grinding time. Similarly, there is a lack of knowledge to understand how quality of final ground product is influenced in a wet grinding process. This study investigates the different aspects of particle sizing and product quality of aqueous dispersions of CaCO3 in a wet grinding process carried out in a stirred media mill. Acoustic attenuation spectroscopy that is known for measuring particle size of dispersions on line, under real process conditions and without diluting the sample has been employed in the study in addition to the technique of dynamic light scattering. The study brings out the conditions in which the effects of impurities and additives etc. on particle size of the dispersions may be determined using acoustic attenuation spectroscopy. Furthermore, the study compares and analyze the particle sizing results obtained though acoustic attenuation spectroscopy and dynamic light scattering. The causes of differences in the results of two techniques have been investigated. We report presence of multiple scattering at high concentration of the dispersions during wet grinding process that result in misleading results of the particles sizes. Quality is an intangible concept. In order to understand how different operating parameters influence product quality, we propose a method based upon the definition of quality as defined in ISO 9000:2005. The method takes into consideration the important operating parameters of wet grinding process (such as the operating condition of the mill, the measurement of particle size and the material) and important product characteristics ( such as average particle size, range of width of particle size distribution, stability of dispersion, degree of impurities, specific energy input and physical appearance). We bring out how a relationship between operating parameters and products of different grades may be established in a wet grinding process
Kaltani, Arian. "Traitement de la fraction fine des résidus du broyage d'automobiles (R. B. A. )." Vandoeuvre-les-Nancy, INPL, 1994. http://docnum.univ-lorraine.fr/public/INPL_T_1994_KALTANI_A.pdf.
Full textYang, Yang. "A study of fine particle grinding in vertically stirred media mills via positron emission particle tracking technology and the discrete element method." Thesis, University of Birmingham, 2018. http://etheses.bham.ac.uk//id/eprint/8162/.
Full textChahdi, Amal. "Classification pneumatique des particules ultra fines minérales dans un système de broyage classification." Vandoeuvre-les-Nancy, INPL, 1997. http://www.theses.fr/1997INPL015N.
Full textVarinot, Christelle. "Contrôle de la distribution granulométrique en broyage fin continu." Vandoeuvre-les-Nancy, INPL, 1996. http://www.theses.fr/1996INPL109N.
Full textWolf, François. "Étude et modélisation du broyage d'une poudre de zircone : mécanosynthèse d'alliages à base de zircone, matériaux denses à nanograins." Vandoeuvre-les-Nancy, INPL, 1995. http://www.theses.fr/1995INPL059N.
Full textMassam, Mark. "Thermal characteristics of grinding fluids." Thesis, Cranfield University, 2008. http://dspace.lib.cranfield.ac.uk/handle/1826/7615.
Full textBerthiaux, Henri. "Modélisation du broyage fin dans un broyeur à jets d'air et à lit fluidisé : étude du couple broyeur-sélecteur." Vandoeuvre-les-Nancy, INPL, 1994. http://www.theses.fr/1994INPL154N.
Full textRanguis-Barale, Isabelle. "Étude de la fragmentation ultrafine : application au broyage de la gibbsite par broyeur à jets d'air." Vandoeuvre-les-Nancy, INPL, 1995. http://www.theses.fr/1995INPL062N.
Full textHuang, Xixi. "Influence des particules fines sur la stabilité d'un milieu granulaire." Phd thesis, Ecole Centrale de Lyon, 2013. http://tel.archives-ouvertes.fr/tel-00963654.
Full textWakelin, Heather Monica. "Ignition Thresholds for Grassland Fuels and Implications for Activity Controls on Public Conservation Land in Canterbury." Thesis, University of Canterbury. School of Forestry, 2010. http://hdl.handle.net/10092/4245.
Full textChien, Chih-An, and 簡志安. "Reseach of Fine Grinding in Soybean Protein Enrichment Application." Thesis, 2013. http://ndltd.ncl.edu.tw/handle/x9zkku.
Full text國立臺北科技大學
生物科技研究所
101
Since the economical development of emerging countries in the world, the rising global demand of aquaculture and seafood as animal protein source of food has became a new trend. But, the general animal protein source in current aquaculture feed - fishmeal, has facing shortage in volume due to El Nino phenomenon, and therefore induced the raising of price in recent years. To satisfying the continuous rising demand of fishmeal, it makes the overfishing problem and has been considering to impacts the marine ecosystem, and also impacts the development of whole aquaculture industries. Using plant protein to replace animal protein in aquaculture feed has been researched and useful, soybean is the most productive candidate because of total harvest volume and relative advantage in nutrition value. The soybean product - soy protein concentrate is applied to be the role in purpose for replacing fishmeal as general protein source in the future. Currently, the general methods to produce soy protein concentrate including dilute acid washing, alcohol extraction, those wet method produced lots of waste water and polluted air, and their subsequent processing especially drying process, is high in energy cost while in the world’s energy depletion situation. Using fine grinding and particle size separation technique for plant protein separation has been researched for some plant legumes, selective grinding phenomenon occurred in fine grinding process could be applicable in protein enrichment purpose. We used repeated impact mill combined with a leveled particle size classification, to compared the liberation of soybean meal under different impact conditions. We found fine grinding method could make liberation with soybean meal, which separated coarse fraction with 42.72% in protein content and fine fraction in 57.24%. However, although we found liberation occurred with soybean meal, using a single fine grinding-classification step to achieved the purpose of soy protein concentrate production is not succeed.
Yue, Jian. "Rheological effects on ultra-fine grinding in stirred mills." Thesis, 2003. http://hdl.handle.net/2429/14558.
Full textJayasundara, Chandana Tilak Materials Science & Engineering Faculty of Science UNSW. "Numerical and experimental studies of granular dynamics in IsaMill." 2007. http://handle.unsw.edu.au/1959.4/40734.
Full textHuang, Kuo-huang, and 黃國晃. "The preparation of fine-grain mica by physical grinding and chemical delimination." Thesis, 2007. http://ndltd.ncl.edu.tw/handle/04701993340053337532.
Full text國立成功大學
資源工程學系碩博士班
95
Muscovite is close to nano-sized layer structure, accord with general orientation that composite develops in recent years, in addition to having fine chemistry, physical property, stability and excellent properties in anti-ultraviolet, anti-static, heat resistance,electricity insulation. It is worth probing into the mineral material which for one studies thoroughly.But electric charge is high among the muscovite layer. Bond strength is strong, so particle reducing and further exfoliating is quite difficult to carry on. This research purpose is utilizing proper physics and chemical way to reduce muscovite particle size and bond strength among the layer. The respect in physics grinding: under the similar grinding condition with the same concentration of slurry and same type of media with identical diameter, the milling efficiency of the “attrition mill” is obviously superior to “ball mill”.And using the “attrition mill” having better efficiency to carry on particle reducing, the efficiency of high concentration of slurry (weight percentage is 35%) is better at the very start. But with grinding time increasing viscosity raises quickly, so the efficiency of low concentration of slurry (weight percentage is 10%) is better contrariously. In addition, under the same concentration of slurry, particle size will reduce with grinding time increasing, but the efficiency won,t increase after grinding 48hr.The potassium ions of layer can be released after destroying, but that is little quantity, accounts for 0.53% of the original ore at most. The respect in the chemical ion replacing: particle size can be reduced after potassium ion exchanging with lithium ion in the layer. Its CEC value can be improved from original 3.42 meq/100g to 118.86meq/100g. And the muscovite particle size is related to potassium ion replacement among layer. Based on the test results, the particle size will be smaller if the finer potassium ion replacement of muscovite. The remnant amount of the potassium ion among layer can drop to 35.90% from 48.15% of the original ore.
Chen, Yu-Ta, and 陳昱達. "Error Measurement Methods for A-axis and Spindle of Five-axis Grinding Machine Tool." Thesis, 2015. http://ndltd.ncl.edu.tw/handle/vrbdja.
Full text國立中正大學
機械工程學系暨研究所
103
With the growing development of the modern manufacturing industry, precise and ultra-precise processing technologies are playing an important role in recent years. Computerized numerical control machine tools have become the basic manufacturing equipments in high-tech industry and are being widely used in the factory. In response to the highly competitive market, the machine tools manufacturers will naturally tend to produce highly precise products. Currently there is relatively less research on geometric error modeling and measurement technology of five-axis CNC machine tools. Therefore this thesis focuses on geometric error modeling and the analysis of the measurement method of the eccentricity error of orthogonal rotary axes. The thesis analyzes the geometric error sources and establishes the error motion equations on five-axis CNC grinding machine tools. By using the homogeneous transformation matrix (HTM), this thesis proposes the geometric error model of the five-axis machine tool and verify the validity of the error model. Also this thesis analyzes the measurement method of the geometric error of A-axis and spindle on the five-axis CNC grinding machine tool. The homogeneous transformation technology is used to get the forward kinematics, the corresponding element of the ability matrix and inverse solution, and then NC data equations are obtained according to the relation of the moving parts on the machine tool. Five different measuring postures are designed to measure the coordinates of the workpiece origin ( 、 、 ) and the active parameters.
Li, Han-Tang, and 李漢唐. "Using Six Sigma to find and Optimize the Production Parameters for Hydrostatic Bearing Grinding." Thesis, 2017. http://ndltd.ncl.edu.tw/handle/43592d.
Full text國立勤益科技大學
工業工程與管理系
105
Grinding machine in the machine tool industry is a high-precision machinery, hydrostatic bearings in the wheel spindle mechanism plays an important role, are high-precision parts, hydrostatic bearing processing stability is very important, grinding wheel spindle diameter and hydrostatic bearing bore Assembly together, the two-axis hole with the gap must be stable, the oil between the two oil film will be even between the average wheel can improve the accuracy and stability of the operation, so how to control the grinding process and grinding process parameters are sufficient Understand and master, is to enhance the grinding and hydrostatic bearing cylinder diameter of the main key. CNC grinding process, the impact of parts processing process parameters of many factors, if only based on technical experience to determine the parameters of the set value, easily lead to process instability and thus improve the rate of non-improvement, the application of six standard deviation method to improve the steps DMAIC five Stage, the case study is carried out to study the grinding process of the cylindrical diameter of the hydrostatic bearing in the internal and external diameter of the case company, and the optimization mode of the grinding process of the inner and outer diameter of the hydrostatic bearing is constructed. The key factors and the best experimental level combination in the grinding process of the cylindrical diameter of the hydrostatic bearing are found out. The key factors are experimented by the reaction surface method to find the optimum parameters of the key factors, The results show that Cpk0.82 upgrade to Cpk1.52 process capability has improved significantly, showing with Taguchi method combined with the reaction surface method for grinding process parameters optimization is feasible, the results of this study can also provide domestic grinding machine manufacturing industry as a product quality The reference.
Jiang, Yue-fong, and 蔣岳峰. "A STUDY ON THE MATHEMATICAL MODEL OF A FIVE-AXIS CNC GEAR PROFILE GRINDING MACHINE." Thesis, 2011. http://ndltd.ncl.edu.tw/handle/x4hmk4.
Full text國立臺灣科技大學
機械工程系
98
There are three methods for finishing cylindrical gears, finish hobbing, finish shaving, and finish grinding. Grinding processes can be further divided into two types: form grinding and generating grinding. In the form grinding process, it is the line contact between the grinding wheel and the gear surface. In addition, because of advances in higher efficiency and easier way to achieve the purpose of flank correction through the wheel modification, compared with the generating grinding process, the form grinding is suitable for gears with large-size and large-module. Up to now, many grinding machines in Taiwan are imported from abroad, and the key techniques are also relied on foreign manufacturers. For the gear machines, because of complicated calculation in programming NC codes, the sophisticated manufacturing software needs to be provided to generate dressing and grinding NC codes automatically. Therefore, in this thesis, we establish the mathematical model for form grinding machine. First, we develop the mathematical model of gear profile for cylindrical gear and its profile modification methods, and then the axial profile of the grinding wheel are derived based on the form grinding theory and the gear profile. Additionally, a correction method for the wheel profile is proposed. We derive the machine settings of the five-axis CNC gear profile grinding machine from the given machine settings of a universal gear profile grinding machine. According to the derived machine settings, the grinding path for form grinding process can be determined, and it can be used to program the grinding NC code. Finally, we use Visual Basic 2008 as a tool to develop the manufacturing program of five-axis CNC gear profile grinding machine.
Chang, Chin-yu, and 張欽宇. "NC PATH SIMULATION AND COLLISION DETECTION BASED ON THE FIVE-AXIS CNC GEAR PROFILE GRINDING MACHINE." Thesis, 2011. http://ndltd.ncl.edu.tw/handle/wmw734.
Full text國立臺灣科技大學
機械工程系
99
In order to improve the precision of the cylindrical gear with large-size diameter, the cylindrical gear is grinding by profile grinding wheel. There are three processes of existing simultaneous five-axis CNC gear profile grinding machine, which including dressing, grinding, and on-machine measurement. The motion of this machine is more complicated, and its precision and price are high. Once the collision of machine happens, the workpiece is declared no longer useable and the clamping fixture is damaged. Critically, the charge of the repair for the damage of machine is expensive. In order to avoid the collision of machine, dry run is implemented to test whether the NC path is correct or not before actual manufacturing. Because of the complicated process, it needs to take long time for testing. At this time, the machine is idle and the production efficiency is reduced. Having this in mind, we develop the 3-D virtual reality simulation system in this study to easily simulate the NC path which the user had planned. It’s not only saves the time for dry run, but also avoids the collision of machine. We use Visual basic 2008 as the developing platform in this study, and the 3-D graphical library of OpenGL as the foundation of graph showing to develop the 3-D virtual reality NC path simulation and collision detection system. The simulation system is divided into three parts: (1) the complier of NC code, (2) the building of 3-D volume pixel, and (3) the detection of collision.
Rababah, Mahmoud. "A Practical and Optimal Approach to CNC Programming for Five-Axis Grinding of the End-Mill Flutes." Thesis, 2011. http://spectrum.library.concordia.ca/35947/1/Rababah_PhD_F2011.pdf.
Full textZhu, Hong-Zhang, and 朱洪章. "Creating Professional System that Can Design Lone-Cone and Manufacture by Turning and Grinding on Five-Axis Machine Tools." Thesis, 2012. http://ndltd.ncl.edu.tw/handle/31262179127567500489.
Full text中華大學
機械工程學系碩士在職專班
100
Purpose of this paper is created a professional system that can design Lone-cone and manufacture by turning and grinding on five-axis machine tools. In general, manufacture the long-cone by special five-axis machine tools. because the grind of the long-cone is a unique processing technology. Now, CAD / CAM system which we know is universal, they can't effectively and quickly design and manufacture cone and they promote system uninterrupted. So, how to improve processing efficiency and processing accuracy become very important on two requirements that design complexity and high machining accuracy. Its solution in the development of a professional system, and its related technology integrated into existing CAD / CAM system, you can achieve the above purpose. Therefore, we will use secondary development to create professional system on CATIA of CAD / CAM software. This professional system consists of five modules that Modeling cone curve module、Processing planning module、Cutting simulation module、Interference checking module and Special post-processor module. We determine the best location of rotation point W which on the 5-axis machine tool axis B by using "vector" to generate optimal processing path in processing planning. Finally, manufacture long-cone to confirm this system. When we use this system to design and manufacture cone, we can decrease more time that from one week to one day. Another on upgrading machining accuracy, it is enhance greatly that promote accuracy from 20μm to 8μm and verify the effectiveness of this system.
Cai, Jia-hong, and 蔡佳宏. "A STUDY ON THE NC PROGRAMMING OF A ON-MACHINE SCANNING MEASUREMENT ON THE FIVE-AXIS CNC GEAR PROFILE GRINDING MACHINE." Thesis, 2011. http://ndltd.ncl.edu.tw/handle/59mxnr.
Full text國立臺灣科技大學
機械工程系
99
During the large-size gear manufacturing by form grinding, the actual tooth surfaces will be different from the theoretical tooth surfaces because of the clamping fixture, machine error, and force or heat deflection. Therefore, the gear tooth deviation should be measured and then the flank correction is implemented based on the gear tooth deviation to improve the precision of gear. In domestic gear industry, most gears are off-machine measurement after manufacturing, but the errors and the time-consuming between loading and unloading will reduce the precision of gear and the efficiency of production. For this reason, we develop the on-machine measurement and the precision evaluation software for cylindrical gear on the five-axis CNC gear profile grinding machine. It can immediately measure the gear tooth deviation on-machine after grinding, calculate the values of gear tooth deviation, draw the figures of deviation curve, and evaluate the accuracy grades of gear tooth. In addition, this evaluation result can be the foundation for the follow-up research about closed-loop flank correction technology. Here, the scanning measurement is implemented on this on-machine measurement to increase the speed and the precision of measurement, and the developed measuring processes include (1) the flank deviation, (2) the lead deviation, (3) the pitch deviation, and (4) the flank topographic deviation. In this thesis, the definitions of gear tooth deviation are referred to Germany and American national standards, the NC programming is referred to the measuring paths of Klingelnberg P40 gear measuring center, and the mathematical models for position of measuring probe are also derived based on the theoretical involute curve. We use Visual Basic 2008 as a tool to develop the evaluation software for gear tooth accuracy. Finally, we use the 3-D virtual reality NC path simulation and collision detection system, which are developed by Chin-Yu Chang in the precision transmission laboratory of NTUST, to simulate the NC codes of on-machine measurement. The mathematical model for the position of the measuring probe derived in this thesis is verified by the result of simulation.
Jan, Min-Xin, and 詹民歆. "A Study of the Chamfer Grinding on Glass Substrate of a Mobile-Phone with Arc Type by Five-Axis Machining Technique." Thesis, 2015. http://ndltd.ncl.edu.tw/handle/nzuuhf.
Full text國立虎尾科技大學
機械與機電工程研究所
103
The non-smart phones from early times have developed into flat-surfaced and arc-shaped smart phones nowadays. Arc-shaped phones serve ergonomic in design, so when on the calls, speakers'' cheeks can adjust closely with the phones. The audio quality of arc-shaped phones is much clearer than the flat-surfaced ones. They have flexibility, and have become a hit of new generation smart phones. The touch glass panel left countless micro-crack after its outer-edge profile cutting and a high stress concentration is deduced around there. Hence, this defect should be improved by chamfer grinding technique. But the hardness and brittleness of the glass substrate are too high to easily induce surface crack and edge-indentation while performing the mechanical machining. Also, a lot of difficulties encountered during the machining process due to its natures of high strength and low thermal conductivity. It belongs to a typically difficult-to-cut material. Furthermore, the chamfer of the outer-edge profile with arc-surface is more difficult to process than that of the flat-surface due to its bent surface configuration. In order to comply with the variations of geometrical style of phones and breakthrough the embarrassment in chamfer machining of the related curved-surface products in industry, seeking the development and establishment of the key technique for chamfer has become an important concern that the industry needs to strive. This study used CAD/CAM software to construct the geometrical model of a mobile-phone with arc type. Appropriate cutting-path and machining strategy are designed and planned, and confirmed by a simulation pertaining to cutting-tool moving path. Furthermore, a commercial software for cutting simulation is used to verify the numerical control program generated from the above plan and to check the correctness of the proposed methodology in a virtual reality cutting environment. The contact situations between the wheel and workpiece during the chamfer grinding processes are investigated and these actions whether fulfill a five-axis chamfer machining manipulation requirement are further confirmed. Vacuum chuck fulfilling this arc-surface geometry is designed and fabricated and used to clamp the thin glass substrate on a jig platform. A five-axis machining center associated with grinding wheel is used to perform the experiment for the chamfer grinding of the glass substrate. Full-factorial experiment of process parameter combinations such as wheel profile, grinding velocity, feed rate, chamfer width and working environment was organized for chamfer grinding. Grinding wheels with flat or round profile along the peripheral direction, and a traditional diamond electroplated burs were used as chamfer grinding tools. In addition, the bent-surface glass substrate chamfer experiments were conducted by two kinds of five-axis controller, respectively. Tool maker microscope was used to detect the chamfer surface morphology, edge-indentation and dimension uniformity on the chamfer width zone, and the experimental results are analyzed thoroughly and compared crossly with each other. The chamfer surface edge-indentation is used as an objective function for better process parameter determination, which is subjected to surface damage constraint. It is expectedly that the quality of surface damage and edge-indentation may fulfill the requests for industry. The results show that the controller made in Taiwan may not work properly in pair with a newly developed machine-tool in the laboratory, a small rotation error is deduced accompanied by B-axis, which results in worse dimension uniformity on chamfer width grinding. An undercut phenomenon occurred at the bottom of the arc-surface when the chamfer grinding on the concave surface side of the arc-glass by using a flat profile grinding wheel. An inclination angle of the grinder-axis should be adjusted in machining strategy design to avoid the interference point between the grinding wheel and arc-surface. But the results pertaining to chamfer surface damage has only a little difference by using these two geometrical profile wheel. Smaller chamfer surface damage is obtained under the condition of higher grinding velocity and lower feed rate. Water soluble cutting fluid offers a better cooling and lubrication actions in the primary grinding zone, the edge-indentation is thus reduced as compared with that of blowing air. Smaller surface damage and edge-indentation are obtained from the innovative strategy of chamfer grinding used in this study as compared with that of the traditional diamond electroplated burs due to a higher grinding velocity attained in the former grinding technique.