Thematische Bibliographien / Industries - Textile Industry

Inhaltsverzeichnis

  1. Zeitschriftenartikel
  2. Dissertationen
  3. Bücher
  4. Buchteile
  5. Konferenzberichte
  6. Berichte der Organisationen

Auswahl der wissenschaftlichen Literatur zum Thema „Industries - Textile Industry“

Autor: Grafiati
Veröffentlicht am 4. Juni 2021
Zuletzt aktualisiert am 30. Januar 2023

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Zeitschriftenartikel zum Thema "Industries - Textile Industry"

1

Gunturu, Karthik Pavan Kumar, Krishna Koundinya Kota und Madhu Sharma. „Energy Efficiency Improvement Opportunities in Indian Textile Industries“. Textile & Leather Review 5 (06.08.2022): 296–326. http://dx.doi.org/10.31881/tlr.2022.13.

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The Textile Industry is one of the largest industrial sectors and the fifth largest exporter of the textiles employing 45 million workers in India. The Indian textile industry has changed its ways in the production of finished textiles, Energy is involved in each of stage processing. Thus, this study aims to evaluate the energy efficiency of the processes in the textile industry and identify opportunities for improvement in the process involving raw fabric to the finished textile product. The energy efficiency determination in an industry can be evaluated by the energy consumption of the respective process equipment in an industry which includes the performance evaluation of the textile manufacturing processes. This paper describes the operations in textile manufacturing such as weaving, yarn production, spinning, drying, and also the significance of PAT schemes in energy improvement opportunities for various industries, including the technical improvement studies and also provides the brief description on validating various unit operations and respective parameters that affect the performance of various process equipment such as stenter, heaters, compressors, motors, and other non-production equipment. This review paper also described the impact of PAT cycle 1 in validating the energy intensity of technologies used in textile industries and some important measures required to improve the energy efficiency of a process as this could improve the functioning of the system. The best available techniques in the process has also been discussed in the sections which can be implemented in practice for improving the energy efficiency of the processes.
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Chen, Jun Yi, und Rong Jiang. „Strategy Research on Textile and Garment Export in Jiangsu Province“. Advanced Materials Research 225-226 (April 2011): 1036–40. http://dx.doi.org/10.4028/www.scientific.net/amr.225-226.1036.

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Textile industry is China's traditional leading industries and pillar industries. Total economic output of Textile industry occupy a pivotal position in all large-scale industries, and is the pillar industry in Jiangsu province's industrial economy, and makes an important contribution for the province's economic development and employment. This article discusses existing problems and countermeasures to address these issues of textile export in the Jiangsu Province. At present, Textile Industry is undergoing a critical period of structural adjustment and industrial upgrading. The textile export industry of Jiangsu Province would continue to grow and develop in the increasingly open a mature socialist economy with Chinese characteristics and a closely intertwined world economy.
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Wang, Qin, und Xiaoming Yang. „Analysis on Development Process and General Situation of Modern Chinese Textile Technology“. Asian Social Science 17, Nr. 9 (31.08.2021): 44. http://dx.doi.org/10.5539/ass.v17n9p44.

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In the early stage of China's modern capitalist industrialization, the national textile industry developed rapidly. The textile industry involved a wide range of industries. China's modern textile industry mainly includes filament, textile machinery manufacturing and wool textile industries in the development project of the textile industry in China's concession period, a number of textile industry central cities such as Shanghai, Tianjin, Qingdao, Wuhan, and Nantong have been formed.
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Gupta Khusbu Kumari. „Waste Management Strategies in Textile & Garment Sector“. International Journal for Modern Trends in Science and Technology 06, Nr. 9S (12.10.2020): 58–60. http://dx.doi.org/10.46501/ijmtst0609s09.

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Textiles and Apparel (T&A) sector is one of the most significant industrial sectors and plays a major role towards contribution to national economy, employment generation and exports in developing countriesand most essential consumer goods industry. However, textile industry is accused of being one of the most polluting industries. Not only production but consumption of textiles also produces waste. To counter the problem, textile industry has taken many measures for reducing its negative contribution towards environment. One of such measures is textile recycling- the reuse as well as reproduction of fibers from textile waste. Recycling can be done through thermal, material, chemical and mechanical processes. Textile recycling is beneficial for environmental and economic conditions, reducing demand for textile chemicals, requirement of landfill space is reduced, consumption of less energy and reducing of water wastage. Market research, and efforts are needed to increase consumer awareness and to encourage manufacturers to increase the use of recycled textile waste into new products. Fashion consumption and sustainability are often opposing ideas. Fashion consumption is a highly resource-intensive, wasteful practice; and sustainability frowns on wasteful consumption. Sustainability in the fashion business is still an emerging agenda, not yet established, and many authors have recognised the importance of investigating how sustainability could be achieved
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Utomo, Satrio, und Nugraheni Setiastuti. „INDUSTRI 4.0: PENGUKURAN TINGKAT KESIAPAN INDUSTRI TEKSTIL DENGAN METODE SINGAPORE SMART INDUSTRY READINESS INDEX“. Jurnal Techno Nusa Mandiri 16, Nr. 1 (12.03.2019): 29–36. http://dx.doi.org/10.33480/techno.v16i1.114.

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The era of technology is disrupted at this time, better known as the Industrial Revolution 4.0, already been applied to a various field of each country. Industry 4.0 include Internet of Thing (IoT), Artificial Intelligence (AI), human-machine interface, 3-D printing, and Advanced Robotics. Industry 4.0 is expected to increase productivity, business efficiency, and competitiveness. Indonesia’s Ministry of Industry has designed ‘Making Indonesia 4.0’ by preparing a roadmap and strategy to meet industry 4.0. There are 5 (five) prioritize manufacturing industrial sectors: Food and Beverages, Textile and Apparel, Electronics, Chemical, and Automotive. For studies conducted in the textile and apparel industry, as one of the priority industries. The Research study was conducted to determine the level of readiness of the textile manufacturing industry to meet industry 4.0 based on aspects of Technology, Processes, and Organizations. The method used is The Singapore Smart Industry Readiness Index. By knowing this level of readiness, it will help the industry to know the position of the current level of readiness and what needs are needed to reach the level of industry 4.0. By knowing the position, is able to know the strengths and weaknesses of technology from the operational technology used, which then knows the technological priorities that are of concern by management to increase industrial competitiveness towards industrial level 4.0.Based on the results of the mapping, related to the level of readiness of the textile industry of PT. Grand Textile based on technological aspects (1.56), process aspects (1.33) and organizational aspects (2.00) amounted to 1.63; position at level 1 which is categorized as New Comer.
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Ahlawat, Vanita, und Renu. „An Analysis of Growth and Association between Labour Productivity and Wages in Indian Textile Industry“. Management and Labour Studies 43, Nr. 1-2 (23.01.2018): 78–87. http://dx.doi.org/10.1177/0258042x17745182.

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India is one of the largest textile producers in the world. Textile industry is huge employment-providing industry after agriculture in India. The present article is an attempt to analyse first, the growth and composition of employees engaged in textile industry in India. Second, to find the growth and relation between employments, man-days employed, wages and net value added (NVA) by textile industry in India. And lastly, the impact of labour productivity in wage determination is also analysed. The results suggested that there is huge gender disparity in employment, that is, women are very few in comparison to men workers. Overall employment in textile has an increasing trend among both categories of textile industry. Further, spinning, weaving and finishing of textile manufacturing is growing faster than manufacturing of other textiles. Employment in textile industry has a positive and significant correlation with real wage rates in both categories of industries. This indicates that increase in real wage rate causes enhancement in employment in textile manufacturing. And further results suggest that labour productivity is a significant determinant of wage rate of textile employees.
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Hermawan, Iwan. „ANALYSIS OF THE IMPACT OF MACROECONOMIC POLICIES ON TEXTILE INDUSTRY AND ITS PRODUCTS IN INDONESIA“. Buletin Ekonomi Moneter dan Perbankan 13, Nr. 4 (28.06.2011): 357–90. http://dx.doi.org/10.21098/bemp.v13i4.398.

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Textile and textile’s product play an important role in the Indonesian economy. During the last five years, however, share of these industries and commodities to gross domestic product tend to decrease. The objectives of this study are to analyze factors affecting Indonesian textile and textile’s product, and the prospect of Indonesian textile and textile’s product in the future. Results of the study show that domestic textile production was affected by world cotton price and wage rate, while the domestic garment production was affected by wage rate in the garment sector. Indonesia’s textile export to world market was influenced by domestic textile price, and Indonesia’s export garment was influenced by exchange rate (Rp/US$). Indonesian textile demand was affected by wage rate and domestic garment demand was affected by income per capita of Indonesia. In general, the prospect of Indonesian textile and textile’s product seems not too good. In fact, Indonesian textile and textile’s product had depended on high import cotton, investment, and exchange rate. So why, economy policies are still needed to accelerate Indonesian textile and textile’s product developmentJEL Classification: C53, E60, F43, and F4.Keywords: export, open economy, forecasting, simulation, textile and textile’s product.
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Adane, Teshale, Amare Tiruneh Adugna und Esayas Alemayehu. „Textile Industry Effluent Treatment Techniques“. Journal of Chemistry 2021 (28.07.2021): 1–14. http://dx.doi.org/10.1155/2021/5314404.

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Dyes and other chemicals laden wastewater is a main environmental concern for increasing the textile industries in many parts of the world. Textile industries consume different kinds of manmade dyes or other chemicals and release huge extents of highly polluted water into the environment. This excessive dye laden wastewater has great impacts on photosynthetic activity in aquatic plants and animals, for example, fish. It may also affect human health due to the presence of components like heavy metals and chlorine in manmade dyes. Thus, wastewater effluent from textile industries must be treated before discharge into the water body. Treatment technologies observed in this review paper include biological treatment methods (fungi, algae, bacteria, and microbial fuel cells), chemical treatment methods (photocatalytic oxidation, ozone, and Fenton’s process), and physicochemical treatment methods (adsorption, ion exchange, coagulation, and filtration). This review also includes the hybrid treatment methods and their cost per m3 of treated wastewater analysis. There are alternative wastewater treatments systems at different steps of effluent generated from the textile operational unit recommend in this review work.
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Wang, Laili, Xuemei Ding und Xiongying Wu. „Blue and grey water footprint of textile industry in China“. Water Science and Technology 68, Nr. 11 (24.10.2013): 2485–91. http://dx.doi.org/10.2166/wst.2013.532.

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Water footprint (WF) is a newly developed idea that indicates impacts of freshwater appropriation and wastewater discharge. The textile industry is one of the oldest, longest and most complicated industrial chains in the world's manufacturing industries. However, the textile industry is also water intensive. In this paper, we applied a bottom-up approach to estimate the direct blue water footprint (WFdir,blue) and direct grey water footprint (WFdir,grey) of China's textile industry at sector level based on WF methodology. The results showed that WFdir,blue of China's textile industry had an increasing trend from 2001 to 2010. The annual WFdir,blue surpassed 0.92 Gm3/yr (giga cubic meter a year) since 2004 and rose to peak value of 1.09 Gm3/yr in 2007. The original and residuary WFdir,grey (both were calculated based on the concentration of chemical oxygen demand (CODCr)) of China's textile industry had a similar variation trend with that of WFdir,blue. Among the three sub-sectors of China's textile industry, the manufacture of textiles sector's annual WFdir,blue and WFdir,grey were much larger than those of the manufacture of textile wearing apparel, footware and caps sector and the manufacture of chemical fibers sector. The intensities of WFdir,blue and WFresdir,grey of China's textile industry were year by year decreasing through the efforts of issuing restriction policies on freshwater use and wastewater generation and discharge, and popularization of water saving and wastewater treatment technologies.
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Furferi, Rocco, Yary Volpe und Franco Mantellassi. „Circular Economy Guidelines for the Textile Industry“. Sustainability 14, Nr. 17 (05.09.2022): 11111. http://dx.doi.org/10.3390/su141711111.

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The production of textiles has a strong impact on the environment due to both over-consumption and the practice of production processes requiring the use of substances to manufacture, treat, and dye fabrics. In this context, finding new ways and solutions to transform used textiles into by-products or inputs for production is a trump card for the future of the textile sector. This may be accomplished by developing a circular economy policy, which involves large investments with a payoff only in a medium to long-term perspective. The main aim of the present work is to provide a set of guidelines to guide textile industries in the transition from traditional production processes to a systemic approach in consideration of the circular economy. This could leverage the efficient use of regenerated wool, the reduction (or lack) of waste production, and the management of the end-of-life of the product.
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Dissertationen zum Thema "Industries - Textile Industry"

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Tsui, Po-yung. „A comparative study of industrial adjustment in Hong Kong and Japan : the study of textiles and garments industries /“. Hong Kong : University of Hong Kong, 1997. http://sunzi.lib.hku.hk/hkuto/record.jsp?B18716155.

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Anyomi, C. D. „Relative efficiency in Ghanaian manufacturing industries : The case of the textile industry“. Thesis, University of Strathclyde, 1985. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.372107.

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Morrison, Claudio. „Soviet management and transition : the case of the Russian textile industry“. Thesis, University of Warwick, 2004. http://wrap.warwick.ac.uk/90800/.

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The purpose of this thesis is to evaluate the rationality of the continued use of soviet management practices in post-soviet industrial enterprises a decade after the 'transition to a market economy' on the basis of a detailed case study of a textile enterprise in Ivanovo oblast' in Russia. The thesis consists of two parts. The first part of the thesis comprises a critical review of the western literature on the management-controlled enterprise and the literature on the ·soviet industrial enterprise. The thrust of the critique is that the dominant management discourses abstract the enterprise from its social context and present western management practice as the epitome of rationality. Against this, Marxist-inspired approaches emphasise the embeddedness of the enterprise in a particular form of social relations, and so the embeddedness of management rationality. This provides the underlying theoretical thread of the analysis of the case study material. The second part of the thesis comprises a detailed case study of one textile enterprise. The analysis; of the case study material is presented in three chapters, covering management structures and practices, the wage and payment system and labour discipline. The analysis of the case study data shows that the rationality of soviet management practices is underpinned by the peculiar character of the social relations in the workplace which were characteristic of the soviet system of production and which have been sustained, and even strengthened, in the chaotic and unstable circumstances of the market economy as managers put a priority on maintaining social stability as a condition for maintaining the stability of production. The central findings of the thesis are briefly summarised in the conclusion.
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Corns, Marian. „The industrial triangle : work and society in the towns of Heywood, Middleton and Rochdale, 1840-1870“. Thesis, University of Huddersfield, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.368209.

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Toms, John Steven. „The finance and growth of the Lancashire cotton textile industry, 1870-1914“. Thesis, University of Nottingham, 1996. http://eprints.nottingham.ac.uk/11029/.

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Using accounting records and financial data, a business history of the Lancashire textile industry from 1870 to 1914 is presented. Issues of technology and industry structure, which have attracted a great deal of comment are first re-addressed. The discussion is then widened to include other aspects of the industry which have previously been neglected, namely the social processes of capital accumulation with reference to those evolving relationships between managers and shareholders which, in the context of broader economic change, helped forge the special characteristics of Lancashire capitalism. The industry is found to be generally healthy and competitive, although its fortunes were dangerously dependent on the overseas value of the pound. Whilst the original technologies of the industrial revolution were maturing, the alternative twentieth century means of automated throughput had still not been developed. External economies and flexibility associated with vertical specialisation thus continued to outweigh those of integrated throughput production. Meanwhile a transformation of the industry occurred in terms of its ownership, as the previously influential small shareholder was forced to surrender influence to a rising class of promotional and financial capitalists, a trend accentuated by, inter alia, a very serious stock exchange crash in the 1890s which forced many to sell their holdings. A shift of industry value added from labour to capital and record profits after 1900 are identified. These attracted capital into cotton and reinforced the position of the newer owners of the industry. Important features of their behaviour are examined, primarily their ability to construct impressive business empires through personal shareholdings and interference in day to day management, and their corresponding reluctance to establish professional management hierarchies, which, although increasingly common in other industries, were compromised by preference for individual, and not corporate, accumulation. Characterised as they were by their easy access to financial resources, these new capitalists might well have made sweeping changes to industry structure and technology had they chosen to do so. However, although ring spinning was found to be in general more profitable, the basis of that superiority was an extension of the process of increased specialisation. All specialised companies, whether ring spinners, mule spinners, or weavers, tended to do much better than their vertically integrated counterparts in the period after 1900. Evidence from this period has implications for our understanding of subsequent developments. If the industry could have been restructured before 1914, then so it could have been after the First World War when it arguably became more necessary. Pre 1914 technical constraints are identified and it is also noted that it was in the inter-war period that the means to remove them were fully developed. However, considering technical issues in conjunction with characteristics of capital ownership, it is concluded that, as the industry failed to attract investment when profit signals turned negative, for example in the 1890s, and attracted a lot of capital in the booms of the early 1900s, any constraint did exist to prevent restructuring it was financial rather than organisational. The process and character of capital accumulation is therefore advanced as a crucial ingredient of our understanding of business history. In short, the established financial, technical, and organisational structure, when combined with buoyant overseas monetary and trading conditions, is found to have created the synthesis of a profitable industry; when external conditions changed, financial, technical, and organisational constraints became important but in that strict and steeply descending order. Lancashire was highly vulnerable to the world market; that vulnerability was accentuated by the way in which capital was created. It was the social process of capital accumulation which was the principal determinant of the development, and perhaps therefore ultimately the decline, of a once great industry.
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Jin, Jianhua. „Pilotage du développement durable dans l'industrie textile chinoise“. Thesis, Université Grenoble Alpes (ComUE), 2015. http://www.theses.fr/2015GREAG007/document.

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Cette thèse appartient à la catégorie dite recherche-action qui fleurit pendant les années 1970. Il résulte de questions venant de la société et utilise la méthodologie venant des recherches récentes et enraciné dans les théories validées.Dans le premier article, nous déterminons les facteurs principaux qui incitent à la gestion écologique dans l'industrie textile. Nous définissons des facteurs internes (le coût écologique, la culture écologique, la capacité de communication, la capacité d'innovation technologique écologique) et des facteurs externes (le gouvernement et les lois, la pression d'environnement du aux concurrents) pour des entreprises et utilisons une méthode basée sur les dire d'experts et la méthode ANP pour déterminer les facteurs principaux et leurs interactions.Le deuxième article se concentre sur l'industrie textile du vêtement et propose un tableau de bord spécifique au niveau d'une usine pour évaluer les performances économiques, et environnementales et, sociales. Ce tableau de bord est une première tentative, tant sur le plan méthodologique que sur le front de collecte de données, vers la construction d'une vue globale sur l'impact de la production dans l'industrie de vêtement en Chine. Les caractéristiques de certaines des sociétés impliquées dans la chaîne d'approvisionnement sont prises en compte. Nous donnons un exemple de notre méthodologie en montrant comment une petite société a utilisé ce tableau de bord dans les processus de décision. Enfin, nous proposons des pistes pour la réglementation pouvant permettre d'attendre pour l'industrie de nouveaux standards de qualité écologique de production.Le troisième article vise à construire un modèle de prise de décisions pour cette petite usine de vêtement qui fait face à un ensemble de choix alternatifs. Le modèle prend en compte de multiples critères et des perspectives des parties prenantes diverses. Il permet d'aider à la décision pour choisir des fournisseurs, des machines industrielles voire changer de système énergétique. Nous mettons en œuvre la méthode Prométhée pour une usine textile. Des parties prenantes multiples sont prises en compte : PDG, actionnaires, autorités gouvernementales locales et centrales.Cette thèse répond à la mise en œuvre pratique d'une stratégie de développement durable dans une petite entreprise chinoise soumise à la concurrence international
This thesis can be said to belong to the research-action which flourishes during the 1970's. It arises from questions coming from the society and uses methodology coming from recent researchers and rooted in the validated theories.In the first paper, we determine which main factors induce the green management in the garment industry. We define internal factors (green cost, green culture, communication skill, ability of green technology innovation) and external factors (government and laws, competitors' environment pressure) for companies and use the expert scoring method and ANP to determine main factors and how they interact.The second paper focuses on the textile industry and proposes a specific dashboard at the plant level to evaluate the environmental, social and economic performances.This dashboard is a first attempt, both on the methodological and data collection front,towards building a global view on the impact of production in the garment industry in China at the level of individual production firms. In particular, the characteristics of some of the firms involved in the supply chain are taken into account. We exemplify our methodology by showing how a small firm has introduced this dashboard in the decision process. Then we propose some guidelines about possible new regulations and enticements for firms to meet new quality standards. Taken together, the dashboard gives insights into the impacts of the processes from a triple angle: economic, social and ecological.The third paper attempts to construct a decision making model for a small garment businesswho face a set of alternative choices. The model deals with multi-criteria from various stakeholders' perspectives to choose suppliers, change machines and switch the energy system.We implement the Prométhée method for a textile factory. Multiple stakeholders are taken into account: CEO, shareholders, local and central governmental authorities
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Sabourin, Vincent. „Strategic groups and technological change : a comparative analysis of the primary textile and steel industries“. Thesis, McGill University, 1992. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=41029.

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How does technological change alter the position and the configuration of groups of producers in an industry? This dissertation examines the transformations in the strategic groups of two manufacturing industries that introduced radically new manufacturing processes. The primary textile market during the period 1958 to 1978 with the introduction of synthetic fibers, introduced a large-scale process production. In the steel industry during the period 1965 to 1985, small-scale process production was introduced with the technology of mini-mills.
The impact of new manufacturing processes on the economic position of producers in the industry has been examined conventionally by the research in strategic management, which used with the set of business strategies developed by the positioning school (i.e., cost leadership, differentiation and focus). Where the cost structure is the determinant of the profitability of a manufacturer, strategic groups are expected to establish their position in terms of scale and scope (Porter 1980, Aaker, 1984, Day, 1990).
Our findings lead us to introduce a different view of the topic by focusing on competition between strategic groups having different centers of gravity. A center of gravity has been defined by Galbraith (1983) as the primary location of a producer in the economic chain of transformation. We found that large-scale and small-scale manufacturing processes have radically different impacts since these processes are intimately associated with specific centers of gravity.
Large-scale manufacturing processes create conditions for the formation of generalists with a strong center of gravity at the upstream primary manufacturing stage engaged in processes such as casting, cutting and forming. This strategic group of generalists establishes a dominant position in the industry in two stages: a cost leadership strategy followed by integrative strategies such as upstream and downstream vertical integration and ultimately, product diversification. Since manufacturers serve the same geographical market, we have a configuration of competing strategic groups.
Small-scale manufacturing processes create conditions for the formation of mid-size producers that we have called semi-generalists and semi-specialists. These strategic groups have a strong center of gravity at the downstream manufacturing stage and are engaged in processes such as as assembling and finishing. They have smaller scale facilities, are not vertically integrated, and sell a narrower product range than generalists. Since they are located closer to industrial centers and dedicated to specific industries, they compete on factors other than price, such as geographic location, product differentiation, service, etc. These strategic groups of medium-size producers challenge the dominance of generalists by restructuring the market into a set of regional markets. The configuration of strategic groups is shaped by generic groups of manufacturers competing in different geographical markets.
The set of business strategies proposed by the positioning school was adequate for large-scale processes. However, this set of strategies was largely inappropriate in a context where small-scale processes are introduced.
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Molatsana, Nkabo Elias Matsobane. „The effects of structural changes on the demand for labour, with special reference to the South African textile and clothing industries“. Pretoria : [s.n.], 2006. http://upetd.up.ac.za/thesis/available/etd-04172007-132710.

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Lai, Sui-king. „The trade policy of Hong Kong : an analysis of agenda-setting in the revitalisation of Hong Kong's textiles and clothing industries /“. Hong Kong : University of Hong Kong, 2000. http://sunzi.lib.hku.hk/hkuto/record.jsp?B22050577.

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Wai, Pong-wa. „Embedded autonomy in the "East Asian economic miracle" : the case of Hong Kong with special reference to banking, textile and garments, and electronics sectors /“. Hong Kong : University of Hong Kong, 1998. http://sunzi.lib.hku.hk/hkuto/record.jsp?B20716965.

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Bücher zum Thema "Industries - Textile Industry"

1

T, Jenkins D., und Economic History Society, Hrsg. The Textile industries. Oxford: Blackwell Publishers, 1994.

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Canada, Statistics. Primary textile industries. Ottawa: Statistics Canada, 1985.

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ʻUdomkitdēchā, Wīrasak. ʻUtsāhakam singthō̜ Thai =: The Thai textile industries. Krung Thēp: Sathāban Phatthanā ʻUtsāhakam Singthō̜, 2001.

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Tuan, Qitu, und Natalia Shieh. Brazil's ethanol and cotton industries. New York: Nova Science Publishers, 2012.

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B, Garner Myrna, Hrsg. Going global: The textile and apparel industry. New York: Fairchild Books, 2016.

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6

1951-, Davidson William Harley, und Feigenoff Charles Samuel, Hrsg. U.S. industrial competitiveness: The case of the textile and apparel industries. Lexington, Mass: Lexington Books, 1987.

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India's textile sector: A policy analysis. New Delhi: Sage Publications, 1993.

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Service, Foreign Investment Advisory. Improving Indonesia's competitiveness: Case study of textile and farmed-shrimp industries. Washington, D.C.]: Foreign Investment Advisory Service, 2006.

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Rattan, J. B. Modern textile technology. Chandigarh: Abhishek Publications, 2008.

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Kōzō chōsei no sangyō bunseki: Daikyōsōka no Nihon sangyō kigyō no kōzō chōsei. Tōkyō: Sōfūsha, 1998.

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Buchteile zum Thema "Industries - Textile Industry"

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Verma, Vartika, Sunanda Joshi, Monika Choudhary und Nidhi Srivastava. „Enzymes in Textile Industries“. In Bioprospecting of Enzymes in Industry, Healthcare and Sustainable Environment, 383–94. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-33-4195-1_18.

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Gopalakrishnan, Badri Narayanan. „History of Indian Textile Industry“. In Economic and Environmental Policy Issues in Indian Textile and Apparel Industries, 1–11. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-62344-3_1.

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Teske, Sven, Sarah Niklas und Simran Talwar. „Decarbonisation Pathways for Industries“. In Achieving the Paris Climate Agreement Goals, 81–129. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-99177-7_5.

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AbstractThe decarbonisation pathways for the industry sectors are derived. The energy-intensive chemical industry, the steel and aluminium industries, and the cement industry are briefly outlined. The assumptions for future market development used for the scenario calculations are documented, and the assumed development of the energy intensities for product manufacture is presented. An overview of the calculated energy consumption and the resulting CO2 intensities is given, with the assumed generation mix. The textile and leather industry is also included in this chapter because of its strong ties to the chemical industry and meat production (part of the service sector).
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Schwinge, Isabel. „Knowledge-intensive entrepreneurship in the German textile industry“. In The Paradox of Knowledge-Intensive Entrepreneurship in Low-Tech Industries, 125–214. Wiesbaden: Springer Fachmedien Wiesbaden, 2015. http://dx.doi.org/10.1007/978-3-658-10937-0_5.

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Müller, Kai, Andrés Posada-Moreno, Lukas Pelzer und Thomas Gries. „Objectifying Machine Setup and Parameter Selection in Expert Knowledge Dependent Industries Using Invertible Neural Networks“. In Lecture Notes in Mechanical Engineering, 293–300. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-18326-3_29.

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AbstractThe textile industry is one of the oldest and largest industries in the world. The fields of application for textile products are diverse. Although the technologies for manufacturing textiles are extensively researched, the industry is still highly dependent on expert knowledge. To date, manual process- and machine adjustments and quality control are the norms rather than the exception. Heat setting is used in the process chain to dissolve or selectively introduce tensions from the weaving or knitting process and to prepare the products for digital printing. The correct setting of the machine depends on a large number of different materials-, processes- & environmental parameters. For each product, the machine has to be set up again by an experienced textile engineer. To ease the training for new workers and shorten the machine setting process, this study aims to use machine learning to facilitate and objectify the setting of the heat-setting process. Machine parameters are generated using an invertible neural network (INN) based on pre-defined target parameters. The results can be used to identify trends in machine settings and respond accordingly. Thus, a reduction of machine setting time could be realized.
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Schwinge, Isabel. „The sectoral innovation system of the German textile industry“. In The Paradox of Knowledge-Intensive Entrepreneurship in Low-Tech Industries, 99–124. Wiesbaden: Springer Fachmedien Wiesbaden, 2015. http://dx.doi.org/10.1007/978-3-658-10937-0_4.

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Schäfer, Michael. „Global Markets and Regional Industrialization: The Emergence of the Saxon Textile Industry, 1790–1914“. In Regions, Industries, and Heritage, 116–35. London: Palgrave Macmillan UK, 2015. http://dx.doi.org/10.1057/9781137333414_8.

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Maeda, Yasuo. „Textile Industry“. In Japan’s Industrial Technology Development, 177–98. Tokyo: Springer Japan, 1999. http://dx.doi.org/10.1007/978-4-431-68509-8_7.

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Wassholm, Johanna, und Anna Sundelin. „Rag Collectors: Mobility and Barter in a Circular Flow of Goods“. In Encounters and Practices of Petty Trade in Northern Europe, 1820–1960, 69–94. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-98080-1_4.

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AbstractThis chapter traces a forgotten, yet important itinerant means of livelihood, namely rag collecting. Rags played an essential role as raw material for the paper and textile industries in the nineteenth century. The chapter identifies a business logic based on the idea that material perceived by one individual as worthless could be turned into something of economic value. As rags were commodified, they acquired new value in a different context. By analyzing newspapers, periodical articles and responses to ethnographic questionnaires, the authors follow a group of rag collectors from the Karelian Isthmus, who utilized their favorable geographic location to gain a livelihood from a circular flow of goods. The chapter demonstrates how an earthenware pot could be bartered for a discarded garment, which in turn became a piece of the puzzle in the process that kept industry and economic growth going.
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Miller, Richard K. „Applications in The Textile Industry“. In Industrial Robot Handbook, 601–11. Boston, MA: Springer US, 1989. http://dx.doi.org/10.1007/978-1-4684-6608-9_69.

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Konferenzberichte zum Thema "Industries - Textile Industry"

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Chow, Charlie. „Nanotechnology in Textile Industry and Advantages“. In 2008 Second International Conference on Integration and Commercialization of Micro and Nanosystems. ASMEDC, 2008. http://dx.doi.org/10.1115/micronano2008-70017.

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Nanotechnology can be applied to various industries and textile industry is one of the foremost industries benefited. Starting 1997, textile industry pioneers with foresight already using the nanometer particles to coat on yarns, fibre and fabric to give innovation to the industry. There was estimation that in 2007, the market for the nanometer particles application, electronic textiles and wearable electronics had reached US$13.6 billion and projected to hit US$115 billion in 2012 (1). Despite this great potential, the textile industries find themselves like swimming in the big ocean when applying nanotechnology to their products. Consumers are hesitated to accept the nano-treated garments as they have little knowledge when comes to nanotechnology. A poll was taken out in August, 2007 showed that in United States, many Americans know little to nothing about nanotechnology. Only 6% of Americans have “heard a lot” about nanotechnology and 42% have heard “nothing at all” (2, 3).
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Cioffi, Elena, und Barbara Pizzicato. „Design and tools for the transformation and valorisation of agro-industrial waste for Made in Italy industries“. In 13th International Conference on Applied Human Factors and Ergonomics (AHFE 2022). AHFE International, 2022. http://dx.doi.org/10.54941/ahfe1002019.

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Responding to a sustainable production is an imperative that is gaining more and more relevance in the definition of specific programs and strategies at national and international level. This urgency leads towards zero waste and circular models and processes that minimize the extraction of resources from the biosphere and do not create waste; instead, when the waste of natural or anthropogenic transformations cannot be avoided, their valorization as resources must be carried out. The development of integrated supply chains, knowledge transfer between different disciplines and the dialogue between research and industry becomes fundamental for the achievement of these objectives. Existing studies in the literature regarding the agri-food production chain in Italy show that the sector, whose environmental impacts are by no means marginal, is fragmented in many small production companies; an interesting and critical aspect at the same time since the generation of waste is not accompanied by an appropriate dissemination of data at a quantitative-qualitative level and there is no clear regulatory framework available on alternative management and valorisation methods. Design, given its natural inclination to transversality, allows to trace scenarios in which to configure, through interdisciplinary approaches, the sustainability models that are intended to be covered in this contribution. Moreover, its methods and tools allow to develop a critical thinking starting from the very early designing phase. The paper addresses the valorisation of agro-industrial waste in a circular and systemic perspective through the presentation of a review of case studies from the textile supply chain, which is one of the most relevant for Italian industry.Due to its disastrous environmental impact, the global textile industry is today the subject of extensive research aimed at the development of innovative materials and processes in order to overcome the traditional linearity of the textile supply chain. The negative impacts of the textile industry are distributed along the entire value chain and are mainly attributable to greenhouse gas emissions -for which the textile industry represents the fifth manufacturing sector- consumption and pollution of water resources and the production of textile waste. In particular, the production of synthetic fibers, which is estimated to be almost two thirds of the global fiber production, is associated with a high use of non-renewable resources and emissions, which derives from the extraction of fossil fuels. In this sense, the valorisation of agro-industrial waste as secondary raw materials and new sustainable inputs for the textile supply chain, represents an opportunity not yet fully explored, in particular as regards the development of a new generation of fibers, yarns and eco-compatible fabrics alternative to the materials currently in use. Bio-based wastes and by-products from agri-food industry could as well present enormous potential for valorisation in the textile finish due to their intrinsic properties (antimicrobial, prebiotic, antioxidant activity, among others). At present, nevertheless, textiles from agro-residues do not completely meet the requirements to make them an attractive replacement for conventional fibre sources. Future research should therefore focus on identifying new agro-residue based blends that offer both performance and sustainability, adopting a systemic design approach based on interdisciplinary and interconnections as a strategy for innovation.
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Dajić, Ana, Milica Karanac und Marina Mihajlović. „Application of Fenton's Reagent in the Coloured Textile Wastewater Treatment“. In 34th International Congress on Process Industry. SMEITS, 2021. http://dx.doi.org/10.24094/ptk.021.34.1.27.

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Sintetic dyes used in textile industry are very stabile molecules, which greatli influence wastewater treatment. Wastewater treatment is one of the most important elements of pollution control but improved oxidative processes could be an easy and successful way to combat this problem. For the purposes of this research, wastewater was simulated so that the quality is like waste water from the textile industry. Dye from simulated textile industries wastewater was removed using a Fenton reagent. The quantities of chemical agents used are in accordance with the principles of cleaner production and compliance with the requirements for the preservation of the environment.
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Škrbot, Izidor, und Matevž Obrecht. „The COVID- 19 Impact on the Food and Textile Industry: Lessons Learned“. In XV. International Conference on Logistics in Agriculture 2021. University of Maribor Press, 2021. http://dx.doi.org/10.18690/978-961-286-538-2.5.

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The Covid-19 virus pandemic has crippled life as we know it. The virus is still spreading, and life is still not normal. Of course, various industries are crippled. Supply chains will need to become more resilient in the future to possible recurrence of incidents like the pandemic of Covid-19. In this article, we will present how the Covid-19 virus pandemic has affected the food and textile industries. We have reviewed what measures were made at the start of the pandemic and how these industries have adapted to them. We also reviewed how the measures will affect supply chains and how they should operate in the future to withstand possible recurring emergencies such as the Covid-19 pandemic. We also compared the benefits of local in global supply chains, because in food supply chains the issue needs to be addressed and the Covid-19 virus pandemic can encourage consumers to buy locally produced food. It turned out that the Asian textile industry is largely dependent on western countries and has fallen into a major crisis with a massive drop in orders.
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Carvalho, Cristina, Gianni Montagna, Carla Costa Pereira und Carlos Manuel Figueiredo. „Biodyes: A new solution for textile dyeing technology“. In 13th International Conference on Applied Human Factors and Ergonomics (AHFE 2022). AHFE International, 2022. http://dx.doi.org/10.54941/ahfe1001548.

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The Textile Industry is one of the most representative industries in the world's industrial structure and has always assumed an important role in the national economy. Globally, and according to a study by Grand View Research, this industry represented 961.5 billion dollars in 2019 (Grand View Research - Global textile market 2020-2027).However, this sector represents the second most polluting industry in the world, and the environmental impacts occur, above all, in terms of water consumption, soil erosion, CO2 emissions and the resulting residues.The textile industry is responsible for the production of 2.1 billion tons of waste, most of which are discarded into the water ecosystem, essentially during the dyeing processes. In fact, dyeing is one of the most polluting processes in the textile industry, representing a high source of pollution of water circuits and environmental ecosystem. According to the World Bank, textile dyeing industries are responsible for 20% of industrial water pollution.This reality acquires even greater proportion when analyzing the quantities of dyes produced. Every year, it is estimated that around 10,000 types of dyes and pigments, and 7x105 tons of synthetic dyes are produced in the market, for this sector. From this production, more than 200,000 tons of dyes are released into industrial effluents during the textile processing phases (dyeing and finishing).To reduce the environmental footprint caused by the textile industry, the replacement of synthetic dyes by others from natural compounds has been the subject of extensive research, through the development of new ways of coloring textile materials.One of the emerging research areas is related to the exploration of obtaining natural dyes, from microorganisms, called Biodyes.The research aims to develop a sustainable dyeing process, through the production of biodyes, from the metabolic study of the production of microorganisms.It is known the potential that exists in the generation of color and a wide spectrum of functionalities, from biotechnology, regarding the metabolic pathway of certain microorganisms, in the specific case from bacteria such as E. Coli. The main advantages of the innovation proposed in the investigation of this research work are compared to synthetic dyes/pigments, its very low environmental impact, in terms of consumption of material and energy resources, environmental pollution and non-toxicity of the resulting effluents. At the same time, the production of dyes from microorganisms, bacteria and/or fungi, has benefits compared to natural alternatives of plant origin due to its independence from seasonal limitations and climatic conditions, as well as the rapid growth of some substances and therefore with much higher biological yields and consequent industrial application.
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Vasconcelos, Rosa Maria, Emilia Araújo und Nélia Lima. „Time as Challenge in Textile Industry: Issues of Education, Culture and Science“. In 20th AUTEX World Textile Conference - Unfolding the future. Switzerland: Trans Tech Publications Ltd, 2022. http://dx.doi.org/10.4028/p-b2kgkm.

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The textile industry has developed throughout the 21st century highly sustained by the accuracy of time control, reduction of waiting times and intensification of working time regimes. It is one of the industries where the times and methods were best tested and where mass production model was intensely developed. In parallel, the textile industry followed through a colossal transformation at the level of lifestyles, with the increase diversification of fashion consumption [1]. Currently, the textile industry is associated with various fashion consumer products, in addition to clothing. It is one of the most important in the world, with a relevant impact on the economy, at regional and national levels, such is the case of Portugal. In this context of high acceleration, the paper focus on two important ideas: i) companies are ever more facing the need to adapt to the ever-increasing time flexibility, mobility and fragmentation that characterize young graduates’ expectations and ways of live; ii) these cultural changes on values of time are demanding new modes of organizing and administering time and human resources in the organizations [2].
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Yan, He, und Susan Fiorito. „Diffusion and Performance of CAD/CAM in the U.S. Textile and Apparel Industry“. In ASME 2002 International Mechanical Engineering Congress and Exposition. ASMEDC, 2002. http://dx.doi.org/10.1115/imece2002-39475.

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This study examines the determinants of CAD/CAM adoption and diffusion in American textile and apparel industries. Innovation diffusion theory provided a conceptual framework and empirical base applicable to the study of technology adoption and implementation. A variety of sources were used to develop the survey which was mailed to a national random sample of 500 textile and apparel manufacturers. The responses of 103 manufacturers from 30 different states were analyzed. Factor analysis was used to identify the dimensions of reasons for CAD/CAM adoption. Hypotheses were tested with logistic regression analysis procedures. The diffusion of CAD/CAM practices was found to be driven primarily by the market and affected by the business-unit size. In addition, labor considerations affected recent CAD/CAM adoption.
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Adebola Abisuga, Oluwayemisi, und Deon De Beer. „A Systematic Literature Review and Prospects for the Additive Manufacturing in the Creative Industries“. In 13th International Conference on Applied Human Factors and Ergonomics (AHFE 2022). AHFE International, 2022. http://dx.doi.org/10.54941/ahfe1001584.

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In the Creative Industries (CI), Additive Manufacturing is one of the new areas of investigation and without doubt has the potential for disruptive innovation capable to transform the traditional manufacturing paradigm and increase the largely accepted and required shift towards the design, conceptualisation, and adoption of sustainable Additive Manufacturing (AM) process. The objective of this study is to conduct a Systematic Literature Review (SLR) to identify and describe different publications that can contribute to additive manufacturing in the creative industry’s knowledge base. The purpose is to identify the publication trends that largely explain the adoption the additive manufacturing in the manufacturing process of handicraft industry product literature through the description of the main discourse rising newly in the field. This research contributes to filling the gap in terms of SLR on the importance of CI and AM for industrial development conducted by bibliometric analysis. The results of this systematic review revealed that: notwithstanding the increasing concern about the growth of the CI, issues related to product innovation and technological development of the industries are understudied; there is promising literature for the development of contextual creative industry practice which researchers are dedicating their works. However, a further focus of research on the fashion, textile, architecture, sculpture, and archeological sites has emerged in the more specialised literature.
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Barros, Carina Espina de Jordão, Joaquim Manuel Silva und Ana Cristina Broega. „Circular Business Models and Textile Waste: Riopele Case Study in Portugal“. In 20th AUTEX World Textile Conference - Unfolding the future. Switzerland: Trans Tech Publications Ltd, 2022. http://dx.doi.org/10.4028/p-q9qlu7.

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The circular economy has been an emerging theme in the strategic decisions of different industrial sectors as an alternative to reducing the negative impact generated by the linear economy that extracts, transforms, uses, and discards our planet's resources without a second chance for reuse. In this way, most industrial sectors are looking for new business models based on circularity that can reduce the effects generated by the residues of their production processes and that can cause serious damage in the environmental, social, cultural, and economic. In the textile sector, issues related to waste management become even more evident, due to the relevance of this segment in the world economy and the extension of its production chain. In this context, the main objective of the article is to assess the potential and challenges of the Portuguese textile industry in the implementation of business models based on the circular economy for the reuse of textile waste. In the first phase, the work was carried out through systematic research of literature review in current indexed studies to investigate the theme of circular business models. In the second moment, qualitative research was carried out based on a case study in the textile industry RioPele in Portugal. Data collection took place through semi-structured interviews, in loco, in January 2020 with the managers responsible for the company's sustainability department. The results indicate as potential the fact that the company already integrates sustainability into its corporate values, applies circularity in the development of new products, is supported by class institutions, research centers and universities and recognizes this collaboration as a decisive factor for the success of its business model focused on waste reuse. However, it points out as a difficulty the still high costs for the transition to the circular economy and the need for more effective communication actions to share the principles of circularity and generate greater awareness in its customers and other stakeholders. The results of the investigation can help other industries in the textile segment to realize the advantages of reusing their waste for a more circular textile economy with strong brands that can generate positive impacts on society.
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Costa Maia, Laura, Anabela C. Alves, Celina P. Leão und Rubén Eira. „Validation of a Methodology to Implement Lean Production in Textile and Clothing Industry“. In ASME 2017 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2017. http://dx.doi.org/10.1115/imece2017-71464.

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Lean Production is considered a management methodology that has been implemented in many industries and services. Nevertheless, Lean experts know that this is not only a management methodology; it is more a philosophy and a new way of life. This is the reason why it is difficult to implement but, even worst, to be successful and to be sustainable. A continuous effort of improvement must always be kept in mind. Attending to these factors, it is important to have a methodology that helps to implement Lean Production effectively. This methodology could be different from industry to industry in order to model the differences between them and, most important, to assure its sustainability. This paper presents the validation of one such methodology for the Textile and Clothing Industry (TCI), based on three case studies (three Textile and Clothing companies located in North of Portugal). To validate it, different field procedures instruments such as interviews, questionnaires, and checklists were used. With these instruments, some validation results of the methodology were obtained, mainly, related with the diagnosis phase of Lean implementation. Results of two case studies were published in previous papers, being the results of a third case presented in this paper. Also, an analysis and discussion of the three case studies results, regarding their attitudes and difficulties are presented.
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Berichte der Organisationen zum Thema "Industries - Textile Industry"

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Sadachar, Amrut, und Sanaz Einollahi. Application of GAPS Model to Improve Textile and Apparel Industry's Sustainable Practices. Ames: Iowa State University, Digital Repository, 2017. http://dx.doi.org/10.31274/itaa_proceedings-180814-1878.

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Keihauer, Silke, Martin Führ und Julian Schenten. Marktchancen für "nachhaltigere Chemie" durch die REACH-Verordnung - Am Beispiel globaler Lieferketten in der Textil- und Sportartikel-Industrie (SuSport). Sonderforschungsgruppe Institutionenanalyse, März 2019. http://dx.doi.org/10.46850/sofia.9783941627697.

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Dieser Bericht dokumentiert die Ergebnisse des Forschungsprojekts „Marktchancen für ‚nachhaltigere Chemie‘ durch die REACH-Verordnung [Sustainable Sporting Goods - SuSport]“. Ziel des im Jahr 2018 abgeschlossenen Projektes ist es, eine „nachhaltigere Chemie“ in der textilen Lieferkette zu unterstützen und dabei den Blick von der „reaktiven“ Compliance Position auf eine „proaktive“ Beyond Compliance Perspektive zu erweitern. Strategisch stützt sich dieser Ansatz auf folgende Überlegung: Wer morgen noch „Compliant“ sein will, muss heute bereits „Beyond Compliance“ agieren. Mit einer solchen Strategie ist nicht nur die Rechtskonformität gewährleistet, es lassen sich viel-mehr auch neue Marktchancen erschließen.4 Die Notwendigkeit für diesen Perspektivenwechsel ergibt sich bereits aus der normativen Ausgangssituation Ein solcher Perspektivenwechsel und die damit verbundenen Veränderungen bedeuten für die Akteure der Textilbranche eine große Herausforderung Denn letztlich führt dies zu der Frage, wie man ein Chemikalienmanagement in der globalen Lieferkette organisiert Aus diesem Kontext ergeben sich die Empfehlungen für die Akteure der textilen Lieferkette Methodisch bestand die Herausforderung darin, die vorherrschenden Denk- und Argumentationsmuster der beteiligten Akteure der textilen Kette für die Ziele dieses Vorhabens zu öffnen Es bleibt abzuwarten, ob der entstandene Prozess ein Momentum erzeugt, der zu den gewünschten Veränderungen in der textilen Lieferkette führt erste Schritte in diese Richtung sind aber bereits erkennbar.
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Burga Bartra, Eduardo. Estrategias para la reconversión de la industria textil y confecciones en Guatemala y Nicaragua. Geneva, Switzerland: International Centre for Trade and Sustainable Development, 2009. http://dx.doi.org/10.7215/co_ip_20091223.

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