Relevant bibliographies by topics / Printing margin and skew

Academic literature on the topic 'Printing margin and skew'

Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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Journal articles on the topic "Printing margin and skew"

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Adcock, Christopher. "Copulaesque Versions of the Skew-Normal and Skew-Student Distributions." Symmetry 13, no. 5 (May 6, 2021): 815. http://dx.doi.org/10.3390/sym13050815.

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A recent paper presents an extension of the skew-normal distribution which is a copula. Under this model, the standardized marginal distributions are standard normal. The copula itself depends on the familiar skewing construction based on the normal distribution function. This paper is concerned with two topics. First, the paper presents a number of extensions of the skew-normal copula. Notably these include a case in which the standardized marginal distributions are Student’s t, with different degrees of freedom allowed for each margin. In this case the skewing function need not be the distribution function for Student’s t, but can depend on certain of the special functions. Secondly, several multivariate versions of the skew-normal copula model are presented. The paper contains several illustrative examples.
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KURTAS, SHANNON M., and BARIS TASKIN. "STATISTICAL TIMING ANALYSIS OF THE CLOCK PERIOD IMPROVEMENT THROUGH CLOCK SKEW SCHEDULING." Journal of Circuits, Systems and Computers 20, no. 05 (August 2011): 881–98. http://dx.doi.org/10.1142/s0218126611007669.

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Statistical static timing analysis (SSTA) methods, which model process variations statistically as probability distribution function rather than deterministically, have been thoroughly performed on traditional zero clock skew circuits. In the traditional zero clock skew circuits, the synchronizing clock signal is designed to arrive in phase with respect to each register. However, designers will often schedule the clock skew to different registers in order to decrease the minimum clock period of the entire circuit. Clock skew scheduling imparts very different timing constraints that are based, in part, on the topology of the circuit. In this paper, SSTA is applied to nonzero clock skew circuits in order to determine the accuracy improvement relative to their zero skew counterparts, and also to assess how the results of skew scheduling might be impacted with more accurate statistical modeling. For 99.7% timing yield (3σ variation), SSTA is observed to improve the accuracy, and therefore increase the timing margin, of nonzero clock skew circuits by up to 2.5×, and on average by 1.3×, the amount seen by zero skew circuits.
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Zhang, Runzhe, Ki-Youn Lee, Yousun Bang, Mark Shaw, and Jan P. Allebach. "Measuring margin and skew errors in scanned printed customer content." Electronic Imaging 34, no. 15 (January 16, 2022): 285–1. http://dx.doi.org/10.2352/ei.2022.34.15.color-285.

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Nefelov, I. S., and N. I. Baurova. "Modeling of optimal parameters of 3D-printing." All the Materials. Encyclopedic Reference Book, no. 6 (June 2022): 26–31. http://dx.doi.org/10.31044/1994-6260-2022-0-6-26-31.

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Algorithms of the program for determining the optimal parameters of 3D-printing are described. To confirm the effectiveness of the developed algorithms and mathematical model, the tensile strength of an ABS plastic part was calculated at the specified printing parameters. It is concluded that the use of the developed program will allow one to assign optimal printing parameters and obtain products with a given margin of safety.
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Çakmak, Gülce, Alfonso Rodriguez Cuellar, Mustafa Borga Donmez, Martin Schimmel, Samir Abou-Ayash, Wei-En Lu, and Burak Yilmaz. "Effect of Printing Layer Thickness on the Trueness and Margin Quality of 3D-Printed Interim Dental Crowns." Applied Sciences 11, no. 19 (October 5, 2021): 9246. http://dx.doi.org/10.3390/app11199246.

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The information in the literature on the effect of printing layer thickness on interim 3D-printed crowns is limited. In the present study, the effect of layer thickness on the trueness and margin quality of 3D-printed composite resin crowns was investigated and compared with milled crowns. The crowns were printed in 3 different layer thicknesses (20, 50, and 100 μm) by using a hybrid resin based on acrylic esters with inorganic microfillers or milled from polymethylmethacrylate (PMMA) discs and digitized with an intraoral scanner (test scans). The compare tool of the 3D analysis software was used to superimpose the test scans and the computer-aided design file by using the manual alignment tool and to virtually separate the surfaces. Deviations at different surfaces on crowns were calculated by using root mean square (RMS). Margin quality of crowns was examined under a stereomicroscope and graded. The data were evaluated with one-way ANOVA and Tukey HSD tests. The layer thickness affected the trueness and margin quality of 3D-printed interim crowns. Milled crowns had higher trueness on intaglio and intaglio occlusal surfaces than 100 μm-layer thickness crowns. Milled crowns had the highest margin quality, while 20 μm and 100 μm layer thickness printed crowns had the lowest. The quality varied depending on the location of the margin.
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Sun, Ziyu, Guozeng Zhao, Meng Li, and Zhiguo Lv. "Job Performance Optimization Method Based on Data Balance in the Wireless Sensor Networks." International Journal of Online Engineering (iJOE) 13, no. 12 (December 11, 2017): 4. http://dx.doi.org/10.3991/ijoe.v13i12.7882.

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<p style="margin: 1em 0px;"><span style="font-family: Times New Roman; font-size: medium;">In the wireless sensor network, the representative MapReduce computing model based on data center has been widely used in large-scale data processing. In the data transmission phase, the wireless sensor network system uses the hash method to distribute data for each Reduce task based on the number of Reduce tasks. This data partitioning method based on the hash function results in non-uniform distribution of the output data in the data transmission phase and further leads to skewing of the input data in the Reduce task. Data skew will result in load imbalance in the Reduce phase and causes the system performance to degrade. In order to eliminate the data skew problem in the Reduce phase, this paper presents a load balancing method, which consists of two parts: the virtual partitioning method based on the consistent hashing and the heterogeneity-aware loads balancing (HLB) algorithm. The experimental results show that the proposed method can eliminate the data skew in the Reduce phase and distribute the load equitably for each Reduce task. In addition, the method produces less system overhead.</span></p>
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Zhao, Ji Bin, and Xiu Li Li. "Research on Shaft-Less Technology of Inking System." Advanced Materials Research 291-294 (July 2011): 3368–71. http://dx.doi.org/10.4028/www.scientific.net/amr.291-294.3368.

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The principle of inking system in sheet-feed printing press is introduced. Some tests on ink thickness are performed and the experiment results shows that in the traditional press, some inherent defects cause serious quality problems. The application of shaft-less drive technology to printing press is introduced and the drive principle of inking rollers of printing press and is explained. Synchronization control method of rollers is put forward, and the shaft-less technology is applied to the inking roller. Control system of shaft-less roller press is constructed for four color printing. Mechanical zero and electrical zero can be reset and corrected. Slight asynchrony is allowed between inking rollers and cylinders for normal printing, and the speed difference between them can eliminate a kind of printing troublesome of ghosting when needed. Analysis shows that with this technology, the functions of press are extended. Furthermore, the results of calculation indicated that when printing the special products, the make-ready time for inking is shorten about 50% and the power consumption is decreased about 19.8 to 21.5%, so the efficiency of machine can be increased by a big margin and the power cost can be cut down obviously.
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Schulze, Martin, Georg Gosheger, Sebastian Bockholt, Marieke De Vaal, Tymo Budny, Max Tönnemann, Jan Pützler, et al. "Complex Bone Tumors of the Trunk—The Role of 3D Printing and Navigation in Tumor Orthopedics: A Case Series and Review of the Literature." Journal of Personalized Medicine 11, no. 6 (June 4, 2021): 517. http://dx.doi.org/10.3390/jpm11060517.

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The combination of 3D printing and navigation promises improvements in surgical procedures and outcomes for complex bone tumor resection of the trunk, but its features have rarely been described in the literature. Five patients with trunk tumors were surgically treated in our institution using a combination of 3D printing and navigation. The main process includes segmentation, virtual modeling and build preparation, as well as quality assessment. Tumor resection was performed with navigated instruments. Preoperative planning supported clear margin multiplanar resections with intraoperatively adaptable real-time visualization of navigated instruments. The follow-up ranged from 2–15 months with a good functional result. The present results and the review of the current literature reflect the trend and the diverse applications of 3D printing in the medical field. 3D printing at hospital sites is often not standardized, but regulatory aspects may serve as disincentives. However, 3D printing has an increasing impact on precision medicine, and we are convinced that our process represents a valuable contribution in the context of patient-centered individual care.
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Lim, Richard. "Theodoret of Cyrus and the Speakers in Greek Dialogues." Journal of Hellenic Studies 111 (November 1991): 181–82. http://dx.doi.org/10.2307/631898.

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The modern convention for printing dialogues includes printing the names of the speakers on the margin at the beginning of their statements. But this practice was virtually unknown in ancient Greek dialogues. Instead, the most common convention for showing the shift from one speaker to another is through punctuation such as the colon, the παραγράφος or a horizontal stroke. Recently, N. G. Wilson has attributed the inclusion of the names of the speakers at the transitional points in Greek dialogues to Theodoret of Cyrus (mid-fifth century CE; composed Eranistes in 447) who, in this view, ‘deserves the credit for devising a literary convention that is now regarded as essential’.
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Berry, Katherine, Eric M. Brown, Bradley Pothier, Samuel Fedorka, Alkim Akyurtlu, Craig Armiento, Gary F. Walsh, and Corey Shemelya. "Overcoming Variability in Printed RF: A Statistical Method to Designing for Unpredictable Dimensionality." Designs 6, no. 1 (February 5, 2022): 13. http://dx.doi.org/10.3390/designs6010013.

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As additively manufactured radio frequency (RF) design expands towards higher frequencies, performance becomes ever more sensitive to print-induced dimensional variations. These slight deviations from design dimensions typically skew RF performance, resulting in low yields or poor device performance. In order to overcome this limitation, RF design paradigms must be developed for non-uniform process and material-specific variations. Therefore, a new generalized approach is developed to explore variation-tolerant designs for printed RF structures. This method evaluates the feature fidelity and S11 performance of micro-dispensed, X-band (8–12 GHz) patch antennas by evaluating the standard deviation in as-printed features, surface roughness, and thickness. It was found that the traditional designs based on optimal impedance matching values did not result in the most robust performance over multiple printing sessions. Rather, performance bounds determined by print deviation could be utilized to improve large-batch S11 results by up to 7 dB. This work demonstrates that establishing the average standard deviation of printed dimensions in any RF printing system and following the formulated design procedure could greatly improve performance over large datasets. As such, the method defined here can be applied to improve large-scale, printed RF yields and enable predictive performance metrics for any given printing method.
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Dissertations / Theses on the topic "Printing margin and skew"

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Kulachenko, Artem. "Mechanics of paper webs in printing press applications." Doctoral thesis, Stockholm, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-3863.

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Book chapters on the topic "Printing margin and skew"

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Haji, M. Mehdi, Tien D. Bui, and Ching Y. Suen. "Simultaneous Document Margin Removal and Skew Correction Based on Corner Detection in Projection Profiles." In Image Analysis and Processing – ICIAP 2009, 1025–34. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-642-04146-4_109.

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Conference papers on the topic "Printing margin and skew"

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Kaneko, Mineo. "Margin aware timing test and tuning algorithm for post-silicon skew tuning." In 2017 IEEE 60th International Midwest Symposium on Circuits and Systems (MWSCAS). IEEE, 2017. http://dx.doi.org/10.1109/mwscas.2017.8053155.

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Seo, Hyungjung, Jeongwoo Heo, and Taewhan Kim. "Clock skew optimization for maximizing time margin by utilizing flexible flip-flop timing." In 2015 16th International Symposium on Quality Electronic Design (ISQED). IEEE, 2015. http://dx.doi.org/10.1109/isqed.2015.7085394.

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Kaneko, Mineo. "Scheduling of PDE setting and timing tests for post-silicon skew tuning with timing margin." In the 24th edition of the great lakes symposium. New York, New York, USA: ACM Press, 2014. http://dx.doi.org/10.1145/2591513.2591571.

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Jessen, Scott, Mark Terry, Mark Mason, Sean O'Brien, Robert Soper, Willie Yarbrough, and Thomas Wolf. "Improving asymmetric printing and low margin using custom illumination for contact hole lithography." In SPIE 31st International Symposium on Advanced Lithography, edited by Alfred K. K. Wong and Vivek K. Singh. SPIE, 2006. http://dx.doi.org/10.1117/12.660120.

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Zhang, HaoGuang, WenHao Liu, WuLi Chu, and EnHao Wang. "The Effect of Radial Skew Angles of Blade Angle Slots on the Stability and Performance of an Axial Flow Compressor." In ASME Turbo Expo 2020: Turbomachinery Technical Conference and Exposition. American Society of Mechanical Engineers, 2020. http://dx.doi.org/10.1115/gt2020-14545.

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Abstract The parametric numerical study was performed to explore the effect of radial skew angles of blade angle slot casing treatment (CT) on the stability and performance of an axial flow subsonic compressor. Five kinds of blade slot casing treatment with difference radial skew angles (0 degree, 30 degrees, 45 degrees, 60 degrees, and 75 degrees) were designed in the numerical investigations. The unsteady calculated results show that among the radial skew angles of 0 degree, 30 degrees, 45 degrees, 60 degrees, the bigger the radial skew angle of the slots is, the greater the stall margin improvement (SMI) generated by the slots is, and the slots with 60 degrees radial skew angle can generate 58.86% SMI. Moreover, the SMI for the slots with 60 degrees radial skew angle is 29.64% more than that for the slots with 75 degrees radial skew angle. Besides, the slots with radial skew angle of 75 degrees cause the least penalty in peak efficiency among five kinds of radial skew angle, and the peak efficiency for the slots with 75 degrees radial skew angle is 0.88% higher than that for smooth wall casing treatment. The slots with 0 degree radial skew angle generate the biggest peak efficiency loss of 5.94% among five kinds of radial skew angle. The flow field analyses show that the recirculated flows formed in the slots can generate momentum transport effects on the flow field in the blade tip. Under the effects of the momentum transport, the momentum balance between the tip leakage flow (TLF) and main flow (MF) is changed, and the momentum balance determines the trajectory of the TLF and the mainstream/tip leakage flows interface. As a result, the flow condition in the tip channel is also changed. By changing the radial skew angle of slots, the slots behave different capacities of momentum transport on the tip flow field, and the momentum balance between tip leakage flow and main flow is changed differently. So, the trajectory of the TLF and the mainstream/tip leakage flows interface are deflected differently. Different improvements of the compressor stability are obtained by the slots with different radial skew angles. The slots with radial skew angle of 60 degrees can largely deflect the trajectory of TLF and the mainstream/tip leakage flows interface to the blade suction surface. It improves the flow condition of the blade tip channel, and the slots generate 58.86% SMI. However, after the slots with radial skew angle of 0 degree and 30 degrees are applied, the tip leakage vortex breakdown is occurred. So, they generate few improvements of the stall margin. Furthermore, the interaction between recirculated flows inside slots and main flows inevitably causes additional flow losses. With the increase of radial skew angle, the efficiency loss caused by slot CT decreases. Thus, the slots with 75 degrees radial skew angle generate the least peak efficiency loss among five kinds of radial skew angle.
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Djeghri, Noureddine, Huu Duc Vo, and Hong Yu. "Parametric Study for Lossless Casing Treatment on a Mixed-Flow Compressor Rotor." In ASME Turbo Expo 2015: Turbine Technical Conference and Exposition. American Society of Mechanical Engineers, 2015. http://dx.doi.org/10.1115/gt2015-42750.

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A systematic numerical study has been carried out to investigate the effects of casing treatment slots geometry and location on the stall margin and peak efficiency of an isolated mixed-flow rotor at high subsonic flow conditions. Based on the literature review for axial rotor, a semi-circular axial skewed slot casing treatment placed in the leading edge region was chosen as the starting configuration as it has the best potential of producing stall margin improvement with low peak efficiency loss. A computational parametric study was performed from this baseline casing treatment geometry to identify the most important geometrical design parameters and to arrive at a design with noticeable stall margin improvement and no loss in peak efficiency. The results show that the design parameters with the largest impact on stall margin improvement and peak efficiency are: open area ratio, slot skew angle, slot axial length and slot axial position. The slots depth and slot shape seem to have only limited influence on performance. While not yet optimized, a slot casing treatment design with significant stall margin improvement and no loss in peak efficiency was obtained. To the authors’ knowledge, this work is the most extensive slot casing treatments parametric study so far in term of number of design parameters considered.
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Amin, Gautham A., Pramod B. Salunkhe, and Chandrakanth R. Kini. "A Parametric Study on the Effect of Casing Treatment Slots on Performance Enhancement of a Single Stage Axial Flow Compressor." In ASME 2021 Gas Turbine India Conference. American Society of Mechanical Engineers, 2021. http://dx.doi.org/10.1115/gtindia2021-76007.

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Abstract This paper numerically investigates the effect of slots on the performance of a highly subsonic axial flow compressor. The axial flow compressor consisting of 21 rotor blades with NACA 65 series blade profile was used for the simulations. The present results were obtained using different turbulence models and shear stress transport model was found to be the best one. Studies were conducted to determine the influence of length, depth and skew angle of the slot on the compressor performance. The slot width and centre-to-centre distance between the successive slots were maintained at 6.3% Ca and 11% Ca, respectively. The present study was carried out at different slot lengths (0 to 100% of axial chord, 20 to 100% of axial chord and 40 to 100% of axial chord), slot depths (7.9, 11 and 15.7% Ca) and skew angles (0°, 30°, 45° and 60°). The slot length of 20 to 100% of Ca, depth of 15.7% Ca and skew angle of 60° resulted in the best compressor performance leading to 22.1% stall margin improvement. Subsequently, flow characteristics were studied without and with slots.
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Patel, Ankit Bhai, K. Viswanath, and Dhyanjyoti Deb Nath. "Effect of Axial Sweep and Tip Extension on Performance of an Axial Fan." In ASME 2016 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2016. http://dx.doi.org/10.1115/imece2016-65967.

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Performance enhancement in terms of stall margin increment, increased pressure rise coefficient and increased efficiency is of great need for low speed axial fans. Stacking line modifications in terms of sweep, skew, dihedral or combination of these, as well as blade tip geometry modifications are assumed to be one of the ways to achieve finite performance improvement. Non radial stacking of blade profiles modifies secondary flows, tip vortex effects, hub passage vortex and thus affects aerodynamic performance parameters such as stall margin, efficiency, pressure rise, blade loading. In literature many studies have confined to comparison of few cases which led to conflicting results as modification of stacking line may have different effects in different cases. In the present work, comparison of performance of axial fan rotor with three different blade configurations BSL (baseline), SWP (swept blade) and EXTN (swept blade with extended tip) are considered. The BSL configuration is designed on basis of non-free vortex design. The SWP configuration is obtained by shifting radial stacking line of the BSL in axial flow direction by 10° (Forward sweep). The EXTN configuration is obtained by extending tip profile on pressure surface as well as suction surface by 3% locally. Experiments have been conducted on these three configurations to study effects of these modifications on aerodynamic performance. The flow field has been surveyed using Kiel probe, Three hole pressure probe at many flow rates starting from fully open to fully closed. Unsteady flow analysis at exit of rotors of all configurations is carried out using fast response pressure probe. Experimental results show slight performance improvement in terms of increased stall margin, efficiency, as well as total pressure rise for SWP rotor as well as EXTN rotor compared to BSL rotor at low flow coefficients.
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Yoon, Sungho, and Patricia Cargill. "Casing Treatment: Its Potential and Limitations." In ASME Turbo Expo 2022: Turbomachinery Technical Conference and Exposition. American Society of Mechanical Engineers, 2022. http://dx.doi.org/10.1115/gt2022-80461.

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Abstract Casing treatment is an advanced design feature intended to improve the stability of a compressor. Various investigations have been conducted based on both experimental and numerical studies at least over the last fifty years. In general, it has been demonstrated that a careful design of a casing treatment can substantially improve the stall margin of a tip-limited compressor although this generally comes with an aerodynamic efficiency penalty. This review paper revisits important past studies on casing treatments to clarify findings on the sometimes-conflicting results and understand what lessons are generally applicable to a wider group of machines. Circumferential grooves over a rotor tip have been in use for some time. Much recent work has focused on axial slots over a rotor tip, because of the significant stall margin improvement and the better efficiency potential of this configuration. This paper includes both configurations, with more emphasis on the latter. The paper concludes that casing treatment offers powerful benefits to a compressor and deserves continuing research and development. Good benefits result from axial slots which start ahead of the rotor leading edge and cover the front part of the rotor tip and include skew (tangential lean in the direction of rotation). Contributing physical mechanisms include increasing the axial momentum of the casing flow casing and reducing the aerodynamic blockage to improve the casing boundary layer and the tip leakage flow. The role of impacting unsteadiness is yet to be further clarified. Areas of further research are recommended, both experimental and analytical, including further work to understand and control the loss mechanisms, studying and controlling stage interaction effects in multi-stage compressors, and the simultaneous design optimization of the rotor blade with the casing treatment. Multi-disciplinary issues such as manufacturing cost, weight, length, durability, aeromechanics effects, tolerance to dust and ice, etc. also deserve further attention.
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Rossi, Emilio, Massimo Di Nicolantonio, Alessio D'Onofrio, and Raffaella Massacesi. "'3D-Printed Inclusive Modular System for Underprivileged Communities." In 13th International Conference on Applied Human Factors and Ergonomics (AHFE 2022). AHFE International, 2022. http://dx.doi.org/10.54941/ahfe1001586.

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The term ‘underprivileged communities’ describes groups of people experiencing some form of restrictions, such as economic, social, and political, which later lead to producing extensive forms of social exclusion. Although this phenomenon is mainly visible in crisis scenarios (i.e.: refugee camps), or emerging countries (i.e.: slums), some relevant examples can also be found in western countries. Accordingly, horizontal interdisciplinary socio-economic factors may produce remarkable disabling conditions affecting communities and producing non-inclusive situations for present and future generations.Unprivileged communities require intensive design interventions, from services to products, from housing to logistics, from shared goods to networked systems. Therefore, the design research community can start using unprivileged communities as a testing ground to experiment sustainable-based and inclusive-oriented design strategies to improve the quality of life of people living at the margin of society, as well as providing original solutions to improve the economic, social, and environmental qualities of such living ecosystems.Among the possible interventions, we explored the concept of ‘Inclusive 3D Printing’ by applying recent theories developed within Sustainable 3D Printing studies. Thus, an inclusive 3D-printed modular system for unprivileged communities is presented and discussed as the result of a rigorous research process connecting the main data found within the socio-economic literature with promising design trajectories and experimentations allowed using this new manufacturing technology. The design results presented in the paper provide evidence and validity on the use of sustainable 3D printing to design smart solutions, alongside initial reflections on the design opportunities to make a change, beyond mainstream markets.Discussions and considerations are provided to reinforce the need to work holistically and through interdisciplinary design approaches to opening new research avenues for the design community.
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