Academic literature on the topic 'Screen-printing technique'
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Journal articles on the topic "Screen-printing technique"
Tobroni, Muhammad Imam. "Teknik Sablon sebagai Media Apresiasi Karya Desain pada Tshirt." Humaniora 2, no. 1 (April 30, 2011): 169. http://dx.doi.org/10.21512/humaniora.v2i1.2968.
Full textNovitasari, Dwi. "Kajian Estetika Melalui Bentuk Keseimbangan Ilustrasi Durga Dengan Teknik Sablon Discharge Sederhana." Jurnal Bahasa Rupa 1, no. 2 (April 21, 2018): 73–80. http://dx.doi.org/10.31598/bahasarupa.v1i2.263.
Full textMore, Prof Roshan Singh, Mohd Sohel Raza, Pratik Sirsat, Vaibhav Ingale, Rahul Kurhade, and Dhananjay Ladole. "Research Paper on Screen Printing Machine for Cylindrical Shape." International Journal for Research in Applied Science and Engineering Technology 10, no. 5 (May 31, 2022): 3219–21. http://dx.doi.org/10.22214/ijraset.2022.43046.
Full textMariappan, Siva Ananth, Jayasudha Velayutham, Gopi Karuppaiah, Sindhu Monica Murugesan, Praveen Kumar Sekhar, and Pandiaraj Manickam. "Low-Cost Printed Point-of-Care Electrochemical Sensors for Detecting Cortisol." ECS Meeting Abstracts MA2022-02, no. 62 (October 9, 2022): 2292. http://dx.doi.org/10.1149/ma2022-02622292mtgabs.
Full textLuzar, Laura Christina. "Kreasi Cetak Sablon Mudah dan Berkualitas Tinggi pada Kaos." Humaniora 1, no. 2 (October 31, 2010): 778. http://dx.doi.org/10.21512/humaniora.v1i2.2919.
Full textHanif, Irsyad Farhan, Yuniman Zebua, and Pitriyani Pitriyani. "The Effect Of Price, Promotion Social Media And Product QualityOn Income Business Of Screen Printing 289 Farhan Design." International Journal of Science, Technology & Management 3, no. 2 (March 26, 2022): 363–67. http://dx.doi.org/10.46729/ijstm.v3i2.493.
Full textVijatovic, Mirjana, Jelena Bobic, Biljana Stojanovic, and Barbara Malic. "Barium titanate thick films prepared by screen printing technique." Processing and Application of Ceramics 4, no. 2 (2010): 53–58. http://dx.doi.org/10.2298/pac1002053v.
Full textZhang, Dongshe, Seigo Ito, Yuji Wada, Takayuki Kitamura, and Shozo Yanagida. "Nanocrystalline TiO2Electrodes Prepared by Water-Medium Screen Printing Technique." Chemistry Letters 30, no. 10 (October 2001): 1042–43. http://dx.doi.org/10.1246/cl.2001.1042.
Full textNagata, R. "A glucose sensor fabricated by the screen printing technique." Biosensors and Bioelectronics 10, no. 3-4 (1995): 261–67. http://dx.doi.org/10.1016/0956-5663(95)96845-p.
Full textAbdul, Samat, Wan Yusoff, Nurul Baharuddin, Mahendra Somalu, Andanastuti Muchtar, and Nafisah Osman. "Electrochemical performance of sol-gel derived La0.6S0.4CoO3-δ cathode material for proton-conducting fuel cell: A comparison between simple and advanced cell fabrication techniques." Processing and Application of Ceramics 12, no. 3 (2018): 277–86. http://dx.doi.org/10.2298/pac1803277a.
Full textDissertations / Theses on the topic "Screen-printing technique"
Anderson, John Thomas. "An investigation into the physical aspects of the screen printing process." Thesis, Swansea University, 1997. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.521493.
Full textDe, Silva Kandaudage Channa R. "Effect of Manufacturing Technique on Electrochemical Response of a Sulfur Tolerant Planar Solid Oxide Fuel Cell Anode." Ohio University / OhioLINK, 2008. http://rave.ohiolink.edu/etdc/view?acc_num=ohiou1225992967.
Full textBartholomew, Anthony J. "Phillip Wall: Studies in Field Imagery Utilizing Screen Printing and Low Relief Techniques." [Kent, Ohio] : Kent State University, 2008. http://rave.ohiolink.edu/etdc/view?acc%5Fnum=kent1208975444.
Full textBroman, Eva. "Printable Biosensors based on Organic Electrochemical Transistors with a Platinized Gate Electrode." Thesis, Linköpings universitet, Institutionen för fysik, kemi och biologi, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-87641.
Full textSahare, Swapnil Ashok. "Enhancing the Photovoltaic Efficiency of a Bulk Heterojunction Organic Solar Cell." TopSCHOLAR®, 2016. http://digitalcommons.wku.edu/theses/1609.
Full textChien-ChihChen and 陳建志. "Fabrication of CuInGaSe2 solar cells by screen printing technique." Thesis, 2013. http://ndltd.ncl.edu.tw/handle/63515184938391460390.
Full text國立成功大學
微電子工程研究所碩博士班
101
In this study , using the CuInGaSe2 nano powder , KD1 dispersant and ethyl cellulose formulated into uniform slurry. Using the slurry fabricated CuInGaSe2 thin films by screen priting and Two-stage heat treatment completed p-CuInGaSe2.Advantages of screen printing are low equipment cost , easy fabrication , negligible waste of chemicals and possibility to deposit over large area. The disadvantages of the film are difficult to control the thickness and easy have carbon residue.The CdS thin film is fabricated by CBD method and use different sources of cadmium. The thin films of p-CIGS and n-CdS analysis by SEM, EDS, Raman spectroscopy, XRD, Hall electrical measurements, UV-VIS transmittance measurement and energy gap conversion. Finally, the optimal CIGS film was applied as the absorber layer for device configuration: SLG/Mo/CIGS/CdS/ZnO/AZO/ Al.Measuring the CIGS device with area of 0.25cm2, CdS fabricated by cadmium sulfate has conversion efficiency of 1.39% and CdS fabricated by cadmium chloride has conversion efficiency of 0.99%.
CHEN, YU, and 陳佑. "Apply Six Sigma to Screen Printing Quality Improvement based on Taguchi Method and Computational Intelligence Technique." Thesis, 2019. http://ndltd.ncl.edu.tw/handle/353gce.
Full text國立臺北大學
企業管理學系
107
To fulfill electronic device’s fast-change and innovative fancy design requirement, transparent series color ink with LED backlit design is massively applied in the industry. Because the composition of transparent color ink is quite different from traditional ink, it is difficult to control the printing flatness, quality consistency and backlit performance. The manufacture process is lack of systematic control. According to the high inspection standard of electronic device, the manufacture showed low yield and high quality cost. This study followed the framework of Six Sigma DMAIC methodology for improving the screen printing process of transparent color ink for a case company. The Taguchi’s design of experiment and the computational intelligence method were individually employed to determine the optimal settings of the critical-to-quality factors of the printing process. The results showed that the factor settings generated by the computational intelligence method can provide better printing performance. The average number of printing defects reduced by 71%, bring huge saving of quality cost for the case company.
Yang, Chao Fu, and 楊朝富. "A Study of the Screen Printing Technique Applied in the Dye-Sensitized Solar Cell Working Electrode Preparation." Thesis, 2011. http://ndltd.ncl.edu.tw/handle/24217948355614178213.
Full text長庚大學
化工與材料工程學系
99
This work studies the preparation of the working electrode of the dye-sensitized solar cells. The crystalline of the semiconductor materials of the working electrode, the thickness of the electrode, the uniformity of the coating layer, the pore distribution of the electrode and the surface condition of the electrode affect the energy conversion efficiency of the dye-sensitized solar cells. In this study, the effects of the screen printing parameters used for the preparation of the working electrode, the multilayer working electrode structure of and the surface modification of the working electrode on the photovoltaic performance of the dye-sensitized solar cells were investigated. Different formulation of the coating paste are required for different TiO2 layer preparation methods. The screen printing technique requires a relatively high viscosity coating paste, compared to the coating paste for doctor blading method. The layer prepared using P90 powder is denser compared to that using P25 powder. Hence, the energy conversion efficiency of DSSC using P90 powder is higher than that using P25 powder due to the dye absorption capacity. The uniformity of the coating layer is formed the best using the screen printing technique with the squeegee coating speed of 11 mm s-1 and the squeegee pressure of 3 laps. The thickness of the coating layer is about 5~7 μm using the stainless screen. The thickness of the coating layer is 15.2 μm using the stencil screen. The multilayer TiO2 structure with the composition of P200+P90+P25 shows a maximum DSSC conversion efficiency of 5.46%.
Yao, Bo-Song, and 姚博松. "The Research of Piezoelectric Energy Harvesters by Screen Printing Method and the Improvement of the Transferring Technique." Thesis, 2019. http://ndltd.ncl.edu.tw/handle/338mjp.
Full text國立臺灣大學
工程科學及海洋工程學研究所
107
With the emergence of smart wearable devices connected to the Internet as IoT applications, the commercial electronics market is booming in a great diversity. The most popular applied scenarios are including health monitoring, exercise training, personal identification, etc. Besides, with the coming of aging societies, the need for health monitoring has become an urgent issue in developing and developed countries. Therefore, wearable health monitoring devices or portable medical usage take the lead in the market. However, all the wearable devices are encountering the challenge of long-term monitoring and low accuracy of measurement. To solve these two problems, screen printing method is used to fabricate the piezoelectric energy harvester (PEH) in this thesis. By doing so, PZT can be deposited thicker in batch process then transferred to any flexible substrates which means the output power and sensitivity could be supposedly improved. In this research, the PZT (Lead Zirconium Titanate) is being used as piezoelectric material. The screen-printing fabrication process has improved with proper modification including paste producing, viscosity controlling and temperature control in the sintering process. Furthermore, the dielectric layer deposition is applied to improve the stability of the poling process. The devices have been improved comparing the results previously. In transferring process, the thin gold layer on silicon with thermal oxide on top is being the sacrificial layer of the process. PZT thick layer can be easily and successfully transferred after proper sintering process and then the piezoelectric layer can be bonded to any flexible substrates. In this thesis, an improved cantilever beam piezoelectric energy harvester(PEH) and transferred PEH are successfully fabricated. In improving PEH, the thickness of the PZT layer is about 22 μm. The resonance frequency and the maximum output power are 73.8 Hz and 4.51 μW in a vibration environment of 0.5 g. In transferred PEH. The thickness of the PZT layer is 12 μm. The resonant frequency and maximum output power are 85.7 Hz and 0.57 μW in the same environment.
Furtado, Cristina Alexandra Silva Remédios. "Study and development of a flexible airflow sensor based on screen printing techniques." Master's thesis, 2019. https://hdl.handle.net/10216/124731.
Full textBooks on the topic "Screen-printing technique"
Screen printing: Design & technique. London: B. Batsford, 1990.
Find full textBhaktha, Dayakar V. Silk screen printing as an artistic process. Bangalore: Vasan Book Depot, 1991.
Find full textFaine, Brad. The new guide to screenprinting. East Roseville, N.S.W: Simon & Schuster Australia, 1991.
Find full textWater-based screenprinting today: Hands-on techniques to digital technology. New York: Watson-Guptill Publications, 2006.
Find full textDie Geschichte des Siebdrucks: Zur Entstehung des vierten Druckverfahrens. Sulgen: Niggli, 2013.
Find full textPrintmaking for beginners. New York: Watson-Guptill Publications, 2002.
Find full textStobart, Jane. Printmaking for beginners. 2nd ed. New York: Watson-Guptill Publications, 2005.
Find full textMatteo, Cossu, and Bendandi Luca, eds. Silk screen basics: A complete how-to handbook. Berkeley, CA: Gingko Press, 2011.
Find full textT, Renwick Gavin, Lamond Angus, Gadd, G. M. (Geoffrey Michael).), Trinkle-Mulcahy Laura, Towler Mhairi Claire, Prescott Alan, Wilcock Arwen Carol, et al., eds. Designs for life: A collaborative project. Dundee: Dundee University Press, 2009.
Find full textErekutoronikusu kōhinshitsu sukurīn insatsu no kiso to ōyō: Basis & application of advanced screen printing techniques for electronics. Tōkyō: Shī Emu Shī Shuppan, 2011.
Find full textBook chapters on the topic "Screen-printing technique"
Dimitriadou, I. A., A. Fulham, M. C. Robbins, K. Simpson, R. A. Dorey, P. Jones, S. Bernadet, et al. "Feasibility Study on Screen Printing as a Fabrication Technique for Low-Cost Thermoelectric Devices." In Proceedings of the 11th European Conference on Thermoelectrics, 177–82. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-07332-3_20.
Full textRajan, Parthiban, Michael Daniele, and Ashley C. Brown. "Micro/Nanoscale Plotting of Biomaterials." In Additive Manufacturing in Biomedical Applications, 1–16. ASM International, 2022. http://dx.doi.org/10.31399/asm.hb.v23a.a0006858.
Full textConference papers on the topic "Screen-printing technique"
Nakazawa, Akira, Michinori Kutami, Mitsuo Ozaki, Shigeharu Suzuki, and Hideyuki Kikuchi. "Electrostatic screen-through ink jet printing technique." In Printing Technologies for Images, Gray Scale, and Color, edited by Derek B. Dove, Takao Abe, and Joachim L. Heinzl. SPIE, 1991. http://dx.doi.org/10.1117/12.46343.
Full textNomura, Ken-ichi, Hirobumi Ushijima, Kazuro Nagase, Hiroaki Ikedo, Ryosuke Mitsui, Seiya Takahashi, Shin-ichiro Nakajima, and Shiro Iwata. "Fine electrode pattern formation by screen-offset printing technique." In 2014 International Conference on Electronics Packaging (ICEP). IEEE, 2014. http://dx.doi.org/10.1109/icep.2014.6826700.
Full textAernouts, Tom, Peter Vanlaeke, Jef Poortmans, and Paul L. Heremans. "Polymer solar cells: screen printing as a novel deposition technique." In Photonics Europe, edited by Paul L. Heremans, Michele Muccini, and Hans Hofstraat. SPIE, 2004. http://dx.doi.org/10.1117/12.546665.
Full textKumar, Vipin, M. K. Sharma, G. S. Sandhu, Sanjay Sharmac, and T. P. Sharm. "Growth of polycrystalline ZnS0.5 Se0.5 films by screen printing technique." In 2007 International Workshop on Physics of Semiconductor Devices (IWPSD '07). IEEE, 2007. http://dx.doi.org/10.1109/iwpsd.2007.4472556.
Full textSoukup, Radek, Ales Hamacek, and Jan Reboun. "Organic based sensors: Novel screen printing technique for sensing layers deposition." In 2012 35th International Spring Seminar on Electronics Technology (ISSE). IEEE, 2012. http://dx.doi.org/10.1109/isse.2012.6273101.
Full textChou, Jung-Chuan, Yu-Yi Chiu, Po-Hao Shih, and Shu-Ying Yang. "Fabrication of photoelectrochromic cell on flexible substrate by screen printing technique." In 2011 IEEE 4th International Nanoelectronics Conference (INEC). IEEE, 2011. http://dx.doi.org/10.1109/inec.2011.5991668.
Full textEmamian, Sepehr, Amer A. Chlaihawi, Binu B. Narakathu, Bradley J. Bazuin, and Massood Z. Atashbar. "A piezoelectric based vibration energy harvester fabricated using screen printing technique." In 2016 IEEE SENSORS. IEEE, 2016. http://dx.doi.org/10.1109/icsens.2016.7808560.
Full textLee, ChengChung, FengYu Chuang, JyungDong Lin, Jane-Hway Liao, HuaChi Cheng, JyhRong Sheu, YuYang Chang, ChuanCheng Tsou, and WenChun Wang. "Field emission characteristics of carbon nanotube emitters using screen-printing technique." In Photonics Taiwan, edited by I.-Wei Wu and Heiju Uchiike. SPIE, 2000. http://dx.doi.org/10.1117/12.389395.
Full textWang, Lin Biao, Kye Yak See, Budiman Salam, Albert Chee Wai Lu, Jun Wu Zhang, and Svimonishvili Tengiz. "Tri-band frequency selective band-stop shield using screen printing technique." In 2012 Asia-Pacific Symposium on Electromagnetic Compatibility (APEMC). IEEE, 2012. http://dx.doi.org/10.1109/apemc.2012.6237795.
Full textChachuli, Siti Amaniah Mohd, Mohd Nizar Hamidom, Md Shuhazlly Mamat, Mehmet Ertugurul, and Norhapishah Abdullah. "Hydrogen Gas Sensing of TiO2/MWCNT Thick Film via Screen-Printing Technique." In 2019 IEEE International Conference on Sensors and Nanotechnology (SENSORS & NANO). IEEE, 2019. http://dx.doi.org/10.1109/sensorsnano44414.2019.8940042.
Full textReports on the topic "Screen-printing technique"
Ovalle, Samuel, E. Viamontes, and Tony Thomas. Optimization of DLP 3D Printed Ceramic Parts. Florida International University, October 2021. http://dx.doi.org/10.25148/mmeurs.009776.
Full text