584 research outputs found

    Effects of Alloying Elements (Mo, Ni, and Cu) on the Austemperability of GGG-60 Ductile Cast Iron

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    Konca, Erkan/0000-0001-8943-091X; TUR, KAZIM/0000-0002-8017-8209The interest in austempered ductile irons (ADI) is continuously increasing due to their various advantageous properties over conventional ductile irons and some steels. This study aimed to determine the roles of alloying elements Ni, Cu, and Mo, on the austemperability of GGG-60 ductile cast iron. Two different sets of GGG-60 (EN-GJS-600-3) samples, one set alloyed with Ni and Cu and the other set alloyed with Mo, Ni, and Cu, were subjected to austempering treatments at 290 degrees C, 320 degrees C, and 350 degrees C. A custom design heat treatment setup, consisting of two units with the top unit (furnace) serving for austenitizing and the 200 L capacity bottom unit (stirred NaNO2-KNO3 salt bath) serving for isothermal treatment, was used for the experiments. It was found that austempering treatment at 290 degrees C increased the hardness of the Ni-Cu alloyed GGG-60 sample by about 44% without causing a loss in its ductility. In the case of the Mo-Ni-Cu alloyed sample, the increase in hardness due to austempering reached to almost 80% at the same temperature while some ductility was lost. Here, the microstructural investigation and mechanical testing results of the austempered samples are presented and the role of alloying elements (Mo, Ni, and Cu) on the austemperability of GGG-60 is discussed

    Process Design Optimization for the Post-Weld Controlled Accelerated Cooling of R350ht Head Hardened Rail Joints

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    Mantarı sertleştirilmiş rayların kullanımından tam olarak fayda sağlayabilmek için bu rayların kaynak ve ısıdan etkilenen bölgelerinin, mantarı sertleştirilmiş raya özelliğini veren sıkı dizili perlit içyapısının sağladığı mekanik özelliklere yakın özellikler veren içyapılara sahip olması gerekmektedir. Bu ise yanmalı alın kaynağı ile birleştirilmiş raylarda söz konusu bölgelerin kaynak işleminden hemen sonra hızlandırılmış kontrollü soğutulmasıyla mümkün olabilmektedir. Bu çalışmada yanmalı alın kaynağı yöntemiyle birleştirilmiş mantarı sertleştirilmiş R350HT rayların kaynak bölgelerine uygulanacak kontrollü hızlı soğutmanın hangi koşullarda ve nasıl yapılması gerektiği araştırılmıştır. Dilatometrede R350HT ray çeliği numuneler kullanılarak ilgili ray ve ray kaynak standardların gerektirdiği sertlik değerlerini veren içyapı ve bu içyapıyı elde etmek için gereken ısıl işlem koşulları belirlenmiştir. Ray kaynak bölgelerinin kontrollü hızlandırılmış soğutulmasında kullanılacak aparatın tasarımı bilgisayarda simule edilerek geliştirilmiştir. Özel olarak tasarlanan soğutma aparatı ve sistemi kullanılarak yanmalı alın kaynağı ile birleştirilmiş 60E1 kesitli R350HT rayların kaynak bölgelerine farklı koşullarda hızlandırılmış soğutma uygulanmış ve ilgili EN 14587-2 standardını karşılayan başarılı sonuçlar elde edilmiştir. Mantarı sertleştirilmiş rayların aluminotermit kaynağı ile birleştirilmelerinde ise uygun kaynak porsiyonu kullanımıyla ilgili EN 14730 standardının karşılanabildiği gösterilmiştir.In order to benefit fully from the use of head hardened rails, the weld and the heat affected zones of these rails must have microstructures with mechanical properties similar to those produced by the fine pearlitic microstructures of the rails themselves. For the flash butt welding of head hardened rails, this is only possible through the accelerated controlled cooling of the related zones just after the welding operation. In this study, the required method and the conditions for the controlled accelerated cooling of flash butt welded head hardened R350HT rails have been investigated. Dilatometer experiments were performed on R350HT rail steel samples in order to determine the heat treatment conditions to produce microstructures that would give the hardness values required by the related rail and rail welding standards. A computer simulation study was undertaken to improve the design of the apparatus to be used for the accelerated cooling of the rail welds. A custom accelerated cooling system that employs this specially designed apparatus was used on flash butt welded R350HT rail joints of the 60E1 profile and results satisfying the related EN 14587-2 standard were obtained. For the aluminothermite welding of the head hardened rails, it was shown that the related EN 14730 standard could be met through the use of the proper weld portion

    Mestizajes, exclusiones y alianzas étnicas en las pampas y el Chaco rioplatenses: (Segunda mitad del siglo XIX). Antropología. Boletín Oficial del Instituto Nacional de Antropología e Historia: Cien años. Anales del Museo Nacional de México (1877-1977). Num. 69 Nueva Época (2003) enero-marzo

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    Álvarez, Juan, Historia de Rosario, Buenos Aires, s/e, 1943.Bertoni, Lilia Ana, Patriotas, cosmopolitas y nacionalistas. La construcción de la nacionalidad argentina a fines del siglo XIX, Buenos Aires, Fondo de Cultura Económica, 2001.Gallo, Ezequiel, Colonos en armas. Las revoluciones radicales en la provincia de Santa Fe, Buenos Aires, Instituto Di Teila, 1977.———, La pampa gringa, Buenos Aires, Sudamericana, 1982.Rodríguez Mola, Ricardo, Historia social del gaucho, Buenos Aires, CEAL, 1986. Sbarra, Noei H., Historia del alambrado en Argentina, Buenos Aires, Eudeba, 1964.Scobie, James, Revolución en las pampas. Historia social del trigo argentino, Buenos Aires, Solar-Hachette, 1967.Schobinger, Juan, Inmigración y colonización suizas en la República Argentina, Buenos Aires, s/e, 1963.Tur, Carlos M. y J. Alberto Tur, “El marco histórico”, en Santa Fe: el paisaje y los hombres, Rosario, Editorial Biblioteca, 1971.———, “La conquista de la pampa por la colonización Gringa”, en Revista Agro Nuestro, Rosario, 1971

    Ramsey multiplicity and the Tur\'an coloring

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    Extending an earlier conjecture of Erd\H{o}s, Burr and Rosta conjectured that among all two-colorings of the edges of a complete graph, the uniformly random coloring asymptotically minimizes the number of monochromatic copies of any fixed graph HH. This conjecture was disproved independently by Sidorenko and Thomason. The first author later found quantitatively stronger counterexamples, using the Tur\'an coloring, in which one of the two colors spans a balanced complete multipartite graph. We prove that the Tur\'an coloring is extremal for an infinite family of graphs, and that it is the unique extremal coloring. This yields the first determination of the Ramsey multiplicity constant of a graph for which the Burr--Rosta conjecture fails. We also prove an analogous three-color result. In this case, our result is conditional on a certain natural conjecture on the behavior of two-color Ramsey numbers.Comment: 39 pages, final version to appear in Advances in Combinatoric

    Pavlova, Tur, and 'Razdel': What's in a Name?

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    This article concerns an authorship problem that raises issues of canonical aesthetics. What does it mean to say a literary work is ‘good’? And does knowing the author’s literary reputation affect our ability to appreciate the work? Nineteenth-century Russian critics divided women authors into ‘extraordinary women’, i.e. honorary men, and perpetrators of ‘women’s writing’—categories that have persisted in Russia. It seems useful to look at what ‘women’s writing’ is, and on what basis ‘Razdel’, regardless of its author, can be evaluate

    Tur\'{a}n numbers of general hypergraph star forests

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    Let F\mathcal{F} be a family of rr-uniform hypergraphs, and let HH be an rr-uniform hypergraph. Then HH is called F\mathcal{F}-free if it does not contain any member of F\mathcal{F} as a subhypergraph. The Tur\'{a}n number of F\mathcal{F}, denoted by exr(n,F)ex_r(n,\mathcal{F}), is the maximum number of hyperedges in an F\mathcal{F}-free nn-vertex rr-uniform hypergraph. Our current results are motivated by earlier results on Tur\'{a}n numbers of star forests and hypergraph star forests. In particular, Lidick\'{y}, Liu and Palmer [Electron. J. Combin. 20 (2013)] determined the Tur\'{a}n number ex(n,F)ex(n,F) of a star forest FF for sufficiently large nn. Recently, Khormali and Palmer [European. J. Combin. 102 (2022) 103506] generalized the above result to three different well-studied hypergraph settings, but restricted to the case that all stars in the hypergraph star forests are identical. We further generalize these results to general hypergraph star forests.Comment: arXiv admin note: substantial text overlap with arXiv:2001.05631 by other author

    Optimization of Microresistor Beam Performance Using COMSOL Multiphysics and Taguchi Method

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    Microresistor beams are crucial components in microelectromechanical systems (MEMS), with broad applications spanning from sensors to microactuators. Their performance is significantly influenced by their design and material properties, thus necessitating an effective optimization strategy. This study proposes a comprehensive approach to the optimization of microresistor beam performance using COMSOL Multiphysics and the Taguchi method. We utilized COMSOL Multiphysics, a powerful finite element analysis tool, to model and simulate the microresistor beam's behavior under a range of conditions. Through COMSOL, we investigated the effects of various design, material and operational parameters, including applied voltage, heat sink temperature and heat transfer coefficient, on beam's performance. The simulations allowed for a nuanced understanding of the complex interplay between these parameters and their impact on the beam's mechanical and electrical characteristics. The Taguchi method, a statistical design of experiments technique, was then employed to optimize these design parameters. By setting up orthogonal arrays, we could systematically explore the design space and identify the optimal combination of parameters that yielded maximum performance and resilience. In addition, the Taguchi method helped in minimizing the undesirable effects of noise factors, enhancing the robustness of the design. The findings of this study highlight the potential of integrating finite element modeling with the statistical design of experiments for the optimization of MEMS components. Moreover, the study offers a replicable and scalable model that can be employed in the optimization of other MEMS components.Although the focus of this study was on microresistor beams, the methodologies and insights gained are applicable to a wide array of microscale devices. Future research could adapt this approach for other MEMS components and explore its potential in different operational environments. In conclusion, this study presents a novel approach to the optimization of microresistor beams, contributing to the growing body of literature on the design and optimization of MEMS. By coupling finite element modeling with the statistical design of experiments, we offer a robust, efficient, and reliable path to the development of high-performance MEMS

    Harnessing the Power of Digital Twins for Enhanced Material Behavior Prediction and Manufacturing Process Optimization in Materials Engineering

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    The advent of Industry 4.0 and the digital revolution have brought forth innovative technologies such as digital twins, which have the potential to redefine the landscape of materials engineering. Digital twins, virtual representations of physical entities, can model and predict material behavior, enabling enhanced design, testing, and manufacturing of materials. However, the comprehensive utilization of digital twins for predictive analysis and process optimization in materials engineering remains largely uncharted. This research intends to delve into this intriguing intersection, investigating the capabilities of digital twins in predicting material behavior and optimizing manufacturing processes, thereby contributing to the evolution of advanced materials manufacturing. Our study will commence with a detailed exploration of the concept of digital twins and their specific applications in materials engineering, emphasizing their ability to simulate intricate material behaviors and processes in a virtual environment. Subsequently, we will focus on exploiting digital twins for predicting diverse material behaviors such as mechanical properties, failure modes, and phase transformations, demonstrating how digital twins can utilize a combination of historical data, real-time monitoring, and sophisticated algorithms to predict outcomes accurately. Furthermore, we will delve into the role of digital twins in optimizing materials manufacturing processes, including casting, machining, and additive manufacturing, illustrating how digital twins can model these processes, identify potential issues, and suggest optimal parameters. We will present detailed case studies to provide practical insights into the implementation of digital twins in materials engineering, including the advantages and challenges. The final segment of our research will address the current challenges in implementing digital twins, such as data quality, model validation, and computational demands, proposing potential solutions and outlining future directions. This research aims to underline the transformative potential of digital twins in materials engineering, thereby paving the way for more efficient, sustainable, and intelligent material design and manufacturing processes

    Applying Deep Learning for Automated Quality Control and Defect Detection in Multi-stage Plastic Extrusion Process

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    In the plastics industry, particularly in multistage extrusion processes, maintaining a consistent product quality is paramount. The extrusion process often involves converting granular raw material into a plastic film by heating and stretching it across multiple layers. Two significant aspects of the output product quality are product parameters such as film thickness and stretch, and the presence or absence of defects. Currently, product parameters are efficiently monitored using sensors, but defect identification largely relies on the manual visual inspection by the operator, which may not always occur in real time. This manual approach is prone to errors and can result in delayed defect detection. This study proposes to explore the application of deep learning to automate defect detection in the multi-stage plastic extrusion process. By training deep learning models on a rich dataset of process parameters of the output product, it is possible to enable realtime, automatic identification of defects. This can lead to a substantial improvement in the efficiency and accuracy of the quality control process. Various deep learning architectures will be employed and evaluated for their effectiveness in this task. Furthermore, this study also aims to investigate the correlation between various factors, including equipment performance and quality of incoming raw materials, and the occurrence of defects. Advanced deep learning techniques like Recurrent Neural Networks (RNNs) and Long Short-Term Memory (LSTM) networks will be used to analyze the time-series data from the extrusion process. The findings from this analysis could provide valuable insights into the root causes of defects and guide efforts to minimize their occurrence. In conclusion, this research seeks to leverage the potential of deep learning to enhance the quality control process in the multi-stage plastic extrusion industry, with a focus on automated, real-time defect detection and root cause analysis

    Seyahat işletmelerinde bütünleşme ve teknoloji

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    Tez (yüksek lisans) - Anadolu ÜniversitesiAnadolu Üniversitesi, Sosyal Bilimler Enstitüsü, Turizm İşletmeciliği Anabilim DalıKayıt no: 132857Turizm endüstrisi ; konaklama, ulaştırma, yemeÊiçme, rekreasyon, yan hizmet kuruluşları ve seyahat olmak üzere altı sektörü içerir. Tur operatörleri ve seyahat acentaları, seyahat sektörünün önemli kuruluşlarıdır. Geleneksel tur operatörleri, üretici işletmelerin ürünlerini bir araya getirerek paket tur adıyla tüketicilere sunarlar. Seyahat acentaları ise, turizm ürünlerini üreticiler ve toptancılar adına pazarlarlar. Ülkeler ve ülkelerin oluşturduğu birlikler arasında sınırların daralması, bir başka deyişle küreselleşme, diğer sektörleri olduğu gibi seyahat sektörünü de etkiler. Günümüz tur operatörleri, yurtiçinde ve yurtdışında havayolu işletmeleri, otelleri ve seyahat acentaları zincirleri olan bütünleşmiş kuruluşlardır. Seyahat sektörü, farklı ülkelerde ve dağıtım ağının farklı düzeylerinde çalışabilmek için teknolojiye belki de en fazla gereksinim duyan turizm sektörüdür. Türkiye'nin turizmde bir tür çekim ülkesi olması, seyahat işletmelerinin 'coming' ağırlıklı çalışmasına ve bu yönde gelişmesine neden olmaktadır. Ancak, Türk seyahat işletmeleri yurtiçinde ve yurtdışında diğer sektörlerle bütünleşmede ve teknoloji kullanımında yine de başarılı çalışmalar gerçekleştirmektedir
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