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Journal articles on the topic 'Conventional process'

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Published: 4 June 2021
Last updated: 2 February 2022

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1

Pozhar, A. B. "Conventional Implicatures in English-Based Literary Discourse: Triggers and Inference Process." Mìžnarodnij fìlologìčnij časopis 11, no. 2 (2020): 26–30. http://dx.doi.org/10.31548/philolog2020.02.026.

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2

Hastak, Makarand. "Advanced automation or conventional construction process?" Automation in Construction 7, no. 4 (1998): 299–314. http://dx.doi.org/10.1016/s0926-5805(98)00047-8.

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3

Abo-Rayia, S., M. Basta, G. Abd-Rabbo, et al. "Optimum conventional computer aided process planning." Computers & Industrial Engineering 31, no. 1-2 (1996): 177–80. http://dx.doi.org/10.1016/0360-8352(96)00105-2.

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4

Chebbi, R., N. S. Al-Amoodi, N. M. Abdel Jabbar, G. A. Husseini, and K. A. Al Mazroui. "Optimum ethane recovery in conventional turboexpander process." Chemical Engineering Research and Design 88, no. 5-6 (2010): 779–87. http://dx.doi.org/10.1016/j.cherd.2009.11.003.

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5

Saravanan, R., P. Asokan, and M. Sachithanandam. "Comparative Analysis of Conventional and Non-Conventional Optimisation Techniques for CNC Turning Process." International Journal of Advanced Manufacturing Technology 17, no. 7 (2001): 471–76. http://dx.doi.org/10.1007/s001700170146.

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6

Liu, Chun Ho, A. Cheng Wang, Kuo Zoo Liang, and Sheng En Hsu. "Analysis of Conventional Spinning Process with Thermal Effects." Materials Science Forum 594 (August 2008): 187–92. http://dx.doi.org/10.4028/www.scientific.net/msf.594.187.

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The temperature effect is significant on the metal forming processes; for the quality of products and the tools life are extremely affected by it. This paper investigates the thermal effects on the conventional spinning process by the explicit finite element method with transient heat transfer conditions. The governing equation is based on the updated Lagrangian formulation, the large deformation theory, and the principle of the conservation of energy. The energy terms in this study include the plastic strain energy, the frictional sliding energy, and the heat transfer energy. The energy and temperature distribution of the circular sheet, on the varying boundary conditions of the heat transformation, are discussed in detail. Furthermore, the various mesh types are examined in the simulations. With the application of the mass scaling factor technique, the full history of spinning process is performed successfully. The main benefit of the proposed model will save the tremendous costs in the die designing and the experimental works. The parameters and techniques using in the numerical model are helpful for the design of forming process and the coupling thermal-mechanical analysis.
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7

Liu, Z., T. Deng, and J. Chen. "(Keynote) Solid-State Nanopore Fabrication with Conventional Process." ECS Transactions 52, no. 1 (2013): 1047–52. http://dx.doi.org/10.1149/05201.1047ecst.

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8

Mozes, E., R. L. Cornelissen, G. G. Hirs, and R. M. Boom. "Exergy analysis of the conventional textile washing process." Energy Conversion and Management 39, no. 16-18 (1998): 1835–43. http://dx.doi.org/10.1016/s0196-8904(98)00061-2.

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9

Clarke, Pamela N. "Open or Conventional Access: Integrity in the Process." Nursing Science Quarterly 32, no. 3 (2019): 198–200. http://dx.doi.org/10.1177/0894318419845398.

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10

Zaghi, Aline Nalon, Sandra Maria Barbalho, Elen Landgraf Guiguer, and Alda Maria Otoboni. "Frying Process: From Conventional to Air Frying Technology." Food Reviews International 35, no. 8 (2019): 763–77. http://dx.doi.org/10.1080/87559129.2019.1600541.

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11

Luyben, William L. "Improving the conventional reactor/separation/recycle DME process." Computers & Chemical Engineering 106 (November 2017): 17–22. http://dx.doi.org/10.1016/j.compchemeng.2017.05.008.

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12

Abdelkrim, Afef, and Mohamed Benrejeb. "Conventional and non conventional body motions modelling and control. Application to the handwriting process." Asian Journal of Control 21, no. 4 (2019): 1706–18. http://dx.doi.org/10.1002/asjc.2127.

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13

Watanabe, Shigetaka, Junpei Sakurai, Mizue Mizoshiri, and Seiichi Hata. "MoB-1-1 COMPARISON OF NOVEL REVERSED LIFT-OFF PROCESS WITH CONVENTIONAL LIFT-OFF PROCESS IN CROSS-SECTIONAL SHAPE ON PATTERNED STRUCTURES." Proceedings of JSME-IIP/ASME-ISPS Joint Conference on Micromechatronics for Information and Precision Equipment : IIP/ISPS joint MIPE 2015 (2015): _MoB—1–1–1—_MoB—1–1–3. http://dx.doi.org/10.1299/jsmemipe.2015._mob-1-1-1.

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14

Abkhiz, Vahid. "Operational Investigation of Multi Feed Amine Process Performance in Comparison with Conventional Process." International Journal of Oil, Gas and Coal Engineering 2, no. 6 (2014): 78. http://dx.doi.org/10.11648/j.ogce.20140206.11.

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15

Lee, Jeon Mi, Young Ho Lee, Jinsei Jung, Sung Huhn Kim, In Seok Moon, and Jae Young Choi. "Audiologic Gain of Incus Short Process Vibroplasty With Conventional Incus Long Process Vibroplasty." Otology & Neurotology 38, no. 8 (2017): 1063–70. http://dx.doi.org/10.1097/mao.0000000000001496.

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16

Yanev, A. S., Gustavo R. Dias, and António M. Cunha. "Visualization of Injection Moulding Process." Materials Science Forum 587-588 (June 2008): 716–20. http://dx.doi.org/10.4028/www.scientific.net/msf.587-588.716.

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A special tool-transparent mould designed to visualize the melt flow inside the cavity is used in this research. The aim of the work is to assess the polymer melt behavior under different processing conditions-close to industrial, in conventional and two materials non-conventional injection moulding techniques. The mould is designed with two injection locations and has possibility to change the geometry of the cavity in order to investigate the melt behavior in differently shaped cavities. Visual access in the mould is allowed by the sapphire windows, surrounding the cavity. For image acquisition a high speed video camera NAC 1000 is used. Materials used in the research are three polypropylenes with different flow index. Results are obtained for conventional injection moulding, two material monosandwich and two material biinjection moulding. Apart from visualization, instrumentation of the mould allows to be obtained PT data for each processing condition. Results from conventional injection moulding are compared with MPI5.0 simulations.
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17

MAEDA, Masunao. "The Reconsideration of Conventional Views of Mass Communication Process." Annual review of sociology 1993, no. 6 (1993): 227–38. http://dx.doi.org/10.5690/kantoh.1993.227.

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18

Ismail, Mohd Arif, Rosnaini Mahmud, and Isham Shah Hassan. "Digital Studio vs. Conventional in Teaching Architectural Design Process." Procedia - Social and Behavioral Sciences 64 (November 2012): 18–25. http://dx.doi.org/10.1016/j.sbspro.2012.11.003.

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19

Velmurugan, S., and John N. Veenstra. "Operational Cost Optimization Modeling for Conventional Activated Sludge Process." Proceedings of the Water Environment Federation 2007, no. 18 (2007): 864–81. http://dx.doi.org/10.2175/193864707787452417.

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20

Liu, Chun‐Ho. "Dynamic finite element modeling for the conventional spinning process." Journal of the Chinese Institute of Engineers 30, no. 5 (2007): 911–16. http://dx.doi.org/10.1080/02533839.2007.9671317.

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21

Brockmann, W. "Comparison of fuzzy, rule-based, and conventional process control." Annual Review in Automatic Programming 19 (January 1994): 91–96. http://dx.doi.org/10.1016/0066-4138(94)90048-5.

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22

Zhang, Zhao, Yuanjie Wang, Zhaohua Zhang, et al. "Ergonomic and efficiency analysis of conventional apple harvest process." International Journal of Agricultural and Biological Engineering 12, no. 2 (2019): 210–17. http://dx.doi.org/10.25165/j.ijabe.20191202.4567.

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23

Coromelci-Pastravanu, Cristina, Maria Ignat, Evelini Popovici, and Valeria Harabagiu. "TiO2-coated mesoporous carbon: Conventional vs. microwave-annealing process." Journal of Hazardous Materials 278 (August 2014): 382–90. http://dx.doi.org/10.1016/j.jhazmat.2014.06.036.

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24

Takahashi, Satomi, and Herbert L. Roitblat. "Comprehension process of second language indirect requests." Applied Psycholinguistics 15, no. 4 (1994): 475–506. http://dx.doi.org/10.1017/s0142716400006883.

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ABSTRACTThis study examined the comprehension of English conventional indirect requests by native English speakers and Japanese learners of English. Subjects read stories inducing either a conventional or a literal interpretation of a priming sentence. Reading speeds did not vary as a function of the interpretation. Subsequent target sentences that paraphrased either the literal or the conventional interpretation of the prime sentence were read more quickly when they paraphrased a conventional interpretation of the sentence than when they paraphrased a literal interpretation. Target sentences were also read more quickly if they paraphrased the interpretation induced by the context than if they did not match. The results suggest that both native and nonnative speakers process both meanings of an ambiguous conventional request.
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25

De Vero, Luciana, Giovanna Iosca, Maria Gullo, and Andrea Pulvirenti. "Functional and Healthy Features of Conventional and Non-Conventional Sourdoughs." Applied Sciences 11, no. 8 (2021): 3694. http://dx.doi.org/10.3390/app11083694.

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Sourdough is a composite ecosystem largely characterized by yeasts and lactic acid bacteria which are the main players in the fermentation process. The specific strains involved are influenced by several factors including the chemical and enzyme composition of the flour and the sourdough production technology. For many decades the scientific community has explored the microbiological, biochemical, technological and nutritional potential of sourdoughs. Traditionally, sourdoughs have been used to improve the organoleptic properties, texture, digestibility, palatability, and safety of bread and other kinds of baked products. Recently, novel sourdough-based biotechnological applications have been proposed to meet the demand of consumers for healthier and more natural food and offer new inputs for the food industry. Many researchers have focused on the beneficial effects of specific enzymatic activities or compounds, such as exopolysaccharides, with both technological and functional roles. Additionally, many studies have explored the ability of sourdough lactic acid bacteria to produce antifungal compounds for use as bio-preservatives. This review provides an overview of the fundamental features of sourdoughs and their exploitation to develop high value-added products with beneficial microorganisms and/or their metabolites, which can positively impact human health.
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26

Nuroji, Nuroji, Bagus Hario Setiadji, and Wahyu Aktorina. "Comparison of Precast and Conventional Concrete Rigid Pavements Using Analytical Hierarchy Process (AHP)." MEDIA KOMUNIKASI TEKNIK SIPIL 26, no. 2 (2021): 212–19. http://dx.doi.org/10.14710/mkts.v26i2.31792.

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The rigid pavement on many roads is considered as a solution due to the increasing traffic load that requires high performance and durability of the road construction. However, the implementation of rigid pavement takes a longer time to reach its concrete strength until the road operation. Some industries have developed pavement from precast concrete panels to reduce construction time. This paper discusses the comparison of rigid pavement between precast concrete and conventional concrete. Two road sections are Jalan Margomulyo Surabaya using precast-concrete-pavement and Jalan Semarang-Jambu using conventional-concrete-pavement chosen as research objects. Cost, construction time, serviceability, and traffic performance are the four variables reviewed in this study analyzed using the Analytical Hierarchy Process (AHP) method with considers 15 competent experts as respondents. Based on the analysis shows that a road improvement project by using precast-pavement is more effective and efficient with a score of 58.42 %, while the score of conventional concrete is 41.58 %.
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27

Lee, Tae-Il, and Hong-Bae Kim. "TLP Properties Evaluation of ESD Protection Device of GGNMOS Type for Conventional CMOS Process." Journal of the Korean Institute of Electrical and Electronic Material Engineers 21, no. 10 (2008): 875–80. http://dx.doi.org/10.4313/jkem.2008.21.10.875.

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28

MIMURA, KAZUHISA, HIROSHI DEGUCHI, and MINGXING LIU. "Removal Mechanism of Organic Matter in Conventional Activated Sludge Process." Japanese Journal of Water Treatment Biology 51, no. 3 (2015): 49–59. http://dx.doi.org/10.2521/jswtb.51.49.

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29

MIAO, Zhu-jun, Ai-dang SHAN, Wei WANG, Jun LU, Wen-liang XU, and Hong-wei SONG. "Solidification process of conventional superalloy by confocal scanning laser microscope." Transactions of Nonferrous Metals Society of China 21, no. 2 (2011): 236–42. http://dx.doi.org/10.1016/s1003-6326(11)60704-8.

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30

Narasimhan, V., Samuel Mani, Jomy Varghese, A. M. Manilal, and P. A. Fasnabi. "Process Incentives by the Intensification of a Conventional Biodiesel Plant." Procedia Technology 24 (2016): 661–68. http://dx.doi.org/10.1016/j.protcy.2016.05.177.

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31

Köhlera, Karsten, and Heike Petra Schuchmann. "Homogenisation in the dairy process - conventional processes and novel techniques." Procedia Food Science 1 (2011): 1367–73. http://dx.doi.org/10.1016/j.profoo.2011.09.202.

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32

Fedder, G. K., S. Santhanam, M. L. Reed, et al. "Laminated high-aspect-ratio microstructures in a conventional CMOS process." Sensors and Actuators A: Physical 57, no. 2 (1996): 103–10. http://dx.doi.org/10.1016/s0924-4247(97)80100-8.

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33

Borrego, Marcos, Domingo Morales-Palma, José Andrés López-Fernández, Andrés J. Martínez-Donaire, Gabriel Centeno, and Carpóforo Vallellano. "Hole-flanging of AA7075-O sheets: conventional process versus SPIF." Procedia Manufacturing 50 (2020): 236–40. http://dx.doi.org/10.1016/j.promfg.2020.08.044.

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34

Oliveira-Motta, Clayton A. de, José de Souza, Ana Paula S. de Matos Dias, Arão de Matos Dias, Eduardo Henrique de Souza Cardoso, and Lirio Schaeffer. "Straight Bevel Gears Manufacturing Analysis by Conventional Powder Metallurgy Process." IOSR Journal of Mechanical and Civil Engineering 14, no. 01 (2017): 27–32. http://dx.doi.org/10.9790/1684-1401042732.

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35

Ding, S. C., and J. L. Duncan. "A wide-panel forming process to replace conventional roll forming." International Journal of Mechanical Sciences 51, no. 4 (2009): 276–83. http://dx.doi.org/10.1016/j.ijmecsci.2009.02.001.

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36

Patel, Kalpesh, Ammar Bakhurji, Hussain Salloum, Hyun Kim, Mulad Winarno, and Saeed Mohammed Mubarak. "Use of Advanced Process Control for Automating Conventional Oilfield Operations." SPE Production & Operations 34, no. 04 (2019): 678–92. http://dx.doi.org/10.2118/192393-pa.

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37

IMAMURA, Masaki, Ryo MARUI, Takuya SUGIMOTO, and Akira MIZOBUCHI. "Inhibition Technique of Slag Generation during Conventional Fusion Cutting Process." Proceedings of the Materials and processing conference 2016.24 (2016): 621. http://dx.doi.org/10.1299/jsmemp.2016.24.621.

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38

Show, Pau Loke, Kit Wayne Chew, and Hui Yi Leong. "Advanced Food Process Technologies: Bridging Conventional Practices to Industry 4.0." Current Nutrition & Food Science 16, no. 9 (2020): 1286. http://dx.doi.org/10.2174/157340131609201022105040.

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39

Elsheikh, Yasir Ali, Zakaria Man, and Faheem Hassan Akhtar. "An acidic ionic liquid-conventional alkali-catalyzed biodiesel production process." Korean Journal of Chemical Engineering 31, no. 3 (2014): 431–35. http://dx.doi.org/10.1007/s11814-013-0238-x.

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40

Lee, TC, LC Chan, and BJ Wu. "Straining behaviour in blanking process - fine blanking vs conventional blanking." Journal of Materials Processing Technology 48, no. 1-4 (1995): 105–11. http://dx.doi.org/10.1016/0924-0136(94)01639-i.

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41

Grassi, Silvia, Gaetano Cardone, Davide Bigagnoli, and Alessandra Marti. "Monitoring the sprouting process of wheat by non-conventional approaches." Journal of Cereal Science 83 (September 2018): 180–87. http://dx.doi.org/10.1016/j.jcs.2018.08.007.

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42

Pradana, Yano Surya, Ardian Fauzi, Sangga Hadi Pratama, and Hanifrahmawan Sudibyo. "Simulation of biodiesel production using hydro-esterification process from wet microalgae." MATEC Web of Conferences 154 (2018): 01007. http://dx.doi.org/10.1051/matecconf/201815401007.

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Recently, algae have received a lot of attention as a new biomass source for the production of renewable energy, such as biodiesel. Conventionally, biodiesel is made through esterification or transesterification of oils where the process involves a catalyst and alcohol to be reacted in a reactor. However, this process is energy intensive for drying and extraction step. To overcome this situation, we studied simulation of a new route of hydro-esterification process which is combine hydrolysis and esterification processes for biodiesel production from wet microalgae. Firstly, wet microalgae treated by hydrolyzer to produce fatty acids (FAs), separated with separator, and then mixed with methanol and esterified at subcritical condition to produce fatty acid methyl esters (FAMEs) while H2SO4 conducted as the catalyst. Energy and material balance of conventional and hydrolysis-esterification process was evaluated by Aspen Plus. Simulation result indicated that conventional route is energy demanding process, requiring 4.40 MJ/L biodiesel produced. In contrast, the total energy consumption of hydrolysis-esterification method can be reduced significantly into 2.43 MJ/L biodiesel. Based on the energy consumption comparison, hydro-esterification process is less costly than conventional process for biodiesel production.
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43

Rajak, Ashish Kumar, and Sachin D. Kore. "Experimental investigation of aluminium–copper wire crimping with electromagnetic process: Its advantages over conventional process." Journal of Manufacturing Processes 26 (April 2017): 57–66. http://dx.doi.org/10.1016/j.jmapro.2017.01.009.

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44

Kurambhatti, Kumar, and Singh. "Impact of Fractionation Process on the Technical and Economic Viability of Corn Dry Grind Ethanol Process." Processes 7, no. 9 (2019): 578. http://dx.doi.org/10.3390/pr7090578.

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Use of corn fractionation techniques in dry grind process increases the number of coproducts, enhances their quality and value, generates feedstock for cellulosic ethanol production and potentially increases profitability of the dry grind process. The aim of this study is to develop process simulation models for eight different wet and dry corn fractionation techniques recovering germ, pericarp fiber and/or endosperm fiber, and evaluate their techno-economic feasibility at the commercial scale. Ethanol yields for plants processing 1113.11 MT corn/day were 37.2 to 40 million gal for wet fractionation and 37.3 to 31.3 million gal for dry fractionation, compared to 40.2 million gal for conventional dry grind process. Capital costs were higher for wet fractionation processes ($92.85 to $97.38 million) in comparison to conventional ($83.95 million) and dry fractionation ($83.35 to $84.91 million) processes. Due to high value of coproducts, ethanol production costs in most fractionation processes ($1.29 to $1.35/gal) were lower than conventional ($1.36/gal) process. Internal rate of return for most of the wet (6.88 to 8.58%) and dry fractionation (6.45 to 7.04%) processes was higher than the conventional (6.39%) process. Wet fractionation process designed for germ and pericarp fiber recovery was most profitable among the processes.
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45

Yao, Pan Pan, and Qiang Wang. "Investigation on Hole Punching Process with Combined Punch to Improve Surface Quality during the Materials Forming Process." Key Engineering Materials 737 (June 2017): 77–82. http://dx.doi.org/10.4028/www.scientific.net/kem.737.77.

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The present work shows the viability of a combined punch that makes possible to perform a hole punching followed by a hole burnishing in only one operation. The advantage of this combined punch is forming processes in only one process on medium thickness plate. In this work were tested two different configurations of punches which one of them is the conventional punch and another is a new structure of combined punch. The new structure of combined punch is added the step and inclined edge at the cutting edge on the basis of conventional punch. They are made of the same materials that are Cr12MoV. The new structure of combined punch and the conventional punch are studied by using numerical simulation and experimental research in this paper. During the materials forming process of hole punching, the simulation software ANSYS is used to simulate. The YZ32-100 Hydraulic press with nominal and the self-made die sets and the thick of 16mm Q235 sheet metal is selected in this experiment. The analysis of the obtained results showed that the hole surface quality of combined punch is superior to the conventional punch. It is prove that the new structure of combined punch can improve quality of punching.
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46

Christmann, Ursula, Lena Wimmer, and Norbert Groeben. "The aesthetic paradox in processing conventional and non-conventional metaphors." Scientific Study of Literature 1, no. 2 (2011): 199–240. http://dx.doi.org/10.1075/ssol.1.2.03chr.

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This study focuses on the relationship between cognitive effort and aesthetic-emotional evaluation in the processing of conventional and non-conventional metaphors. We postulate that an increased cognitive load — which is normally perceived as stressful — is evaluated positively when processing non-conventional metaphors. We have called this contradictory suspense ‘aesthetic paradox’. The aesthetic paradox was tested in two studies that differed in degree of processing demand. In study 1 (low processing demand) participants (N = 40) read (non-)conventional metaphors, judged the adequacy of two metaphor paraphrases and assessed their own interpretation process. In study 2 (high processing demand) the same procedure was applied with the exception that participants (N = 40) evaluated the appropriateness of one metaphor paraphrase. The results of both experiments confirm that non-conventional metaphors require longer reading and longer processing times than conventional metaphors, and they confirm the postulated paradoxical effect: the increase of cognitive effort in processing non-conventional metaphors is evaluated positively, provided that a satisfactory interpretation is found.
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47

Xia, Cheng Dong, Ming Pu Wang, Gen Ying Xu, Wan Zhang, Yan Lin Jia, and Hong Chun Yu. "Microstructure and Properties of Cu-Cr Alloys Prepared by a Shortened Process and a Conventional Process." Advanced Materials Research 199-200 (February 2011): 1890–95. http://dx.doi.org/10.4028/www.scientific.net/amr.199-200.1890.

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The microstructure and properties of Cu-0.4wt%Cr alloys prepared by a shortened process and a conventional process were investigated by means of optical microscopy (OM), transmission electron microscopy (TEM), hardness testing and electrical conductivity measurement. After online hot rolling- quenching and cold rolling with 60% reduction and then aging at 450°C for 30min (process A), and solution treatment - cold rolling with 60% reduction - aging 450°C for 60min (process B), good properties combination of the alloys are obtained, and the hardness and electrical conductivity reach to 156HV, 86.4%IACS and 169HV, 81.1%IACS, respectively, and the shortened process (A) is suitable for commercial copper strip production. Plenty of fine and dispersed precipitates are responsible for the hardness and electrical conductivity improvement of the alloys. The difference of properties between process A and B is resulting form the difference of effective precipitates volume fraction under the various processes.
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48

Radgen, P., E. J. Pedernera, M. Patel, and R. Reimert. "Simulation of process chains and recycling strategies for carbon based materials using a conventional process simulator." Computers & Chemical Engineering 22 (March 1998): S137—S140. http://dx.doi.org/10.1016/s0098-1354(98)00047-7.

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49

Pathak, Ashok S., Sankalp Agarwal, Vivek Gera, and Nitin Kaistha. "Design and Control of a Vapor-Phase Conventional Process and Reactive Distillation Process for Cumene Production." Industrial & Engineering Chemistry Research 50, no. 6 (2011): 3312–26. http://dx.doi.org/10.1021/ie100779k.

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50

Brockmann, Doris, Yves Gérand, Chul Park, Kim Milferstedt, Arnaud Hélias, and Jérôme Hamelin. "Wastewater treatment using oxygenic photogranule-based process has lower environmental impact than conventional activated sludge process." Bioresource Technology 319 (January 2021): 124204. http://dx.doi.org/10.1016/j.biortech.2020.124204.

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