Relevant bibliographies by topics / Scribing

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

Academic literature on the topic 'Scribing'

Author: Grafiati
Published: 4 June 2021
Last updated: 29 May 2022

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Journal articles on the topic "Scribing"

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Chen, Xue Song, Xin Chen, Xin Du Chen, and Ming Sheng Yang. "Influence of Laser Scribing System in the Electrical Properties for a-Si Thin Film Solar Cell Preparation." Key Engineering Materials 552 (May 2013): 356–60. http://dx.doi.org/10.4028/www.scientific.net/kem.552.356.

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Laser scribing of hydrogenated amorphous silicon (a-Si) is a crucial step in the fabrication of thin film photovoltaic modules. The required line width of the laser scribing process for a-Si thin film solar cell preparation is 30 m~50 m, the dead zone is less than 300 m in size, and the line depth should be compliant with the process requirements. Thus, the high imaging quality and focal depth of the optical system is required in the laser scribing system. Three crucial laser patterning steps (known as P1, P2 and P3 in the photovoltaic literature) are integrated in the thin film silicon module manufacturing sequence. Therefore, efforts to optimize these laser processes are demanded by the photovoltaic industry. In particular, the state of the remaining material after laser treatment is known to have a critical influence on the electrical properties of the final devices. This paper focuses on the P3 laser scribing process with the peculiarity that it has been done in single solar cells. By evaluating it in single solar cells rather than in finished module, it is possible to isolate its effect on the device characteristics since the P1 and P2 scribings are omitted. To study the effect of the P3 scribing length, several scribings can be done in the same cell. As it will be shown, the high speed motion systems needed for precision laser scribing plays an important role in this experiment. They can be responsible for the electrical losses after the scribing of the solar cells. If this is dealt with properly, it can be seen that the P3 scribings have very little effect on the electrical characteristics of the processed solar cells.
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Myagkova, Olha. "USE OF SCRIBING AND SKETCHNOTING TECHNOLOGIES IN THE EDUCATIONAL PROCESS." Continuing Professional Education: Theory and Practice, no. 4 (2020): 90–95. http://dx.doi.org/10.28925/1609-8595.2020.4.11.

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The article is devoted to the use of scribing and sketching technologies in the educational process as visualization technologies. It is proved that in the conditions of total environment with modern information technologies and large information flows and formation of clip thinking in students, visualization that takes into account these cognitive features promotes understanding, mastering and memorization of educational material, improves learning and communication skills, increases motivation, learning, and promotes critical thinking; keeps the attention of the individual on key points, makes him an active participant in the educational process. The advantages and disadvantages of using scribing technologies in the educational process are summarized. The types of scribing and possible variants of their use are researched and analyzed. Among them are painted, application, magnetic, flannel, which involves the use of flannel (carpet linograph). technologies for using special programs or online services to create online scribing (computer, animation, video scribing) is emphasised. Scribbing facilitation is singled out, which involves the translation of information from verbal to visual form. Attention is paid to the study of the positive impact of visualization on the assimilation and comprehension of material through sketching technologies: they increase student involvement in learning, encourage more effective strategies and promote key skills, including creative thinking, communication and skills to build and present knowledge. The main models of sketchouting and their variants of use are investigated: linear, vertical, radial, modular, trajectory, skyscrapers or columnar, popcorn.
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Cramer, Franz Anton. "De-Scribing Dance, In-Scribing Biography." Performance Research 8, no. 4 (January 2003): 77–83. http://dx.doi.org/10.1080/13528165.2003.10871971.

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Wang, Jian, Qiang Liu, Pengpeng Sun, Zhiwei Ning, and Liuquan Wang. "Study on Model and Experimental of Laser Scribing Parameter of Maskant in Chemical Milling for Aerospace Applications." Applied Sciences 12, no. 6 (March 12, 2022): 2914. http://dx.doi.org/10.3390/app12062914.

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In order to solve the problems of multiple process parameters, difficult control and high process requirements in laser first/second scribing of aerospace chemical milling thin-wall parts, a laser scribing depth model based on thermal energy balance was established, and the relationship between laser power and speed was established with scribing depth as a target. Using AC850 laser scribing maskant as coating material, the effects of laser power, scribing speed, laser frequency, forward angle and side slope angle on the scribing depth were studied by single factor experiment. Experimental results show that the theoretical model is in good agreement with experimental data. The laser scribing depth is positively proportional to the laser power and inversely proportional to the laser speed and has little relationship with the laser frequency. The predicted accuracy of the mathematical equations regarding the laser power density and scribing depth, calculated by the laser power, speed and scribing depths experimental data, are 88.53% and 90.79%. The laser scribing depth at a forward angle of 6° and a side slope angle of 7° is deeper compared with the vertical incident scribing depth, and the angle is also the recommended angle of laser scribing. Based on the simplified regression model, the laser scribing depth model can be directly used in the laser NC system to realize the adaptive adjustment and accurate control of laser energy according to the actual laser speed.
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Wang, Jian, Qiang Liu, Pengpeng Sun, Chenxin Zang, Liuquan Wang, Zhiwei Ning, Ming Li, and Hui Wang. "Research Status and Prospect of Laser Scribing Process and Equipment for Chemical Milling Parts in Aviation and Aerospace." Micromachines 13, no. 2 (February 18, 2022): 323. http://dx.doi.org/10.3390/mi13020323.

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Laser scribing in chemical milling is an important process which can effectively improve the precision and efficiency of chemical milling, and is of great significance to improve the thrust–weight ratio and manufacturing efficiency of aviation and aerospace parts. According to the scribing requirements in chemical milling for aviation and aerospace parts, the process and mechanism of laser scribing were studied and the influence of different process parameters for the quality of laser scribing was analyzed. Based on the review of related research literature, the laser scribing process, the ablation mechanism and technology of different materials and the selective laser removal process for “laser–coating–substrate” are summarized and discussed. Based on the requirements of high-precision laser scribing on complex surfaces, the current situation of laser scribing equipment is summarized. Finally, the practical challenges and key technical problems for the laser scribing process are summarized, and the application and development of laser scribing in aerospace manufacturing are prospected.
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Zener, R. "scribing death." Canadian Medical Association Journal 184, no. 14 (April 30, 2012): E780. http://dx.doi.org/10.1503/cmaj.111725.

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Chyr, Irving, Cheng Peng, Ji Wang, and Jonathan Halderman. "Studies and Applications of Advanced Laser Scribing for High Brightness LEDs." Additional Conferences (Device Packaging, HiTEC, HiTEN, and CICMT) 2012, DPC (January 1, 2012): 000684–705. http://dx.doi.org/10.4071/2012dpc-ta42.

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The optical and electrical properties of LEDs scribed using both traditional and advanced laser scribing were investigated. Variations in scribe line texture and depth were examined and monitored for both laser types using both optical and electron microscopy. Simulation was conducted and verified by the experimental results on laser scribing depth versus LED light output. The metrology techniques also correlated the sidewall roughness with light output of LED between traditional and advanced laser scribing. Improvements by the advanced laser scribing were demonstrated for different LED designs, such as DBR with metal mirrors. Our study showed that the advanced laser scribing is comparable to the sidewall etching process which is the current industrial standard. Our advanced laser scribing system can process different types of metal mirrors on top of DBR structures in a single tool solution. We also presented our latest results on the emerging new substrates of vertical LEDs on Si and other advanced non-sapphire substrates.
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Akiyama, Yusuke, Mutsumi Okada, Hirofumi Suzuki, Toshio Fukunishi, Yoshiyuki Asai, Noriyuki Ogasawara, and Kazuma Iizawa. "Scribing Characteristics of Glass Plate with Ground PCD Scribing Wheel." International Journal of Automation Technology 12, no. 5 (September 5, 2018): 760–66. http://dx.doi.org/10.20965/ijat.2018.p0760.

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Polycrystalline diamond (PCD) tools are widely used for cutting tools because PCD has no crystal orientation and is an isotropic material, it is low in cost, and it is easily machined by electric discharge machining. PCD is sintered from diamond abrasives with an alloy metal, such as cobalt, and it is difficult to reduce the surface roughness and the edge accuracy compared with single crystal diamond. In this study, high efficiency and high precision machining of the PCD wheel were investigated. In the experiments, PCD wheels were ground with a diamond wheel, and the effects of the grinding direction and the load on the tool preciseness and the scribing performance were examined.
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Huang, Y., Y. Liu, and G. L. Zhu. "Investigation of Laser Scribing Technics for Reducing Core Loss of Grain-Oriented Silicon Steels." Key Engineering Materials 455 (December 2010): 141–45. http://dx.doi.org/10.4028/www.scientific.net/kem.455.141.

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A laser is often considered to scribe the steel surfaces after cold-rolling and annealing to reduce the energy losses associated with hysteresis and eddy currents. In order to maximize the loss reduction of this process, the laser scribing technics was investigated in details. In this work, three laser scribing parameters including pulse energy, scanning velocity and scribing spacing, which are highly related to the loss reduction, were selected for the study. A L9(34) orthogonal experiment was designed and carried out by an Nd:Yag laser marking machine. The results indicate that the subsequence of significance of the three factors on core loss reduction is as follows: pulse energy, scribing spacing and scanning velocity. And an optimized combination of parameters is obtained by range method.
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Huang, Yu, Yong Liu, and Guo Li Zhu. "Parameter Optimization of Laser Scribing Technics of 30Q130 Grain-Oriented Silicon Steel Based on Genetic Neural Network." Applied Mechanics and Materials 37-38 (November 2010): 844–48. http://dx.doi.org/10.4028/www.scientific.net/amm.37-38.844.

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A laser is often considered to scribe the grain-oriented silicon steel surfaces after cold-rolling and annealing to reduce the core loss. It is necessary to select the best scribing parameters to maximize the reduction in this process. This paper proposed an optimization method of genetic algorithm during laser scribing of 30Q130 steel, by developing an artificial neural network prediction model using a database form a designed orthogonal experiment. The objective was to determine the best combination values of three important scribing parameters, namely scribing velocity, pulse energy and scanning spacing, that can get the largest core loss reduction. An optimized combination of parameters was obtained by this method and then validated by an adding experiment. The result indicates that the optimization model is reliable.
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Dissertations / Theses on the topic "Scribing"

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Tipton, Lee James. "Scribing place : textured transformation across the prison(er) canvas." Thesis, Lancaster University, 2011. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.618808.

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'Scribing place' Is a qualitative study set In one prison for eighteen months, and one probation hostel for one month that responds to three core questions about how and where. why and with what effect male prisoners write, mark, scratch and texture carceral and semi-carceral space. This research was born from an Interest in prisoners' writings as activities that mediate the soda-cultural interrelationships and spaces of a prison community commonly considered illiterate. However. this Is not the kind of writing that passes exams or gets published as novels or short stories, but the tags, messages, notes, letters and body marks that characterise and mediate the 'of course' aspect of our social landscapes. These are the writings that are often ignored, or at least dismissed as sociocultural footnotes, rather than material for 'main text' interpretation. This work draws from ethnographic methodologies such as participant observation and conversations, while developing a more novel form of focussed workshop, in order to engage in an Intersubjectlve dialogue with prisoners. Having developed a geo-sociolinguistic framework this research explores prisoners' writings through posing and responding to questions about the relationship between writing/texts, people and space. The findings were that the prison Is subject to a series of textured transformations that create two forms of change• firstly, the transformation of unsafe carceral space Into various pockets of safe place, and secondly, numerous changes . some successful, other not - to a prisoner's sense of self. The hostel was found to be a deeply liminal, anti-place where. In order to secure release, prisoners struggled to comply with the demands of 'residency', in particular constant threshold crossing between the seml-carceral (hostel) and the freedom of the outside world.
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Love, Bryan Matthew. "Mechanical and Laser Scribing For Use As Precision Shaping Techniques." NCSU, 2001. http://www.lib.ncsu.edu/theses/available/etd-20010511-103227.

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The purpose of this research has been to develop a model for mechanical and laser scribing processes used in the manufacture of hard disk drive heads. The scribing techniques are used to create small distortions on thin plates, allowing control over the shape of the plate. Analytical models for the scribing techniques allow more accurate control over the shape of the hard drive head, therefore increasing the performance of the drive. Using finite element techniques, prior models of mechanical scribing were extended to the three-dimensional case, allowing varying scribe length and placement. A force model for laser scribes was developed using similar finite element techniques and calibrated using experimental results. The laser scribing force model was parameterized, allowing the distortions by wide variety of scribes to be computed using simple equations. Consideration was given to modeling multiple scribes and complicated scribing geometries. Experimental results indicate that the model has a high degree of accuracy over a wide range of scribing geometries.

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Cannon, Bennion R. "Design and analysis of end-effector systems for scribing on silicon /." Diss., CLICK HERE for online access, 2003. http://contentdm.lib.byu.edu/ETD/image/etd259.pdf.

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Cannon, Bennion Rhead. "Design and Analysis of End-Effector Systems for Scribing on Silicon." BYU ScholarsArchive, 2003. https://scholarsarchive.byu.edu/etd/95.

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This thesis investigates end-effector systems used in a chemomechanical scribing process. Chemomechanical scribing is a method of patterning silicon to selectively deposit a monolayer of material on the surface of the silicon. This thesis details the development of a unique end-effector for chemomechanical scribing using a compliant mechanism solution. The end-effector is developed to scribe lines that have uniform geometry and produce less chipping on the surface of the silicon. The resulting scribing mechanism is passively controlled, has high lateral stiffness, and low axial stiffness. The mechanism is analyzed using the pseudo-rigid-body model and linear-elastic beam method to determine the axial stiffness, finite element methods to determine the lateral stiffness, and fatigue analysis to determine mechanism cycle life. This thesis also investigates the significance of mechanical factors on the chemomechanical scribing process using the compliant end-effector. The factors examined are scribing force, scribing speed, tip geometry, wafer orientation, and wetting liquid. The factors are analyzed using a two-step approach: first, an analysis of the influence of the mechanical factors on line characteristics and second, an analysis of the influence of line characteristics on line performance.
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Козловська, Ганна Борисівна, Анна Борисовна Козловская, and Hanna Borysivna Kozlovska. "Scribing as innovative means of teaching in the foreign language classroom." Thesis, Національний авіаційний університет, 2019. http://essuir.sumdu.edu.ua/handle/123456789/74989.

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Скрайбінг – це інноваційна технологія аудіовізуальної підтримки навчального процесу. Головним у змістовій інтерпретації поняття скрайбінг є візуалізація інформації, а його головним завданням – відтворення інформації у привабливій для слухача і глядача формі для кращого її запам’ятовування і засвоєння. Використання скрайбінгу надає роботі привабливості, творчого характеру, сприяє зацікавленню студентів у набутті нових предметних знань і технологічних умінь.
Скрайбинг – новейшая техника презентации (от английского ‘scribe’ – набрасывать эскизы или рисунки), графический способ привлечь внимание аудитории и обеспечить ее дополнительной информацией. Скрайбинг превращает тезисы презентации в слова и образы, обрисовывает связи и подчеркивает ключевые моменты.
Scribing is a graphic means of attracting audience’s attention and providing students with additional information. Scribing turns the presentation or lecture into words and images, identifying connections and key moments. Teachers using innovative technologies in the foreign language classroom make students think creatively, make unusual decisions and promote student’s self-development.
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Jamshidi, Gohari Ebrahim. "Buried screen-printed contacts for silicon solar cells." Thesis, Högskolan Dalarna, Energi och miljöteknik, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:du-13593.

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A Simple way to improve solar cell efficiency is to enhance the absorption of light and reduce the shading losses. One of the main objectives for the photovoltaic roadmap is the reduction of metalized area on the front side of solar cell by fin lines. Industrial solar cell production uses screen-printing of metal pastes with a limit in line width of 70-80 μm. This paper will show a combination of the technique of laser grooved buried contact (LGBC) and Screen-printing is able to improve in fine lines and higher aspect ratio. Laser grooving is a technique to bury the contact into the surface of silicon wafer. Metallization is normally done with electroless or electrolytic plating method, which a high cost. To decrease the relative cost, more complex manufacturing process was needed, therefore in this project the standard process of buried contact solar cells has been optimized in order to gain a laser grooved buried contact solar cell concept with less processing steps. The laser scribing process is set at the first step on raw mono-crystalline silicon wafer. And then the texturing etch; phosphorus diffusion and SiNx passivation process was needed once. While simultaneously optimizing the laser scribing process did to get better results on screen-printing process with fewer difficulties to fill the laser groove. This project has been done to make the whole production of buried contact solar cell with fewer steps and could present a cost effective opportunity to solar cell industries.

In collaboration with Institute for Photovoltaics IPV, University of Stuttgart.

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Riley, Bradley Elkins. "Evaporative Etching for Non-Contact Glass Scribing using a Single-Mode Ytterbium Fiber Laser." NCSU, 2007. http://www.lib.ncsu.edu/theses/available/etd-04192007-093539/.

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Laser glass cutting is a process which involves using a laser to either scribe or completely cut glass in place of using a mechanical cutter. The concept of using a laser to cut glass has been established for quite some time however, it wasn?t sought after for industrial application until just recently. With the increase in demand for flat screen televisions, PDA?s, MP3 players and the like, so increased the demand for an efficient non-contact glass cutting method. The two most common types of laser glass cutting processes are short pulsed ablation and thermal shock. While each of these techniques has its own advantages, they have yet to be a complete solution to the demand. Short pulsed ablation tends to create a rough, jagged edge not unlike the defects created by the conventional mechanical glass cutting methods. Thermal shock has successfully separated glass, however, this process requires a trigger crack for glass separation, and as such, the process is unable to perform small precise cuts. A relatively new laser glass processing technique has been established, where, a pulsed laser is used to effectively ablate the surface of glass by focusing through the glass substrate and onto the surface of either silver or copper. As the laser collides with the surface of the metal it vaporizes a small portion of the material, the vapor and plasma particles are sent at high speed toward the lower surface of glass, where it creates a mark in the surface. While this process has successfully marked the surface of glass, attempts at through ablation resulted in damage to the glass surface due to a high absorption after the first few pulses. This paper presents the fundamental application of LIPAA through the use of a low power, continuous wave laser. During the process, a continuous wave laser vaporizes a portion of the aluminum, where, the vapor is then used to thermally etch a scribe in the surface of glass. This new form of scribe generation has the potential to separate glass with little to no defects, thereby, reducing wasted material and strengthening the glass edge.
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Ord, Jennifer. "De-scribing the Timaeus: a transgression of the (phal) logocentric convention that discourse has only one form, language." Thesis, Port Elizabeth Technikon, 2002. http://hdl.handle.net/10948/115.

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Like writing, art making is primarily a means of human expression, a means of communication – both “allow us to categorize our (inner and outer) environment as represented by symbols” (Appignanesi, 1999: 7). Yet it is language in the traditional Western garb of rational, philosophical discourse that has been perceived as the primary means of manifesting knowledge and positing truth, not only regarding the character of human existence, but also the nature of art. This infers the acceptance of both works as literally “truth of things”, and of “a language of reason” that “perfectly represents the real world” (Appignanesi, 1999: 77). Going against the grain of this traditional bias, Jacques Derrida holds that, firstly, “human knowledge is not as controllable or as cogent as Western thinkers would have it”: secondly, that language functions in “subtle and often contradictory ways” thus rendering certainty, truth, and perfect representation ever elusive to us (Lye, 1997: 2); and, thirdly, that “practices of interpretation which include art but are not limited to language, are extended discourses” (Appignanesi, 1999: 79). So, the “work of reason” (or rationalism) in this sense, is no longer the definitive “voice” of authority when it comes to ascribing meaning, proclaiming a message, defining truth, etc. Having the grip of its authority loosened and thus its rigid, imposing borders opened up, the communication of knowledge as a form of “aesthetic fiction” (Megill, 1987: 265) is allowed entry into the rarefied field of philosophical discourse. Moreover, if visual art (one such “aesthetic fiction”) is a process of sign-making, as is written and spoken language; if it therefore constitutes a signifying system, as does written and spoken language (Bal and Bryson in Preziosi, 1998: 242); and, if art is not just about autonomous, in-house formalism, then can it not, in any case, validly offer a form for discourse, albeit a different kind of discourse, a discourse that is not “truth seeking” (Sim, 1992: 33)? Here, the maker of the proposed artwork-asdiscourse would not be attempting to establish the truth or falsity of a philosophical position, but, as Derrida would have it, create a form which, without mimicry, would evocatively allude to Plato, his “deconstructor” and the maker of the proposed artwork. Discourse in this sense, then, would generate “active interpretation… infinite free association” (Megill, 1987: 283), because, as in Derrida’s writing, interpretation no longer aims at “the reconciliation or unification of warring truths (Sim, 1992: 10); in other words, it breaks with the (phal)logocentric tradition of discourse as dialectical and becomes questioning without closure. For visual art to enter the exalted arena of philosophical discourse, it cannot be selfreflexive in the Greenbergian or formalist sense – it has to be about something philosophical and this ‘something’ will be a deconstructive response to Plato’s doctrine of the two worlds in the Timaeus. What I propose presenting, then, is an imagographic rather than (phal)logocentric exposition of philosophical content where the aim is not to shape a certainty or to infer an absolute presence or essence of anything, but rather to suggest traces of the maker of the artwork reading Derrida, reading Plato. The proposed artwork as a response to texts will thus be a “pre-text” of my own endeavour.
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Gardner, Paul. "Scribing the writer : implications of the social construction of writer identity for pedagogy and paradigms of written composition." Thesis, University of Bedfordshire, 2014. http://hdl.handle.net/10547/345674.

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A reflexive analysis of five peer reviewed published papers reveals how socio-cultural and political discourses and individual agency compete to shape the identity of the learner-writer. It is posited that although hegemonic political discourses construct ‘schooling literacy’ (Meek 1988 ) which frame the socio-cultural contexts in which texts, authors, teachers and leaners develop; the socio-cultural standpoint of the individual makes possible conscious construction of counter discourses. Writer identity is integral to the compositional process. However, writer identity is mediated by, on the one hand, dominant discourses of literacy that inform current pedagogies of writing (Paper One) and on the other by socio-cultural narratives that shape identity (Paper Three). A synthesis of Gramsci’s notion of cultural hegemony and Bronfenbrenner’s ecological systems theory is used to explain the constraining function of dominant discourses in literacy education. These works largely fall within a qualitative paradigm, although a mixed-method approach was adopted for the data collection of Papers Four and Five. The methods these papers had in common were the use of survey and documentary analysis of reflective journals. A semi-structured interview with a focus group was the third method used to collect data for Paper Five. Individual semi-structured interviews were used to collect partial life-histories for Paper Two and textual analysis of pupils’ narrative writing was the main method used for Paper One. Paper Three involved a rhizotextual auto-ethnographic analysis of original poetry. Findings suggest pedagogies which minimise or negate the identity of the writer are counter-productive in facilitating writer efficacy. It is suggested, the teaching of writing should be premised on approaches that encourage the writer to draw upon personal, inherited and secondary narratives. In this conceptualisation of writing, the writer is simultaneously composing and exploring aspects of self. However, the self is not a fixed entity and writing is viewed as a process by which identity emerges through reflexive engagement with the compositional process. The corollary is that pedagogy of writing needs to embrace the identity of the writer, whilst also allowing space for the writer’s ‘becoming’.
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Asogan, Dhinesh. "A non-contact laser ablation cell for mass spectrometry." Thesis, Loughborough University, 2011. https://dspace.lboro.ac.uk/2134/11014.

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A common analytical problem in applying LA sampling concerns dealing with large planar samples, e.g. gel plates, Si wafers, tissue sections or geological samples. As the current state of the art stands, there are two solutions to this problem: either sub-sample the substrate or build a custom cell. Both have their inherent drawbacks. With sub-sampling, the main issue is to ensure that a representative is sample taken to correctly determine the analytes of interest. Constructing custom cells can be time consuming, even for research groups that are experienced or skilled, as they have to be validated before data can be published. There are various published designs and ideas that attempt to deal with the issue of large samples, all of which ultimately enclose the sample in a box. The work presented in this thesis shows a viable alternative to enclosed sampling chambers. The non-contact cell is an open cell that uses novel gas dynamics to remove the necessity for an enclosed box and, therefore, enables samples of any arbitrary size to be sampled. The upper size limit of a sample is set by the travel of the XY stages on the laser ablation system, not the dimensions of the ablation cell.
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Books on the topic "Scribing"

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(In)scribing body/landscape relations. Walnut Creek, CA: AltaMira Press, 2000.

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Nistor, Vlad. De-scribing the end of Roman Britain. [S.l.]: British Cultural Studies Research Centre, 1996.

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Morrow, William S. Scribing the center: Organization and redaction in Deuteronomy 14,1-17,13. Atlanta, Ga: Scholars Press, 1995.

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Scribing the center: Organization and redaction in Deuteronomy 14:1-17:13. Atlanta, Ga: Scholars Press, 1995.

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Alejo, Myrna J. [De]scribing elections: A study of elections in the lifeworld of San Isidro. Quezon City, Philippines: Institute for Popular Democracy, 1996.

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Bhogal, Balbinder S. De-scribing guramati: Some preliminary reflections on the hermeneutics of Sikh thought and praxis. London: School of Oriental Studies, 1998.

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Absence from felicity: The story of Helen Schucman and her scribing a Course in miracles. Roscoe, NY: Foundation For A Course In Miracles, 1991.

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Spender, Dale. Scribbling sisters. Norman: University of Oklahoma Press, 1987.

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Baurmann, Jürgen, Hartmut Günther, and Ulrich Knoop, eds. Homo scribens. Berlin, New York: DE GRUYTER, 1993. http://dx.doi.org/10.1515/9783111377087.

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Lynne, Spender, ed. Scribbling sisters. London, England: Camden Press, 1986.

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Book chapters on the topic "Scribing"

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Rodriguez, N., R. J. Ruiz, C. Marquez, and F. Gamiz. "Scribing Graphene Circuits." In Future Trends in Microelectronics, 207–16. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2016. http://dx.doi.org/10.1002/9781119069225.ch2-8.

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Kaplan, A. F. H. "Marking and Scribing." In Handbook of the EuroLaser Academy, 455–72. Boston, MA: Springer US, 1998. http://dx.doi.org/10.1007/978-1-4615-5297-0_7.

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Yamamoto, Koji. "Glass Scribing (Processing) Methods Using Thermal Stresses Induced by Laser Heating." In Encyclopedia of Thermal Stresses, 1992–98. Dordrecht: Springer Netherlands, 2014. http://dx.doi.org/10.1007/978-94-007-2739-7_5.

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Ogorodnikov, A. I., and Yu N. Zhukov. "Predictive Modeling of Scribing Brittle Material Using Diamond Tool with Improved Geometry." In Proceedings of the 4th International Conference on Industrial Engineering, 1867–74. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-95630-5_200.

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Austin, B. W., T. Randall, and R. O. Scattergood. "Residual Stress Bend Effect Due to Diamond-Tip Scribing of an Al2O3-TiC Composite Cerami." In Ceramic Transactions Series, 117–29. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2012. http://dx.doi.org/10.1002/9781118407042.ch11.

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Ahn, Seung Joon, Chul Geun Park, J. S. Lim, K. H. Baik, Dae Wook Kim, Ho Seob Kim, and S. Ahn. "Improvement of the Core Loss of SiFe by Optimizing the Operation Conditions of the Laser Scribing." In Materials Science Forum, 194–97. Stafa: Trans Tech Publications Ltd., 2006. http://dx.doi.org/10.4028/0-87849-995-4.194.

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Richter-Gebert, Jürgen, and Ulrich H. Kortenkamp. "Scribbling." In The Cinderella.2 Manual, 423–26. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-540-34926-6_19.

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Pickstone, John, and Roberta Bivins. "Introduction: ‘De Omni Scribili’." In Medicine, Madness and Social History, 1–13. London: Palgrave Macmillan UK, 2007. http://dx.doi.org/10.1057/9780230235359_1.

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Masiello, Francine. "Scribbling on the Wreck." In Telling Ruins in Latin America, 27–38. New York: Palgrave Macmillan US, 2009. http://dx.doi.org/10.1057/9780230623279_3.

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Honda, Kohei, Aybek Mukhamedov, Gary Brown, Tzu-Chun Chen, and Nobuko Yoshida. "Scribbling Interactions with a Formal Foundation." In Distributed Computing and Internet Technology, 55–75. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-19056-8_4.

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Conference papers on the topic "Scribing"

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Sarcevic, Aleksandra. ""Who's scribing?"." In the 28th international conference. New York, New York, USA: ACM Press, 2010. http://dx.doi.org/10.1145/1753326.1753611.

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Li, Yongzheng, and Qiu'e Zhang. "Precision laser scribing machine." In Optoelectronic Science and Engineering '94: International Conference, edited by Wang Da-Heng, Anna Consortini, and James B. Breckinridge. SPIE, 1994. http://dx.doi.org/10.1117/12.182080.

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Zhao, Xin, Yunfeng Cao, Qiong Nian, Gary Cheng, and Yung C. Shin. "Control of Ablation Depth and Surface Structure in P3 Scribing of Thin-Film Solar Cells by a Picosecond Laser." In ASME 2014 International Manufacturing Science and Engineering Conference collocated with the JSME 2014 International Conference on Materials and Processing and the 42nd North American Manufacturing Research Conference. American Society of Mechanical Engineers, 2014. http://dx.doi.org/10.1115/msec2014-4042.

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In this paper, precise P3 scribing of thin-film solar cells (AZO/CIGS/Mo/Glass) via a picosecond laser is investigated. A parametric study is carried out for P3 scribing to study the effects of laser fluence and overlap ratio on ablation depth and slot quality, supported by the numerical prediction using a two-temperature model. The optimum scribing conditions are determined, and the potential processing speed is increased. Laser induced periodic surface structures are also presented after the scribing process, which can potentially enhance the absorption of the cell surface and consequently increase the cell efficiency.
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Cannon, Bennion R., Spencer P. Magleby, Larry L. Howell, Guilin Jiang, Travis L. Niederhauser, and Matthew R. Linford. "Influence of Scribe Speed and Force on Chemomechanical Nanofunctionalized Features." In ASME 2002 International Mechanical Engineering Congress and Exposition. ASMEDC, 2002. http://dx.doi.org/10.1115/imece2002-33554.

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Researchers at Brigham Young University have recently developed a new method for preparing monolayer films on silicon surfaces. The method consists of wetting the wafer with a reactive organic liquid, mechanically scribing a feature on the surface of the wafer while it is immersed, and cleaning the surface to remove the organic liquid and any silicon particles that are produced by scribing. The objective of this paper is to present preliminary results on understanding how the scribed features and their performance are affected by the mechanical characteristics of the scribing system. Performance is simply judged here by the amount of water a hydrophobic square (corral) can hold. Testing was performed to determine the influence of tip force and scribing speed on the geometry and performance of the scribed lines. Lower forces produced smoother lines, however the corrals that were formed using a high force were shown to hold the most water.
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Wallner, Thomas W., Andrew D. Oliver, and Paul L. Bergstrom. "Scribe-and-Break for Post Release MEMS Die Separation." In ASME 2004 International Mechanical Engineering Congress and Exposition. ASMEDC, 2004. http://dx.doi.org/10.1115/imece2004-61667.

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We describe a post release die separation process for polysilicon surface micromachines using a combination of diamond scribing and breaking. The process resulted in yields above 80% for two types of electrostatic actuators. The paper describes the experimental apparatus and optimization of the process using a four parameter design of experiments. We determined that the two key parameters in the scribe-and-break process are the scribe force and the scribe angle. We also examined the theory of crack creation during the scribing process and determined experimentally that the crack depth in silicon is consistent with the theory developed for the scribing of glass.
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Rosengrant, David. "Gaze scribing in physics problem solving." In the 2010 Symposium. New York, New York, USA: ACM Press, 2010. http://dx.doi.org/10.1145/1743666.1743676.

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Frei, Bruno, Stefan Schneeberger, and Reiner Witte. "Innovative laser based solar cell scribing." In SPIE LASE, edited by Bo Gu, Guido Hennig, Xianfan Xu, and Hiroyuki Niino. SPIE, 2011. http://dx.doi.org/10.1117/12.877060.

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Long, Yuhong, Youqun Tong, Jiading Bao, and Tanggao Feng. "Study on Underwater Laser Scribing Technique." In 2015 2nd International Forum on Electrical Engineering and Automation (IFEEA 2015). Paris, France: Atlantis Press, 2016. http://dx.doi.org/10.2991/ifeea-15.2016.62.

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Riffe, William J. "Scribing of Coated Steels for Corrosion Testing." In 1986 SAE Automotive Corrosion and Prevention Conference and Exposition. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 1986. http://dx.doi.org/10.4271/862031.

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Wang, Minfeng, and Yuxing Zhao. "Laser scribing of thin film solar cells." In PICALO 2010: 4th Pacific International Conference on Laser Materials Processing, Micro, Nano and Ultrafast Fabrication. Laser Institute of America, 2010. http://dx.doi.org/10.2351/1.5057263.

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Reports on the topic "Scribing"

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Compaan, A. D., U. Jayamaha, I. Matulionis, and M. J. Miller. Optimization of laser scribing for thin-film PV modules. Annual technical progress report, 12 April 1995--11 April 1996. Office of Scientific and Technical Information (OSTI), October 1996. http://dx.doi.org/10.2172/385593.

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Compaan, A. D., I. Matulionis, and S. Nakade. Optimization of laser scribing for thin-film PV modules. Final technical progress report, 12 April 1995--11 October 1997. Office of Scientific and Technical Information (OSTI), June 1998. http://dx.doi.org/10.2172/654090.

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