Relevant bibliographies by topics / Steel strip

Contents

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

Academic literature on the topic 'Steel strip'

Author: Grafiati
Published: 4 June 2021
Last updated: 6 February 2022

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Journal articles on the topic "Steel strip"

1

Jiao, Zhi Jie, Jian Ping Li, and Jie Sun. "A Pilot Rolling Mill Designed for High Strength Steels." Materials Science Forum 654-656 (June 2010): 210–13. http://dx.doi.org/10.4028/www.scientific.net/msf.654-656.210.

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High strength steels, such as austenitic stainless steel, Transformation Induced Plasticity (TRIP) steel and silicon steel, have significant work hardening during cold rolling, which in turn induces a quickly increased rolling force. Tension plays a very important role in the reduction of the rolling force. However, coiler tension control system used in the classic experimental rolling mill requires long-scale strip, which cannot be satisfied for most experimental cases. To overcome this drawback, a new pilot rolling mill has been developed. The horizontally located hydraulic cylinders and clamps have been used to apply tension to the rolled short-scale strip. With this rolling mill, the austenitic stainless steel strip, TRIP steel strip and other high strength strips have been studied.
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YI, YU, ZEHUA ZHOU, ZEHUA WANG, SHAOQUN JIANG, and WEIDONG HUANG. "Si-STEEL THIN-STRIP PREPARED BY TWIN-ROLL CONTINUOUS CASTING." Surface Review and Letters 18, no. 03n04 (June 2011): 97–102. http://dx.doi.org/10.1142/s0218625x11014515.

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The fabrication process of Si -steel thin-strip by twin-roll continuous casting was described and the quality of the obtained Si -steel thin-strip was measured. Si -steel strips with 0.5–6.5 wt.% Si content were successfully prepared, and proper parameters including pouring temperature, height of molten pool, casting speed and pouring head mode were optimized, and their mechanisms were discussed. The relationship between quality factors of Si -steel including cracks, strip thickness, impurity and process parameters such as Si content and so on were discussed. The morphologies of the strips with different Si content were studied.
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Daamen, Markus, Daniel Dávalos Julca, and Gerhard Hirt. "Tailored Strips by Welding, Strip Profile Rolling and Twin Roll Casting." Advanced Materials Research 907 (April 2014): 29–39. http://dx.doi.org/10.4028/www.scientific.net/amr.907.29.

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Conventional strips can be converted into tailored strips by further processing such as rolling and welding. Tailored strips have a thickness or thickness distribution which is designed according to the expected loads. A new approach for the production of tailored strips is the twin roll casting of profiled strips. This technology combines the advantages of direct strip casting and the production of steel strip with an optimized cross section. In this paper the achievable process limits regarding the geometry of tailored strips with varying thickness in the cross section made by strip profile rolling, twin roll casting and welding are discussed and compared. Furthermore, experiments to demonstrate the suitability of twin roll casting to produce tailored strips made of AISI 304 stainless steel are treated. A selected tailored strip geometry of 150 x 1.5 mm2 (width x thickness) with a difference in strip thickness of 33% over the width was cast.
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Vidoni, Michele, Markus Daamen, and Gerhard Hirt. "Numerical and Experimental Investigation of a Modified Twin Roll Strip Casting Process for the Production of Clad Steel Strips." Key Engineering Materials 651-653 (July 2015): 689–94. http://dx.doi.org/10.4028/www.scientific.net/kem.651-653.689.

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A process for the production of clad steel strips by means of vertical twin-roll strip casting is under investigation at the Institute of Metal Forming (IBF). This production concept is based on the introduction of a solid strip in the casting pool in order to join it with the solidifying melt. The advantages of this concept are a shorter process chain and a higher energy efficiency compared to the existing cladding methods. The contact time and the thickness ratio between solid strip and solidifying melt, their relative position and the alloy combination are fundamental parameters to be considered in the design of this cladding process. A numerical model is used to predict the temperature increase in the solid strip and the solidification of the melt for the material combinations 1.4301/C75 and C75/Cu, and for two process configurations. Carbon steel and copper strips were introduced in the melting pool during casting experiments. Both carbon steel and copper strips could be clad without melting when positioned on the casting roll surface. This indicates that the surface temperature of the copper strip did not rise over 1084°C. Both the copper and the carbon steel strips show partial melting when introduced in a central position.
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Münster, Dennis, and Gerhard Hirt. "Copper Clad Steel Strips Produced by a Modified Twin-Roll Casting Process." Metals 9, no. 11 (October 28, 2019): 1156. http://dx.doi.org/10.3390/met9111156.

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Twin-roll strip casting of steel provides a resource and energy efficient way to produce thin hot strips directly from the liquid phase. Clad metals offer less costly alternatives to monolithic alloys for a wide range of applications, but their various production routes are extensive, expensive, or slow. In order to exploit the strengths of twin-roll strip casting to provide a possibly more cost and energy efficient production route for clad thin strips, research into the expansion of twin-roll strip casting process is conducted. The aim of the current research is the combination of steel with copper. For this purpose, a prefabricated cladding strip of commercially pure copper is inserted into the twin-roll strip casting process. Bonding between the copper strip and the cast steel strip (DC01) is realized by exploiting the process heat. The bonding zone of the clad strip is subsequently analyzed under the optical microscope and in the electron micro probe analyzer. The imagery shows an irregular bonding interface with straight and locally altered regions alternating. These irregularities can be classified into four groups based on their morphology and suspected forming mechanism. Bond strength and formability of the clad strips is qualitatively examined in rolling and bending tests. Rolling was possible without delamination and a total height reduction of approx. 40% while defect-free bending of 2 mm and 3 mm thick specimens was possible up to a bending angle of 90° for a bending radius of 5 mm.
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Münster, Dennis, Michele Vidoni, and Gerhard Hirt. "Effects of Process Parameter Variation on the Bonding Strength in Clad Steel Strips by Twin-Roll Strip Casting." Materials Science Forum 854 (May 2016): 124–30. http://dx.doi.org/10.4028/www.scientific.net/msf.854.124.

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Twin-roll strip casting represents a promising alternative production route for clad steel strips. The main idea behind the presented research is the introduction of a prefabricated strip into the melt pool of a twin-roll casting process to exploit the heat of the melt to create bonding between the cast strip and the prefabricated strip. Prior investigations proved the general feasibility of this concept for steel-steel combinations and described the bonding of the two layers. This concept is now further investigated with the aim to understand the influence of the process parameters on the bonding. For the experiments an austenitic high manganese steel is cladded with an austenitic stainless steel. Beginning from a starting point determined in numerical simulations, a process window for the introduction of a 0.3 mm thick strip of 1.4301 was identified by process parameter variation during casting experiments. Up to 25 m long clad strips with a thickness ratio between introduced strip and cast strip ranging from 1:6 to 1:10 were produced this way. Micrographic examinations of the clad strips’ cross sections were carried out to describe the influence of the casting parameters on the joining interface. Higher element diffusion was found in strips with bigger thickness ratios, indicating a stronger bonding of the two layers. Afterwards the observations from the micrographic examination were compared to the results of bonding strength which were obtained by a customised shear test. Supporting the findings of the micrographic examinations the average bonding strength rose from around 100 MPa for a ratio of 1:7 to over 300 MPa for the ratio of 1:10. Although the process parameters with the main influence on the bonding strength, the contact time and the thickness ratio, have been identified more research is needed to quantify their influence.
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Przondziono, Joanna, and Jan Szymszal. "Steel Strips Flattening in Ball Rolling Mill." Solid State Phenomena 165 (June 2010): 153–58. http://dx.doi.org/10.4028/www.scientific.net/ssp.165.153.

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An effective and efficient production method of narrow and thin strips made of steel, non-ferrous metals and their alloys is wire flattening in a ball rolling mill. In this device cylindrical rollers have been replaced with balls of diameter ca. 15 mm. Proper selection of deformation process parameters enables to obtain strips with the required geometrical characteristics. Experimental planning method was applied to evaluate the influence of flattening process technological parameters on strip geometrical features. Statistical analysis enabled to determine mathematical models of stainless steel 5XCrNi18-10 strips flattening. It was established that strip widening depends on ball roughness, draft applied, relation of wire diameter to ball diameter, back-tension stress. Strips flatness depends on draft applied. It was observed that strips feature uniform thickness over their width, parallel flat surfaces, narrow dimensional tolerance, high quality surface and naturally rounded edges.
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Ekhande, Shantaram G., and George Abdel-Sayed. "Application of compound finite strip method in soil–steel structures." Canadian Journal of Civil Engineering 16, no. 4 (August 1, 1989): 426–33. http://dx.doi.org/10.1139/l89-072.

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The method of compound finite strip is applied for the three-dimensional analysis of corrugated soil–steel structures with and without curved stiffeners. Displacement functions are suggested for the analysis of soil–steel structures during and after backfilling. The eccentricity between the middle surfaces of stiffened elements and the adjacent shell elements is considered in the displacement functions so that the continuity of the shell is satisfied between the strips. The formulation presented herein incorporates the stiffness contribution of surrounding soil media directly in the strip element stiffness matrix. Examples of soil–steel structures are analyzed by the proposed method and the results are compared with experimental results. Key words: cylindrical shells, finite strip, soil–steel structures, stiffeners.
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Morimoto, Toshiharu, Y. Fuyuki, A. Yanagida, and Jun Yanagimoto. "Application of Recrystallization Texture Evolution Model to Predict Plastic Formability in Steel Strips." Materials Science Forum 783-786 (May 2014): 1954–60. http://dx.doi.org/10.4028/www.scientific.net/msf.783-786.1954.

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T.M.C.P.(Thermo Mechanical Control Processing) has been widely used to improveplastic formability in steel strips. We have produced interstitial free steel(IF steel) strips and ferriticstainless-steel strips through T.M.C.P. rolling method. Optimizing conditions of hot rolling, hotrolled annealing, cold rolling and cold rolled annealing, we developed texture prediction model. Wecan predict rolling texture accurately using the conventional Taylor model. Moreover, we preciselypredict recrystallization texture classifying the total number of microscopic􀀁 slips which arecalculated using the Taylor model. We consider that these calculated results provednucleation-oriented model and two types of recrystallization and grain growth mechanisms exit inour studies. One mechanism is that grains which had the small total number of microscopic slips arepreferred orientation for the hot rolled and annealed ferritic stainless-steel strip. The othermechanism is that grains which had the high total number of microscopic slips are preferredorientation for the cold rolled and annealed IF steel strip.
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Elsner, A., Radko Kaspar, Dirk Ponge, Dierk Raabe, and Sybrand van der Zwaag. "Recrystallisation Texture of Cold Rolled and Annealed IF Steel Produced from Ferritic Rolled Hot Strip." Materials Science Forum 467-470 (October 2004): 257–62. http://dx.doi.org/10.4028/www.scientific.net/msf.467-470.257.

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The ferritic rolling strategy allows for the production of two different hot strip grades, a "soft" and a "hard" hot strip. The "soft" hot strip is rolled in the upper ferrite region and a sufficiently high coiling temperature ensures direct recrystallisation in the coil. The "hard" hot strip is rolled at relatively lower temperatures in the ferrite temperature region and exhibits a strained microstructure with a desirable rolling texture. Furthermore, these ferritic rolled hot strips can be used as initial strip for subsequent cold rolling. The current investigation focuses on the development of the recrystallisation texture of cold rolled and annealed ferritic rolled hot strip for different cold reductions. For this purpose "soft" and "hard" hot strips were produced on a laboratory hot rolling mill. These strips were cold rolled with a total reduction of 40 to 80% to a final thickness of 0.5mm. Subsequently the strips were subjected to simulated continuous annealing, using a salt bath furnace. The macro texture of both types of specimens was measured and correlated to the mechanical properties, including the Lankford values. A very different development of the recrystallisation texture and hence mechanical properties has been observed. However, both grades yielded improved deep-drawing properties.
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Dissertations / Theses on the topic "Steel strip"

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Jefferies, Carol. "Modelling a novel, thin strip, continuous steel caster delivery system." Thesis, McGill University, 1995. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=28788.

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Smooth delivery of molten metal to a chilled substrate is a key prerequisite for the development of a successful technique for thin-strip casting steel. In this work, a numerical model of a thin-strip, liquid steel delivery system was developed, validated, and used to make design predictions. The proposed slot-type planar-flow delivery system could contain a porous flow modifier, and features an extended-pool metal delivery system to the chilled substrate.
The steady-state, computational-fluid-dynamic (C. F. D.) model developed for this research is two-dimensional, and uses the finite-difference, control-volume formulation. The implicit solutions for the fluid flow and energy fields are fully coupled and include treatment of the solidification phenomena using the enthalpy-porosity approach. The model includes porous flow modifying regions within the delivery zone. These are treated as regions of complex media and make use of the "Brinkman-Forchheimer extended-Darcy" model. Turbulence was modelled using an ad hoc approach for both effective viscosity and effective thermal conductivity.
Numerical predictions of fluid flow were compared with experimental flow measurements and flow visualization using a water model of the proposed delivery system. The experiments confirmed that the flow modifiers had a very beneficial smoothing effect on fluid delivery to the substrate in the feeding system. The numerical predictions were in good agreement with the experimental results. As well, numerical predictions of shell thickness were compared with several different simple semi-analytical test cases.
The model was used for several parametric studies. The effect of flow modification, in conjunction with varying pool lengths, was studied. The model predicted that the presence of the flow modifiers would smooth the fluid flow to the substrate, and promote even extraction of heat, despite extension of the reservoir's length. Extending the pool length delayed the onset of solidification. Another study made predictions for cases with differing inlet and substrate boundary conditions, as well as for different exit gap sizes. This part of the work demonstrated the type of predictions possible with this model for use in the design of a prototype of the proposed delivery system.
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Owen, Robert. "Reliability monitoring techniques applied to a hot strip steel mill." Thesis, Cardiff University, 2011. http://orca.cf.ac.uk/25646/.

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Reliability engineering techniques have been used in the manufacturing environment for many years. However the reliability analysis of repairable systems is not so widely practised in the steel manufacturing environment. Many different analysis methods have been proposed for the modelling of repairable systems, most of these have had limited application in the manufacturing environment. The current reliability analysis techniques are predominantly used by engineers to construct a “snapshot” in time of a manufacturing system’s reliability status. There are no readily identifiable applications of reliability modelling techniques being applied to repairable systems over a long time period within the manufacturing environment The aim of this work is to construct a method which can analyse and monitor the reliability status of multiple repairable systems within the steel plant over an extended operating period. The developed analysis method is predominantly automated and is facilitated by applying standard reliability analysis techniques to all of the repairable systems failure data sets under review. This Thesis illuminates the methodology used to fulfil the remit of this research by the following sequential steps: Developing a new methodology for the application of reliability analysis techniques to repairable systems within a steel manufacturing facility Utilised an innovative step of combining three reliability analysis methods as complimentary activities Constructed an automated reliability analysis model which fulfils the project remit. In addition the model is capable of the long term monitoring of repairable system reliability The new reliability analysis method has been delivered to Tata Steel and is installed in the Port Talbot Technology Group with a direct link to the Hot Strip Mill (HSM) monitoring database. This reliability analysis method has been tested with four years operational data from the Hot Strip Mill manufacturing area and the analysis has shown that changes and trends in all systems reliability status can be easily identified.
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Moody, Mark K. "Development of novel TRIP strip steel grades for automotive applications." Thesis, Swansea University, 2009. https://cronfa.swan.ac.uk/Record/cronfa43191.

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Wall, N. J. "The structure and deformation characteristics of zinc coatings on steel strip." Thesis, Bucks New University, 1985. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.373600.

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Fletcher, John David. "Process simulation of the hot rolling of thin gauge strip by finite element modelling." Thesis, University of Sheffield, 1998. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.301559.

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Vidoni, Mchele [Verfasser]. "Contribution to the Development of a Process to Produce Tailored Steel Strips by Twin-Roll Strip Casting / Mchele Vidoni." Aachen : Shaker, 2016. http://d-nb.info/1118258851/34.

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Stuckey, C. D. "Detection and prevention of sticker wrench marks on batch annealed steel strip." Thesis, Swansea University, 1997. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.639126.

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Sticker wrench marks are a surface defect which affects steel strip produced by the batch annealing route. The defect has a three stage formation mechanism; interlap diffusion bonding (sticking) which alters the pay-off geometry during uncoiling (wrenching), leading the Luders band formation (marking). It is estimated that sticker wrench marks cost British Steel Strip Products £1.73 million per annum in rejections for surface quality. The objectives of the project were to improve the understanding of the formation mechanism, seeking to identify procedures to detect and prevent the formation of wrench marks. Three main areas of work undertaken were interlap pressure prediction, wrench detection and wrench prevention. The calculation of the interlap pressure formed during coiling and in the cooling cycle of annealing was carried out using published algorithms. The results were used to justify modifications to the coiling tension pattern on the five stand mill and to introduce a retarded cool to the annealing cycle. Wrench detection involved the detection and analysis of noise emitted during uncoiling at the temper mill. The noise was found to contain characteristic frequency peaks, which were related to the breaking of the interlap bonds. The frequency of the spectral signatures is related to the dimensions of the defect and to strip gauge, uncoiling speed and, to a lesser extent, uncoiling tension. The intensity of the signatures was found to be related to the strength of the interlap bonds. Using these conclusions, an integrated signal processing and archiving system was designed which could determine the likelihood of a coil to form wrench marks. A method to control the pay-off geometry of the strip using electro-magnets was developed. The device, consisting of a magnet, stablising arm and positioning system, is placed over the pay-off point of the coil. Trials carried out on a narrow strip mill showed an alteration of the pay-off geometry to the desired tangential case, which should eliminate stick wrench marking.
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Morris, Alan John. "A study of the tension levelling process for tinplate gauge steel strip." Thesis, Cardiff University, 1996. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.430356.

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Du, Jinlong. "Development of high strength hot rolled strip steel products with bainitic microstructures." Thesis, University of Birmingham, 2016. http://etheses.bham.ac.uk//id/eprint/6881/.

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High strength, low alloy, hot rolled strip steels with yield stresses in the range 700 to 1300MPa are required for the Lifting and Excavating product sector. Improved combination of strength and toughness in these high strength steels is desired, requiring a detailed understanding of the relationship between microstructure and mechanical properties. In this work 12mm thick 700MPa yield stress strip steels with fully bainitic microstructures, with different compositions and/or processing conditions, have been studied. The microstructures of the steels were investigated with both optical microscopy and SEM. Micro-hardness and Charpy impact tests (at different temperatures) were carried out to investigate the mechanical properties, followed up with fracture surface analysis and unit crack path (UCP) analysis. Three types of bainitic microstructures were identified and quantified, including upper bainite, lower bainite and granular bainite. The fracture surface and UCP analysis indicating that granular bainite is detrimental to toughness, but cannot necessarily be avoided in the steels investigated; while the presence of a small amount of lower bainite (above 5%) was found to improve the impact toughness significantly. Continuous cooling transformation (CCT) diagrams for steels with different compositions were produced, which allowed investigation of the phase transformation behaviour and selection of optimum chemical composition/coiling temperature for improved properties. The effects of alloying elements (B, Mo and V) on the transformation behaviour have been confirmed through the experiments. An optimised combination of alloying and coiling temperature has been proposed and validated via investigating plant trial products with similar alloying and processing parameters.
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Soltani, Maryam. "Image-based analysis of steel sheathed cold-formed steel shear wall buckling behavior." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2020.

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The high lateral force resisting feature of the cold-formed steel structure, make it an attractive design choice in seismic zones. The shear strength of these systems controls by two critical factors, the characteristic of the sheathed and the sheathing-to-frame connections. There are many challenges associated with testing different configurations of these thin-wall structures (size, layout, sheathed material). Despite the huge growth of such constructions, the design procedure and the numerical calculation developed by the American Iron and Steel Institute provision AISI S240 (2015) and AISI S400 (2015), didn’t provide a proper standard for the various possible design of the CFS shear walls. This thesis proposes a study aiming to expose the gap across the theory to the practical issue by comparing the equation-based analysis and the image-based analysis of the shear strength of the shear walls. Two large-scale CFS shear walls infilled with gravity wall were tested under the quasi-static reversed cyclic protocol at the laboratory of the University of California San Diego. These innovative specimens were built with the thicker framing members than the listed ones in the AISI standard and assembled in the specific framing layout. The sheathing-to-frame connections and sheathing parameters like screw spacing, screw size, and thickness of the sheet was the same in both walls. The shear strength of these walls computed through the effective Strip width method in the provisions of the AISI S400 (2015) by selecting the minimum value between the shear capacity of the connections which bar the shear force in the tension field and the shear strength of the sheathed. Surprisingly the calculated result was one-third of the test results. This experiment shows how imperfect is the provided equation-based shear strength method by the AISI standard design for CFS Structures.
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Books on the topic "Steel strip"

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V, Vladimirov I͡U. Proizvodstvo pli͡ushchenoĭ stalʹnoĭ lenty. Moskva: "Metallurgii͡a", 1985.

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Telger, Karl. Einfluss der Glühbedingungen auf Planheit und innere Spannungen von nichtkornorientierten Elektrobändern. Freiberg: Technische Universität Bergakademie Freiberg, 2006.

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Mike, Peters. Steel-belted Grimm: Starring Mother Goose & Grimm. New York: Topper Books, 1988.

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Hinchcliffe, S. E. Recrystallisation of low carbon steel strip during ultra-rapid heating. Manchester: UMIST, 1995.

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International conference Steel strip (5th 1996 Opava, Severomoravský kraj, Czech Republic). Ocelové pásy '96: 5. mezinárodní konference : sborník přednášek, 17.-19. září, 1996, Opava, Česká republika. [Ostrava]: Společnost Ocelové pásy, 1996.

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International Conference Steel Strip (6th 2001 Rožnov pod Radhoštěm, Ostrava, Czech Republic). Ocelové pásy 2001: 6. mezinárodní konference : sborník přednášek, 25.-27. září, 2001, Rožnov pod Radhoštěm, Ostrava, Česká republika. [Ostrava]: Společnost Ocelové pásy, 2001.

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United States International Trade Commission. Certain stainless steel sheet and strip from France, Germany, Italy, Japan, the Republic of Korea, Mexico, Taiwan, and the United Kingdom. Washington, DC: United States International Trade Commission, 1998.

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United States International Trade Commission. Certain stainless steel sheet and strip from France, Germany, Italy, Japan, the Republic of Korea, Mexico, Taiwan, and the United Kingdom. Washington, DC: United States International Trade Commission, 1998.

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International Symposium on Strip Casting, Hot and Cold Working of Stainless Steels (1993 Québec, Québec). Strip casting, hot and cold working of stainless steels: Proceedings of the International Symposium on Strip Casting, Hot and Cold Working of Stainless Steels, Quebec City, Quebec, August 29-September 2, 1993. Edited by Ryan Norman D, Brown Andy J, McQueen H. J, Tanaka Shigenori, Metallurgical Society of CIM, and Conference of Metallurgists. (32nd : 1993 : Québec, Québec). Montreal, Quebec: Canadian Institute of Mining, Metallurgy and Petroleum, 1993.

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United States International Trade Commission. U.S. global competitiveness: Steel sheet and strip industry : report to the Committee on Finance, U.S. Senate Investigation no. 332-231 under secion 332(g) of the Tariff Act of 1930. Washington, DC: U.S. International Trade Commission, 1988.

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Book chapters on the topic "Steel strip"

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Daamen, Markus, Michele Vidoni, and Gerhard Hirt. "Vertical Twin-Roll Strip Casting of Steel." In 60 Excellent Inventions in Metal Forming, 219–24. Berlin, Heidelberg: Springer Berlin Heidelberg, 2015. http://dx.doi.org/10.1007/978-3-662-46312-3_34.

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Ruha, Paavo, Pasi Peura, Rautaruukki Oyj, and Michael Jansen. "Using Neural Networks in Steel Strip Rolling." In Steels and Materials for Power Plants, 51–56. Weinheim, FRG: Wiley-VCH Verlag GmbH & Co. KGaA, 2006. http://dx.doi.org/10.1002/3527606181.ch9.

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Wei, D. B., and Z. Y. Jiang. "Tribology in Hot Rolling of Steel Strip." In Materials Forming, Machining and Tribology, 121–49. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-31683-8_4.

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Phelan, D. J., T. Zuidwijk, L. Strezov, Jilt Sietsma, and R. J. Dippenaar. "Experimental Studies into Strip Casting of Steel." In THERMEC 2006, 4155–60. Stafa: Trans Tech Publications Ltd., 2007. http://dx.doi.org/10.4028/0-87849-428-6.4155.

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Gácsi, Zoltán, and Zsolt Csepeli. "Stereological Characterisation of Steel Wide Strip Microstructures." In Materials Science, Testing and Informatics II, 207–12. Stafa: Trans Tech Publications Ltd., 2005. http://dx.doi.org/10.4028/0-87849-957-1.207.

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Mattik, Imke. "Production planning and steel industry." In Integrated Scheduling of Continuous Casters and Hot Strip Mills, 5–33. Wiesbaden: Springer Fachmedien Wiesbaden, 2013. http://dx.doi.org/10.1007/978-3-658-03775-8_2.

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Traint, Sandra, Ewald Werner, Andreas Pichler, and Peter Stiaszny. "Low Alloyed Dual-Phase and Multiphase Steel Strip." In Steels and Materials for Power Plants, 71–76. Weinheim, FRG: Wiley-VCH Verlag GmbH & Co. KGaA, 2006. http://dx.doi.org/10.1002/3527606181.ch13.

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Mattik, Imke. "Scheduling concepts with focus on the steel industry." In Integrated Scheduling of Continuous Casters and Hot Strip Mills, 34–56. Wiesbaden: Springer Fachmedien Wiesbaden, 2013. http://dx.doi.org/10.1007/978-3-658-03775-8_3.

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Zimmermann, Hans, Achim R. Büchner, and Karl-Hermann Tacke. "Cracking Phenomena in Twin Roll Strip Casting of Steel." In Steels and Materials for Power Plants, 29–32. Weinheim, FRG: Wiley-VCH Verlag GmbH & Co. KGaA, 2006. http://dx.doi.org/10.1002/3527606181.ch5.

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Georghiou, Luke, J. Stanley Metcalfe, Michael Gibbons, Tim Ray, and Janet Evans. "Davy Mckee (Sheffield): Automatic Control of Steel Strip Thickness." In Post-Innovation Performance, 126–30. London: Palgrave Macmillan UK, 1986. http://dx.doi.org/10.1007/978-1-349-07455-6_10.

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Conference papers on the topic "Steel strip"

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Liddell, J., S. Wenning, D. Romano, E. Bauman, and N. Dolzan. "Steel Dynamics’ New Continuous Coil Coating Line for Steel Strip." In AISTech2019. AIST, 2019. http://dx.doi.org/10.33313/377/187.

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Lekhov, O. S., M. M. SHevelev, and D. H. Bilalov. "Continuous casting and deformation plant for the production of steel three-layer bimetallic strips." In SCIENCE OF RUSSIA: GOALS AND OBJECTIVES. L-Journal, 2020. http://dx.doi.org/10.18411/sr-10-12-2020-49.

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The technology of obtaining steel three-layer bimetallic strips on the installation of a combined process of continuous casting and deformation is described. The regularities of changes in the temperature of the main steel strip during its passage through the molten metal of the cladding layer are established. The stress-strain state of the metals of the main strip and the cladding layers in the deformation zone during the production of steel three-layer bimetallic strips is determined. The results of a study of the microstructure of the steel 09G2S – steel 13XFA – steel 09G2S bimetal obtained at a pilot installation for continuous casting and deformation are presented.
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Legrand, N., and B. Becker. "Anisotropic Friction in Cold Rolling of Flat Steel Strips." In World Tribology Congress III. ASMEDC, 2005. http://dx.doi.org/10.1115/wtc2005-63986.

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This work analysed the role of friction and other process parameters on strip edge drop and width variations during cold rolling of flat steel strips. Comparisons of 3D numerical simulations with experimental datas from rolling trials have shown that roll bite friction is anisotropic: friction in the transverse direction is twice to four times higher than that in the rolling direction. Work roll circumferential grinding striations and the associated roll roughness anisotropy are considered to be responsible for this anisotropy. Moreover by modifying friction anisotropy (decrease of transverse friction for the same longitudinal friction), it is possible to compensate for width narrowing usually observed on commercial cold mills (narrowing is due to strip thermal contractions in the mill interstands). Therefore, friction appears as a suitable process actuator for control of cold rolled product dimensions.
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Zhang, Minghao, Bo Liu, Claire Grenier, Pierre Montmitonnet, Michel Picard, and Jean-Luc Borean. "Oxide Fracture Mechanisms in Descaling of Steel Strips on the Hot Strip Mill." In THE 14TH INTERNATIONAL ESAFORM CONFERENCE ON MATERIAL FORMING: ESAFORM 2011. AIP, 2011. http://dx.doi.org/10.1063/1.3589537.

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Browne, Florian, George Chiu, and Neera Jain. "Dynamic Modeling of Twin-Roll Steel Strip Casting." In ASME 2016 Dynamic Systems and Control Conference. American Society of Mechanical Engineers, 2016. http://dx.doi.org/10.1115/dscc2016-9698.

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We consider the problem of dynamic coupling between the rapid thermal solidification and mechanical compression of steel in twin-roll steel strip casting. In traditional steel casting, molten steel is first solidified into thick slabs and then compressed via a series of rollers to create thin sheets of steel. In twin-roll casting, these two processes are combined, thereby making control of the overall system significantly more challenging. Therefore, a simple and accurate model that characterizes these coupled dynamics is needed for model-based control of the system. We model the solidification process with explicit consideration for the mushy (semi-solid) region of steel by using a lumped parameter moving boundary approach. The moving boundaries are also used to estimate the size and composition of the region of steel that must be compressed to maintain a uniform strip thickness. A novelty of the proposed model is the use of a stiffening spring to characterize the stiffness of the resultant strip as a function of the relative amount of mushy and solid steel inside the compression region. In turn this model is used to determine the force required to carry out the compression. Simulation results demonstrate key features of the overall model.
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Goohwa Kim, Sang-Woo Choi, Jinsu Bae, and Jung-Hwan Kim. "Inner defect detection for a thin steel strip." In 2008 International Conference on Control, Automation and Systems (ICCAS). IEEE, 2008. http://dx.doi.org/10.1109/iccas.2008.4694418.

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Liu, Zheng, Xusheng Wang, and Xiong Chen. "Inception Dual Network for steel strip defect detection." In 2019 IEEE 16th International Conference on Networking, Sensing and Control (ICNSC). IEEE, 2019. http://dx.doi.org/10.1109/icnsc.2019.8743190.

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Gong, Wenjie, Zhigao Zhang, Anli Lin, Jian He, Ruifen Hou, and Zhiyi Xu. "Magnetostriction Measurement in Electrical Steel and Amorphous Strip." In 2018 Conference on Precision Electromagnetic Measurements (CPEM 2018). IEEE, 2018. http://dx.doi.org/10.1109/cpem.2018.8501014.

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Lopera, J. M., J. Diaz, F. F. Linera, J. M. Perez, and G. Vecino. "Online strip cleanliness sensor for steel industries (draft)." In 2013 IEEE Industry Applications Society Annual Meeting. IEEE, 2013. http://dx.doi.org/10.1109/ias.2013.6682560.

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Cao, Binfang, Yangyang Lu, and Weiwen Hu. "Study on Parameter Measurement of Hole-Punched Steel Strip*." In 2018 Chinese Automation Congress (CAC). IEEE, 2018. http://dx.doi.org/10.1109/cac.2018.8623664.

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Reports on the topic "Steel strip"

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Sussman, R. C., and R. S. Williams. Process development of thin strip steel casting. Office of Scientific and Technical Information (OSTI), December 1990. http://dx.doi.org/10.2172/6336681.

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Robert D. Reilly. Method of making steel strapping and strip. Office of Scientific and Technical Information (OSTI), February 2000. http://dx.doi.org/10.2172/754933.

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Ludtka, Gerard Michael, Gail Mackiewicz Ludtka, Orlando Rios, John B. Wilgen, Chad M. Parish, Hiram Rogers, Roger A. Kisner, et al. Magnetic Processing of Steel Strip and Next Generation Alloys. Office of Scientific and Technical Information (OSTI), May 2013. http://dx.doi.org/10.2172/1080248.

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Purtscher, P. T. Structure-property relationships in steel produced in hot-strip mills. Gaithersburg, MD: National Bureau of Standards, 1999. http://dx.doi.org/10.6028/nist.tn.1500-7.

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Williams, R. S. Development of a thin steel strip casting process. Final report. Office of Scientific and Technical Information (OSTI), April 1994. http://dx.doi.org/10.2172/467131.

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Camb, Alan W., and Anthony Rollett. AIS/DOE Technology Roadmap Program: Strip Casting: Anticipating New Routes To Steel Sheet. Office of Scientific and Technical Information (OSTI), August 2001. http://dx.doi.org/10.2172/791070.

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Reilly, Robert D. Making of Steel Strapping and Strip. Semi-Annual Report for Period Ending April 30, 2000. Office of Scientific and Technical Information (OSTI), July 2000. http://dx.doi.org/10.2172/763387.

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Ajeesh, S. S., and Jayachandran S. Arul. ELASTIC BUCKLING OF COLD-FORMED STEEL COMPLEX CROSS SECTIONS USING CONSTRAINED SPLINE FINITE STRIP METHOD (CSFSM). The Hong Kong Institute of Steel Construction, December 2018. http://dx.doi.org/10.18057/icass2018.p.147.

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Franco-Ferreira, E., and S. Feldbauer. Commercial Development of a Process for Continuous Reduction of Mill Scale on Hot Rolled Strip Steel. Office of Scientific and Technical Information (OSTI), October 2000. http://dx.doi.org/10.2172/768920.

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Kurek, Harry, and John Wagner. Development and Demonstration of a High Efficiency, Rapid Heating, Low NOx Alternative to Conventional Heating of Round Steel Shapes, Steel Substrate (Strip) and Coil Box Transfer Bars. Office of Scientific and Technical Information (OSTI), January 2010. http://dx.doi.org/10.2172/970839.

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