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Автор: Grafiati
Опубліковано: 7 вересня 2023

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1

G.KANIMOZHI, G. KANIMOZHI, and P. LATHA P.LATHA. "Material Management in Constuction Industry." Indian Journal of Applied Research 4, no. 4 (October 1, 2011): 1–3. http://dx.doi.org/10.15373/2249555x/apr2014/263.

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2

Kashid, Sumit D., and Dr A. R. Kolhe. "Effective Material Management For Building Construction Industry." Journal of Advances and Scholarly Researches in Allied Education 15, no. 2 (April 1, 2018): 561–65. http://dx.doi.org/10.29070/15/56897.

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3

Mazanova, M., V. Zdychova, P. Dryak, and R. Bludovsky. "Development of a reference material for water industry." Standartnye obrazсy - Reference materials, no. 4 (2015): 22–27. http://dx.doi.org/10.20915/2077-1177-2015-0-4-22-27.

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4

Jagatap, Chetan, and Uday Phatak. "A Study of Material Management System In Construction Industry." Journal of Advances and Scholarly Researches in Allied Education 15, no. 2 (April 1, 2018): 532–37. http://dx.doi.org/10.29070/15/56891.

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5

Lestari, Ary, Leni Tria Melati, Kasim Kasim, Jupriyanto Jupriyanto, and George Royke Deksino. "Ceramic Armor as Protective Material in Defense Industry Product: A Literature Review." MOTIVECTION : Journal of Mechanical, Electrical and Industrial Engineering 5, no. 1 (December 15, 2022): 101–12. http://dx.doi.org/10.46574/motivection.v5i1.175.

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Анотація:
Ceramics are currently widely used in various defense industries. Among them are the purposes of body armor (vests and helmets), vehicle protection, and ballistic protection. This review aims to provide insight into ceramic armor materials including their manufacture, use, and application as protective materials. The method used is a literature review and describes the results of the analysis related to the application of ceramic materials in the form of ceramic armor. The use of ceramic armor materials in defense industry products is proven to provide good performance compared to metal materials, especially in increasing the mobility capabilities of defense personnel. In addition, the use of ceramic armor has initiated the development of lightweight protective materials so that various technologies have been developed to maximize the use of ceramics in the defense industry. Keramik saat ini banyak digunakan dalam berbagai industri pertahanan. Diantaranya untuk keperluan bahan pelindung tubuh (rompi dan helm), pelindung kendaraan, dan pelindung balistik. Review ini bertujuan untuk memberikan wawasan tentang material armor keramik yang meliputi pembuatan, penggunaan, dan aplikasinya sebagai bahan pelindung. Metode yang digunakan adalah literatur review dan mendeskripsikan hasil analisa terkait aplikasi material keramik dalam bentuk ceramic armor. Pemanfaatan material armor keramik pada produk industri pertahanan terbukti dapat memberikan performa yang baik dibandingkan dengan material logam terutama dalam meningkatkan kemampuan mobilitas dari personil pertahanan. Selain itu penggunaan armor keramik telah menginisiasi pengembangan material pelindung ringan sehingga berbagai macam teknologi dikembangkan untuk dapat memaksimalkan penggunaan keramik dalam industri pertahanan.
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6

Jurnal, Redaksi Tim. "KAJIAN TERKAIT INDUSTRI MATERIAL HANKAM DAN KEBENCANAAN DARI SISI PASAR." Power Plant 6, no. 1 (November 27, 2018): 26–31. http://dx.doi.org/10.33322/powerplant.v6i1.71.

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Анотація:
Suatu wacana untuk kemandirian bangsa dalam memproduksi alat utama sistem persenjataan atau alut sista dan alat utama mitigasi dan penanggungan bencana (alam) merupakan agenda nasional yang perlu mendapat dukungan dari berbagai bidang teknologi. Termasuk juga didalamnya perencanaan dan tahapan pencapaian yang sistematis dan terpadu. Maka tindak lanjutnya perlu adanya strategi bagaimana membangun dan mengembangkan industri Bidang Teknologi Material Guna Mendukung Industri Pertahanan dan Keamanan Nasional dan Mitigasi Bencana. Kajian terkait industry material hankam dan kebencanaan dari sisi pasar satu pola pikir bagaimana suatu industry matrial yang dapat mendukung industry hankam dan industry kebencanaan yang dipasar sangat dibutuhkan.
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7

Kurniawan, Oki, Willy Artha Wirawan, and Akbar Zulkarnain. "PENGEMBANGAN MATERIAL RINGAN SERAT GELAS PADA INDUSTRI KERETA API." Jurnal Transportasi 19, no. 3 (January 6, 2020): 187–94. http://dx.doi.org/10.26593/jt.v19i3.3671.187-194.

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Анотація:
Abstract The use of composite materials has been developed in the railroad transportation industry sector in Indonesia. For example, PT INKA has used composite materials with fiber glass reinforcement. The purpose of this study is to determine the characteristics of tensile strength and bending strength of the composite material so that it can be proposed to be further developed and utilized by the manufacturing industry, especially the railroad industry. In this study, 4 types of matrix variations were examined, namely epoxy, repoxy, polyester, and bhispenol using fiber glass reinforcement. Tensile strength and bending strength tests were performed in accordance with the ASTM D-638 and the ASTM D-790 standards, respectively. The results of this study indicate that the variation of the matrix is very influential on the tensile strength and bending strength of composite materials. Keywords: composite material, glass fiber, tensile strength, bending strength Abstrak Penggunaan material komposit mulai banyak dikembangkan di sektor industri trasportasi kereta api di Indone-sia. Sebagai contoh, PT INKA sudah menggunakan material komposit dengan penguat serat gelas. Tujuan penelitian ini adalah untuk mengetahui karakteristik kekuatan tarik dan kekuatan bending material komposit agar dapat diusulkan untuk lebih dikembangkan dan dimanfaatkan oleh industri manufaktur, khususnya industri kereta api. Pada penelitian ini digunakan 4 jenis variasi matriks, yaitu epoxy, repoxy, polyester, dan bhispenol dengan menggunakan penguat serat gelas. Pengujian kekuatan tarik menggunakan standar ASTM D-638 dan pengujian bending menggunakan standar ASTM D-790. Hasil studi ini menunjukkan bahwa variasi matriks sangat berpengaruh pada kekuatan tarik maupun kekuatan bending material komposit. Kata-kata kunci: material komposit, serat gelas, kekuatan tarik, kekuatan bending
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8

Lagaida, Bugi Biruloma, and Tanti Novianti. "Kebijakan Perdagangan Impor Bahan Baku Industri Makanan dan Minuman." JURNAL MANAJEMEN AGRIBISNIS (Journal Of Agribusiness Management) 10, no. 2 (October 23, 2022): 809. http://dx.doi.org/10.24843/jma.2022.v10.i02.p08.

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Анотація:
Food and Beverage processing industry is the greatest contributor to the Gross Domestic Product (GDP) of Indonesia. Additionally, the demand of food and beverages product is rising along with population; about 8.4% rise in 2011 to 2019. The food and beverage processing industry is the most priority in the national industry development. Main constrain for food and beverage processing industry growth is raw material availability. This industry need raw material with certain specification and volume. Raw material from domestic did not qualify such as quality and quantity. From this, raw material for food processing industry is fulfilled by import raw material. This thesis aims to investigate which raw materials that most fulfilled by import and what trade policy happen in import materials.
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9

Cramb, Alan W., and V. S. Arunachalam. "Material Matters." MRS Bulletin 23, no. 7 (July 1998): 3–5. http://dx.doi.org/10.1557/s0883769400028980.

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Анотація:
Whoever said that the steel industry is dead? It is alive and flourishing, this time with an efficiency and environmental cleanliness that will make the semiconductor industry proud! The renaissance is not local, limited to a few developed economies, but global, based on innovations in iron and steel technology and on technology spillover from other areas. The appetite for steel has not decreased: Developing economies such as China and India need millions of tons to build their inadequate and overstretched infrastructure, and the developed countries demand new steels with superior properties for applications in areas previously reserved for other materials. Today the global production of steel is assessed not by mere tonnages but by their quality.A major attraction of the iron and steel industry is its compatibility with the materials cycle: Iron and steel scrap has become the new raw material, curtailing the global hunger for newly mined iron ores. In a sense, this recycling is an atonement of the excesses of the earlier decades when mining and metallurgical industries paid little attention to energy efficiency and environmental protection. Experts now agree that these and increasing competition from other materials drove the industry to its near extinction. How real then is this renaissance and what are the technology drivers for the growth? Will steel regain its pride of place among materials used by society? In the following article, Alan Cramb reviews the spectacular growth of this industry and predicts an exciting future for it. Silicon, it seems, is not eliminating steel from our materials consciousness!
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10

Fang, Ming, Ming Li Cao, Yan Li, and Yong Li. "Material Flow Analysis on Cement Industry." Advanced Materials Research 512-515 (May 2012): 3042–46. http://dx.doi.org/10.4028/www.scientific.net/amr.512-515.3042.

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Анотація:
Since the relationship between supply and demand of natural resources is on edge in the long run, the traditional extensive growth mode of economic development needs changing. Cement is widely used in construction. Producing cement needs large amount of natural resources and releases high waste emissions. By using Material Flow Analysis, the inputs and outputs of each part of manufacturing are analyzed scientifically and the inputs, outputs and efficiency indicators are accounted. The main hidden flows come from energy consumption, and the main harmful waste is CO2which comes from fuel combustion and CaCO3decomposition. Improving resource consumption efficiency and reducing CO2emission are the key ways to alleviate pressures on the environment.
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11

Cai, Hong Xia, Ming Yu Dai, and Tao Yu. "Material Coding for Aircraft Manufacturing Industry." Journal of Aerospace Technology and Management 6, no. 2 (May 28, 2014): 183–91. http://dx.doi.org/10.5028/jatm.v6i2.315.

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12

Ginley, Douglas M. "Material flows in the transport industry." Resources Policy 20, no. 3 (September 1994): 169–81. http://dx.doi.org/10.1016/0301-4207(94)90049-3.

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13

Modolo, R. C. E., L. Senff, J. A. Labrincha, V. M. Ferreira, and L. A. C. Tarelho. "Lime mud from cellulose industry as raw material in cement mortars." Materiales de Construcción 64, no. 316 (October 14, 2014): e033. http://dx.doi.org/10.3989/mc.2014.00214.

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14

M, Ashika, and Monisha V. "A Material Management in Construction Project Using Inventory Management System." International Journal for Modern Trends in Science and Technology 6, no. 5 (May 26, 2020): 32–40. http://dx.doi.org/10.46501/ijmtst060506.

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Анотація:
Material management is a critical component of the construction industry. The goal of materials management is to insure that construction materials are available at their point of use when needed. A proper implemented material management program can achieve the timely flow of materials and equipment to the jobsite, and thus facilitate improved work face planning, increased labour productivity, scheduling and minimize the cost. Material management is an important function in order to improve productivity in construction project. It is defind materials management function which take off, vendor evaluation and selection , purchasing, expenditure, shipping, material receiving, where housing and inventory, and material distribution. In this project we have prepare scheme of material management in the construction industry for building project also conducting survey of industry and determine the various format for construction material management. In conclusion the wastage of material, control cost of material and time should be analyzed by using inventory management system.
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15

Singh, Nakshatra Bahadur. "Clays and Clay Minerals in the Construction Industry." Minerals 12, no. 3 (February 27, 2022): 301. http://dx.doi.org/10.3390/min12030301.

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Анотація:
Clay is a naturally occurring material that can be converted to different clay minerals through thermal treatments, and can be used for the development of different products. Clays and clay minerals have been used for different applications in different sectors. Detailed information regarding the applications of these materials in the construction industry are described. Clay has been used as a supplementary cementitious material in Portland cement (OPC) mortars and concretes. These minerals decrease raw materials and CO2 emissions during the production of Portland cement clinker and, at the same time, increase the compressive strength of concrete at a later age. Therefore, they are conducive to the sustainability of construction materials. A new type of cement, Limestone calcined clay cement (LC3), and a binding material geopolymer cement have also been developed using clay minerals. The properties of these binders have been discussed. Applications of clay products for making bricks have are also described in this article.
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16

Amelia, Okta, Illah Sailah, Ika Amalia Kartika, Ono Suparno, and Yazid Bindar. "Eco-friendly Alkyd Resins Based on Vegetable Oil: Review." Jurnal Rekayasa Proses 15, no. 1 (June 30, 2021): 1. http://dx.doi.org/10.22146/jrekpros.64143.

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Анотація:
The alkyd resin industry currently needs environmentally friendly raw materials, which emphasized the aspect of sustainability. Alkyd resin is a polymer product with oil as raw material which is widely used in the paint, coating, and other industries. The abundant demand for alkyd resin has led to a diversification of the raw material for alkyd resin from vegetable oils. The advantages of vegetable oil include being a renewable energy source for industry, sustainability, biodegradability, and being environmentally friendly as important considerations for the industry in recent times. This paper examines alkyd resins derived from several vegetable oils that are environmentally friendly. Alkyd resin is prepared by alcoholysis and esterification. Based on several studies of alkyd resins, there have been many modifications to the raw materials, technology, and catalysts used which can refer to an environmentally friendly and affordable industry.Keywords: alkyd resin; biodegradability; environmentally friendly; sustainability; vegetable oilA B S T R A KIndustri polimer pada masa ini membutuhkan bahan baku yang ramah lingkungan, yang menekankan pada keberlanjutan. Alkid resin adalah salah satu produk berbasis minyak yang banyak digunakan dalam industri cat, coating, dan industri lainnya. Keberlanjutan, biodegradabilitas, dan keramahan terhadap lingkungan menjadi pertimbangan signifikan bagi industri berbasis minyak nabati dalam beberapa waktu terakhir. Di dalam naskah ini, diulas beberapa minyak nabati yang digunakan untuk memproduksi alkid resin dengan cara alkoholisis dan esterifikasi. Berdasarkan berbagai studi yang telah dilakukan, masih terdapat modifikasi dari sisi material, teknologi dan katalis agar tercipta industri yang ramah lingkungan.Kata kunci: alkid resin; biodegradabilitas; keberlanjutan; minyak nabati; ramah lingkungan
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17

Diba da Silva, Farah, Felisbela Maria da Costa Oliveira, and Júlio César de Souza. "Use of the fine powder of ornamental industry as ceramic raw material." Epitoanyag - Journal of Silicate Based and Composite Materials 62, no. 1 (2010): 27–30. http://dx.doi.org/10.14382/epitoanyag-jsbcm.2010.6.

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18

Xu, Xin, and Quan Jiang. "Brief Analysis on Application of PVC Foam Materials in Building Material Industry." Materials Science Forum 944 (January 2019): 729–35. http://dx.doi.org/10.4028/www.scientific.net/msf.944.729.

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Анотація:
Polyvinyl chloride (PVC) foam materials are good materials that take the place of wood and are widely used in building material industry. This paper analyzes and summarizes the application of PVC foam materials in fields such as thermal insulation materials, concrete-form and resilient flooring and explores the characteristics of PVC foam materials concerned by different fields as well as the key future research & development directions, so as to promote the healthy development and application in building industry.
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19

Jayanti, Rosi, Dwi Haryono, and Sumaryo Gitosaputro. "ANALISIS MANAJEMEN PRODUKSI TEPUNG TAPIOKA DI PT GUNUNG SUGIH KABUPATEN LAMPUNG TENGAH." Jurnal Ilmu-Ilmu Agribisnis 8, no. 2 (May 1, 2021): 294. http://dx.doi.org/10.23960/jiia.v9i2.5102.

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Анотація:
This research aims to study the flow of tapioca agro-industry raw material procurement and how to manage tapioca flour agro-industry raw material procurement. This study uses a case study method at PT Gunung Sugih. Research respondents are owners and agro-industry companies and suppliers of agro-industrial raw materials selected by the candidates. Data analysis methods used are descriptive qualitative (raw material procurement planning and management applications) and quantitative descriptive (income analysis). The results showed that the five of the six components of raw material procurement were correct, except the inventory component, PT Gunung Sugih had approved the management function in all agro-industry activities. The agroindustry could be considered profitable because the results of the analysis of the income statement of the agro-industry gained a net profit of IDR8,190,800,833. Key words: agro-industry, cassava, profit, raw material
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20

Rondinel-Oviedo, Daniel R., and Naomi Keena. "Embodied Carbon: A call to the building industry." IOP Conference Series: Earth and Environmental Science 1122, no. 1 (December 1, 2022): 012042. http://dx.doi.org/10.1088/1755-1315/1122/1/012042.

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Анотація:
Abstract The demand for building materials will increase drastically in the following decades due to urbanization and population growth. Buildings generate almost 40% of annual global carbon dioxide (CO2) emissions contributing to human-induced climate change. Of this fraction, 11% is associated with material production and building construction, and 28% is contributed to the operational activities of a building (heating, cooling, lighting). One primary measure of the climate impact of buildings is embodied carbon (EC). This paper aims to find the recent developments in relation to embodied carbon within the building industry. To achieve this goal, a literature review was conducted to study the EC concept concerning materials and construction. The article explores and presents the state-of-the-art of diverse research and development related to this concept, focusing primarily on (1) the carbon cycle and the building sector, (2) EC benchmarking, (3) bio-based materials, and (4) other low-carbon material alternatives such as the development of carbon capture technologies. The objective of this paper is to summarize current and emerging trends as well as research priorities and tools to inform designers and engineers and facilitate their decision-making during the design process. It also aims to facilitate in advancing the creation of regulations and policies toward natural-based material solutions and the development of low-carbon high-tech material technologies deemed central for a sustainable built environment.
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21

Liang, Jin Sheng, Jun Ping Meng, Yan Ding, Li Juan Wang, and Guang Chuan Liang. "University Education of Intellectual Property for Innovation Talents of Science and Technology in Functional Material Industry." Advanced Materials Research 178 (December 2010): 384–86. http://dx.doi.org/10.4028/www.scientific.net/amr.178.384.

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Анотація:
Material industry is a basic industry in our national economy. In order to develop our new material industry, the independent innovation capability should be improved and the compound innovation talents of science and technology should be trained. The popularization education of the intellectual property should be brought into the quality education system of the college students. This is of important significance for developing the strategic new industry in the field of new material. Combined the training practice on the innovation talents of science and technology in the industries of the new energy and environment functional materials, the education mode of the intellectual property for the compound innovation talents of science and technology in the functional material industry was studied.
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22

YOSHIKAWA, Masanori. "Advanced composite material industry in the USA." Journal of the Japan Society for Composite Materials 12, no. 2 (1986): 49–56. http://dx.doi.org/10.6089/jscm.12.49.

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23

Czajka, Krzysztof, Witold Kawalec, Robert Król, and Izabela Sówka. "Modelling and Calculation of Raw Material Industry." Energies 15, no. 14 (July 10, 2022): 5035. http://dx.doi.org/10.3390/en15145035.

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Анотація:
Scientific and technical issues related to the extraction and processing of raw materials are inextricably linked with environmental concerns. The extraction, transportation and processing of raw materials and the creation of new products place a heavy burden on the environment. Therefore, the development of new technologies for the extraction and processing of raw materials which meet the demand for specific products while respecting environmental resources and saving energy can be considered one of the key challenges of modern science. The development of methods to optimize the course of certain processes related to the raw materials industry, limiting its impact on the environment, and the use of modern measurement techniques or modeling are key areas of research and development for the economy. The aim of this Special Issue was to identify certain important issues, including those related to the raw materials industry and the optimization of its processes, obtaining energy from alternative fuels and research on environmental aspects of industrial activities. The results of the research and analyses presented in the articles show that meeting the objectives in the context of sustainable raw materials industry requires: the optimization of the use of mine deposits and the recovery of materials, reductions in energy consumption, minimizations in emissions of pollutants, the perfection of quieter and safer processes and the facilitation of the recovery of materials-, water- and energy-related modern techniques and technologies.
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24

Prajapati, Rohit, and Pradeep K. Goyal. "Management of Waste Material in Construction Industry." INROADS- An International Journal of Jaipur National University 5, no. 1s (2016): 42. http://dx.doi.org/10.5958/2277-4912.2016.00008.4.

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25

Thomas, Chris. "Aircraft industry demands more from material suppliers." Aircraft Engineering and Aerospace Technology 67, no. 5 (May 1995): 8–9. http://dx.doi.org/10.1108/eb037596.

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26

Dieterle, Martin, and Ekkehard Schwab. "Raw Material Change in the Chemical Industry." Topics in Catalysis 59, no. 8-9 (March 28, 2016): 817–22. http://dx.doi.org/10.1007/s11244-016-0554-6.

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27

Qiu, Xumeng, Ge He, and Xu Ji. "Cloud manufacturing model in polymer material industry." International Journal of Advanced Manufacturing Technology 84, no. 1-4 (August 4, 2015): 239–48. http://dx.doi.org/10.1007/s00170-015-7580-6.

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28

Southwick, Peter D. "Steel—A “High Tech” Material and Industry." JOM 39, no. 3 (March 1987): 27. http://dx.doi.org/10.1007/bf03258875.

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29

Eliseeva, L., O. Yurina, and N. Hovhannisyan. "Nuts as raw material for confectionary industry." Annals of Agrarian Science 15, no. 1 (March 2017): 71–74. http://dx.doi.org/10.1016/j.aasci.2017.02.007.

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30

Manevich, V. E., R. K. Subbotin, E. A. Nikiforov, N. A. Senik, and A. V. Meshkov. "Diatomite — siliceous material for the glass industry." Glass and Ceramics 69, no. 5-6 (September 2012): 168–72. http://dx.doi.org/10.1007/s10717-012-9438-9.

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31

Bertram, Marlen, Kenneth J. Martchek, and Georg Rombach. "Material Flow Analysis in the Aluminum Industry." Journal of Industrial Ecology 13, no. 5 (October 2009): 650–54. http://dx.doi.org/10.1111/j.1530-9290.2009.00158.x.

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32

Chen, Ming, Mao Wang, Zhigang Yang, Mengqi Li, Yuhang Tang, Yang Wang, and Peng Wang. "Quality Infrastructure for the New Material Industry." Chinese Journal of Engineering Science 22, no. 5 (2020): 137. http://dx.doi.org/10.15302/j-sscae-2020.05.017.

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33

Diercks, R., J. D. Arndt, S. Freyer, R. Geier, O. Machhammer, J. Schwartze, and M. Volland. "Raw Material Changes in the Chemical Industry." Chemical Engineering & Technology 31, no. 5 (May 2008): 631–37. http://dx.doi.org/10.1002/ceat.200800061.

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34

Banea, M. D., M. Rosioara, R. J. C. Carbas, and L. F. M. da Silva. "Multi-material adhesive joints for automotive industry." Composites Part B: Engineering 151 (October 2018): 71–77. http://dx.doi.org/10.1016/j.compositesb.2018.06.009.

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35

Mitragotri, Mr Pavan, Mr H. S. Mogare, and Mr Suchet Andappa Channagiri. "Computerization in Material Management for Mattress Industry." International Journal of Latest Engineering and Management Research (IJLEMR) 8, no. 6 (June 12, 2023): 27–31. http://dx.doi.org/10.56581/ijlemr.8.6.27-31.

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36

ChUMAChENKO, N. G. "RESOURCE SAVING APPROACH TO RAW MATERIAL BASE OF BUILDING INDUSTRY." Urban construction and architecture 1, no. 1 (February 15, 2011): 112–16. http://dx.doi.org/10.17673/vestnik.2011.01.22.

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Анотація:
An estimate of natural and technogenic raw material bases for construction materials production is given. These two groups of primary products are suggested to be considered as a united raw material base for building industry due to including industrial wastes. To be selected for an appropriate use every industrial waste sort must undergo several levels of estimation on the following criteria: toxic level; chemical and mineral composition; selection of wastes from ready-made construction materials or their components; selection of wastes from ready-made raw mixes for the production of building materials; estimation of aggregate state; estimation of the amount of formation. After such a multilevel estimation, waste is getting a certain status.
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37

Yoganandam, R., and R. Udhayasakthi. "Study of Zero Waste Management in Indian Construction Industry." Asian Review of Civil Engineering 6, no. 2 (November 5, 2017): 31–35. http://dx.doi.org/10.51983/tarce-2017.6.2.2238.

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Анотація:
Construction and demolition waste management has become one of the major environmental problems in many municipalities The building industry is consuming a considerable amount of resources, from the most common material sand to the valuable natural assets like timber. If the life cycle of the material on site, from its transportation and delivery to the end fate, is closely examined, it is generally known that there is a relatively large portion of the materials being wasted because of poor material control on building sites.
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38

Kurnia, Hibarkah, Sudarmono, Alvia Dwi Wahyuni, Nurmala Adistyani, and Asep Arwan Sulaeman. "PENGGUNAAN MATERIAL LOGAM DI BERBAGAI INDUSTRI MANUFAKTUR INDONESIA: SISTEMATIK KAJIAN LITERATUR." Industry Xplore 8, no. 1 (March 30, 2023): 220–28. http://dx.doi.org/10.36805/teknikindustri.v8i1.5098.

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Material processing techniques in the manufacturing industry in Indonesia are more dominant in using metal applications as the main raw material in product design in the form of machines. The use of metal materials needs to be studied because before they are used in the industry, their designation must be known first so that these materials can be optimized in their use. The process of processing metal materials must pay attention to their type and properties in advance, especially in the process of forming and behavior during use. So that in its application it can be following the specifications of raw materials in a product that is produced. This study aims to find out and identify how important the role of metal materials is in their application in the world of the Indonesian manufacturing industry. This research method uses a systematic literature review method by collecting 20 articles related to the use of metal materials in various manufacturing industries from several national journals on the Google Scholar database. This research found several dominant articles published in 2020 and focused on the alloy casting industry. The results obtained from the collected data are that the use of metal materials plays an important role in the manufacturing industry in Indonesia. Metal materials are still very much needed as one of the main raw materials in the manufacturing industry because these materials have unique properties that non-metallic materials do not have
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39

Shoag, Md, and M. F. Rahman. "Using Recycling Aluminum Cans as Composite Materials Aluminum Fiber." IOP Conference Series: Earth and Environmental Science 943, no. 1 (December 1, 2021): 012028. http://dx.doi.org/10.1088/1755-1315/943/1/012028.

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Abstract The sustained and developing construction industry needs a vast amount of material because it is becoming more extensive and sustainable day by day. Problems are also increasing in line with development. Many advanced composite materials and solutions are coming up in the current construction industry to solve these problems. However, these require more comfortable and extensive use. For that, we have to find out cheap and sustainable materials. This research paper aims to combine advanced materials and solutions to create more sustainable solutions and new material. That will enrich the industry and increase more use in the path of development of the construction industry. The factors that have to consider in doing so, these materials and solutions are how much economical, available in the market, able to solve chronic problems, easier to use, and sustainability. Recycled aluminum cans are going to be the material for this study.
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40

Chukwudi, Obi Ifeanyi. "ORGANIC PLASTICS: MATERIAL FOR SICK BUILDING SYNDROME CONTROL AND PREVENTION IN BUILDING CONSTRUCTION." International Journal of Research -GRANTHAALAYAH 6, no. 6 (June 30, 2018): 193–99. http://dx.doi.org/10.29121/granthaalayah.v6.i6.2018.1365.

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Анотація:
Plastics are organic materials, which consist of synthetic or natural high-molecular compounds (polymers). Due to the large variety of plastic, its different types have different properties, which make it possible to widely use this material in all fields of industry from packaging to the construction industry. The second highest consumer of organic plastics materials after packaging is the construction industry. Thanks to great versatility, cost effectiveness, durability, strength to weight ratio and low maintenance plastics appear to be economically attractive in the construction sector and are used in the manufacturing of wide range of materials in the construction industry. Plastics most times are not easily seen in buildings, but they are widely used in construction and building industry for a vast and wide range of materials, which include insulation, piping, interior design, piping and conduit (rain water, electrical conduits, and sewage pipes, gas distributions and plumbing). Piping and Conduit for instance can consume around 35% of plastic production and are one of the largest consumers of polymers in construction. The purpose of this research is to study plastic as a construction material that can be used to control the formation of Sick building syndrome in buildings, and also as a material that can often be used in the construction industry.
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41

Zheng, Ji Liang, and Da Wei Qin. "The Model and Countermeasures of New Building Material Industry Based on the Cyclic Economy." Applied Mechanics and Materials 71-78 (July 2011): 999–1004. http://dx.doi.org/10.4028/www.scientific.net/amm.71-78.999.

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Building material industry can absorb lots of scrap of chemical industry, metallurgical industry and coal industry. Through our further study on the application of cyclic economy in the building materials industry, we initially summarize the co-production models between building materials industry and other industries, such as coal, metallurgy and mining, based on the recycling economy. The models also represent the basic patterns which can recycle mineral resources and reuse energy efficially. We advice some possible countermeasures though analysis of the domestic application of these models in the current problems and challenges.
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42

Wang, Wenjie, Yue Xiang, Jingfeng Yu, and Long Yang. "Development and Prospect of Smart Materials and Structures for Aerospace Sensing Systems and Applications." Sensors 23, no. 3 (January 31, 2023): 1545. http://dx.doi.org/10.3390/s23031545.

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Анотація:
The rapid development of the aviation industry has put forward higher and higher requirements for material properties, and the research on smart material structure has also received widespread attention. Smart materials (e.g., piezoelectric materials, shape memory materials, and giant magnetostrictive materials) have unique physical properties and excellent integration properties, and they perform well as sensors or actuators in the aviation industry, providing a solid material foundation for various intelligent applications in the aviation industry. As a popular smart material, piezoelectric materials have a large number of application research in structural health monitoring, energy harvest, vibration and noise control, damage control, and other fields. As a unique material with deformation ability, shape memory materials have their own outstanding performance in the field of shape control, low-shock release, vibration control, and impact absorption. At the same time, as a material to assist other structures, it also has important applications in the fields of sealing connection and structural self-healing. Giant magnetostrictive material is a representative advanced material, which has unique application advantages in guided wave monitoring, vibration control, energy harvest, and other directions. In addition, giant magnetostrictive materials themselves have high-resolution output, and there are many studies in the direction of high-precision actuators. Some smart materials are summarized and discussed in the above application directions, aiming at providing a reference for the initial development of follow-up related research.
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43

Kayili, Merve Tuna, and Gülser Celebi. "ENVIRONMENTAL PROPERTIES OF ENVIRONMENTALLY FRIENDLY CONSTRUCTION MATERIALS: RECYCLED LDPE COMPOSITES FILLED BY BLAST FURNACE DUST." Journal of Green Building 16, no. 3 (June 1, 2021): 135–53. http://dx.doi.org/10.3992/jgb.16.3.135.

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ABSTRACT This study focused on creating a sustainable composite material using blast furnace dust of the iron-steel industry and plastic wastes of the plastic industry in order to reduce the embodied energy of the material and generate more sustainable material. In this study, varying amounts of blast furnace dust (BFD), which is the primary iron-steel industry waste and which is used as filler for recycled low-density polyethylene (LDPE), was mixed to create the composite material. The embodied energy, emissions to water and air (volatile organic compounds) of BFD filled LDPE composites were determined. It was found that the composite materials had less embodied energy compared with polymer-based flooring materials such as epoxy, polyurethane (PU) and polyvinylchloride (PVC). In addition, it was determined that the composite material did not release emissions to water and have fewer total volatile organic compounds (TVOCs). These results showed that the produced composite material could be used in buildings as a sustainable floor coating material, thus saving raw materials and supporting indoor air quality and recycling.
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44

Makkarennu, Beta Putranto, and M. Daniel Dessaratu. "ANALISIS KEBUTUHAN BAHAN BAKU KAYU BULAT PADA INDUSTRI KAYU LAPIS PT. KATINGAN TIMBER CELEBES." PERENNIAL 6, no. 2 (July 1, 2010): 116. http://dx.doi.org/10.24259/perennial.v6i2.206.

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The aim of this research was to predict the amounts of raw materials needed by industry for the next years. This study was conducted at the plywood industry in PT.Katingan Timber Celebes. For the purpose of the study, utilisation of raw material for five years (2004-2008) were collected. The obtained data were analyzed by using regresi with time series data. It is predicted that the amount of raw material for the industry (2009) will be 166,758.2 m3 consisting of meranti (130,699.4 m3) and rimba campuran (36,053.8 m3) Key words: prediction, plywood industry, utilisation of raw material
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45

Subramani, T., and A. Prabhu. "Material Procurement in Construction Industry Problems and Solutions." International Journal of Engineering & Technology 7, no. 3.10 (July 15, 2018): 31. http://dx.doi.org/10.14419/ijet.v7i3.10.15624.

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Good project management in construction means efficient utilization of labor, material and equipment. Development of labor productivity have to be a first-rate and chronic challenge of those who are accountable for cost control of constructed facilities. Material handling, which includes procurement, inventory, shop fabrication and field servicing, requires special attention for cost reduction. The use of latest equipment and progressive strategies has made feasible wholesale adjustments in construction technology in current a long time. Groups which do no longer recognize the effect of diverse innovations and feature now not adapted to changing environments have justifiably been compelled out of the mainstream of construction activities. The frequent problems of construction industry, customers have an essential position to play. With the aid of its procurement methods, the purchaser impacts the manner a construction project is done, because the tactics affect the form of the project delivery system. What sort of procurement procedures are perceived rational, for one, depends at the underlying assumptions about the characteristic of procurement. A recognized guideline in Lean construction (LC) is that production must be conceived along with transformations (T), flow (F), and value generation (V). Alternatively, it is visible necessary to recognize and cope with the risk of value loss with an identical diligence as the other issues had been to date. Materials management plays an important role in project planning and control. Materials represent a major expense in construction, so minimizing procurement or purchase costs.
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46

Barenberg, S. A. "Report of the Committee to Survey Needs and Opportunities for the Biomaterials Industry." MRS Bulletin 16, no. 9 (September 1991): 26–32. http://dx.doi.org/10.1557/s0883769400056013.

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The Biomaterials Industry Subpanel was chartered by the National Research Council (on behalf of the National Academies of Sciences and Engineering) to address the needs and opportunities in materials science and engineering as perceived by the biomaterials industry. This report represents an initial overview and should not be considered definitive.The Committee examined the short-term, intermediate, and long-term needs of the industry and how external factors such as regulations, lack of standards, and international competition influenced the industry. The industry is heterogeneous and was subsequently defined by the following market segments: artificial organs, biosensors, biotechnology, cardiovascular/blood products, drug delivery, equipment/devices, maxillofacial, ophthalmology, orthopedics, packaging, and wound management.Each of these market segments then addressed the:Role of materials in the industry,Current materials and material needs,Material opportunities and impact,Industrial needs/issues,International competition/foreign initiatives, andRole of the U.S. government.
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47

Bolf, Davor, Albert Zamarin, and Robert Basan. "Composite Material Damage Processes." Journal of Maritime & Transportation Science 3, no. 3 (June 2020): 307–23. http://dx.doi.org/10.18048/2020.00.23.

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Анотація:
Composite materials are in use in the shipbuilding industry for a long period of time. Composites appear in vast number of fibre – matrix combinations and can be produced with several different production processes. Due to the specific nature of the composite material structure, the selection of the production process and the limitations in the quality control procedures, composite materials will always be subject to defects and imperfections which may, under certain circumstances, lead to the appearance and propagation of cracks. The size and the shape of the crack, the load type and the stress field in the material surrounding the crack will be crucial for crack growth and crack propagation. This paper reviews the composite material damage processes especially relevant for shipbuilding. The basic principles of composite material fracture mechanics are briefly explained, and finally, mechanisms responsible for the development of damage and fracture of composite materials are presented. This paper has emerged from the need to summarize information about composite material fracture and failure mechanisms and modes relevant for the shipbuilding industry.
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48

Chulkova, I. L., O. E. Smirnova, and A. V. Krasova. "Use of sewage sludge in concrete industry." Russian Automobile and Highway Industry Journal 18, no. 5 (November 25, 2021): 566–75. http://dx.doi.org/10.26518/2071-7296-2021-18-5-566-575.

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Introduction. The article deals with the actual problem of disposal of industrial waste (sewage sludge). According to the literature data, possible directions of the use of sewage sludge in the production of building materials are identified and considered. Special attention is paid to the proposed variant of systematization of materials, which is based on the dependence of the aggregate state of the sediment on the type of building material. It is proposed to use sewage sludge as a complex additive to improve rheological properties at all stages of heavy concrete hardening.Methods and materials. Studies of the basic properties of raw materials and concrete based on them were determined using standard methods and the requirements of national standards. The material and chemical composition of the sediments, their physical and mechanical characteristics were determined on the basis of the laboratory of the plant of chemical concentrates (Novosibirsk).Results. As a result of the experimental work, the optimal percentage of sewage sludge in the composition of heavy concrete was determined, as well as the ratio of the chemical modifying additive, the optimal composition of concrete was investigated.Conclusion. As a result of the experimental work, the influence of the introduction of sewage sludge modified with plasticizing additives into the concrete composition was established. It has been established that sewage sludge is advisable to use in heavy concrete as a corrective additive without reducing the strength characteristics. In further studies, it is planned to solve the problems of structure formation and study of the interface between the phases of sewage sludge in the composition of concrete; to investigate the relationship between the chemical composition of precipitation and the physical and mechanical properties of a building material.
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Abd El-Sayed, Essam S, Mohamed El-Sakhawy, and Mohamed Abdel-Monem El-Sakhawy. "Non-wood fibers as raw material for pulp and paper industry." Nordic Pulp & Paper Research Journal 35, no. 2 (June 25, 2020): 215–30. http://dx.doi.org/10.1515/npprj-2019-0064.

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AbstractPulp and paper industry in the world have been growing fast. As a result, there has been a massive request for pulp and paper raw materials. The raw materials used in papermaking can be classified into three groups: wood, non-wood, and recycled wastepaper. The Non-wood raw material is an important fiber resource in the regions where forest resources are limited. The current usage of non-wood plant fibers, as rice straws, corn stalks, cotton stalks, and bagasse would play a chief role in increasing papermaking raw materials. Using of non-wood plant fibers in the paper industry associated with some problems, including collection, transportation, storage and handling, washing, bleaching, papermaking, chemical recovery, supply of raw material and the properties of finished paper. Recently, a high-tech innovation in all the fields of papermaking has made non-wood more reasonable with wood as a raw material for papermaking. Although till now, use of non-wood fibers for pulp and paper manufacture was focused in countries with limited wood supply, it is now showing a growing effort even in countries with acceptable wood source due to environmental concerns. Consequently, the future of non-wood plant fibers as pulping and papermaking raw material looks bright.
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50

Tola, Alimuddin. "ANALYSIS INVENTORY FOR SUPPORTING MATERIALS IN NICKEL INDUSTRY USING MATERIAL REQUIREMENT PLANNING METHOD." PROZIMA (Productivity, Optimization and Manufacturing System Engineering) 6, no. 1 (June 20, 2022): 14–28. http://dx.doi.org/10.21070/prozima.v6i1.1571.

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Alimuddin Tola dan Iwan Vanany Email: alimuddintola@gmail.com; vanany@ie.its.ac.id (corresponding author) Departement of Industrial and Systems Engineering Institut Teknologi Sepuluh Nopember Abstract: Nickel is one of the resources that is often used by humans with its use increasing from each year. In order to increase nickel production, an integrated and optimum system is needed with carrying out the production and business processes in the one of Indonessian nickel company. To achieve the objectives, system integration between the demand for nickel products and the process of supplying raw materials urgently needed to support nickel processing. Therefore, this study aims to estimate the amount of raw materials and scheduling the availability of raw materials with applying the Material Requirement Planning. Furthermore, to find out the differences in the strategy of ordering raw materials in the system. Order fulfillment strategies (lot sizing) used are level, modified level, and dynamic lot sizing. The level strategy, as the initial strategy of the company, is a strategy that uses inventory as a support with labor made steady and demand is met from inventory. Modified level strategy are formulated to adjust level ordering in dynamic time. The dynamic lot sizing is a strategy of dynamic order quantity and dynamic time order. As for the analysis. The initial level strategy ,that simulate with several equations, shows some overstock and understock condition in the nickel production and material inventory. Its resulted in higher total cost and unfulfill nickel production. The formulation of modified level strategy and dynamic lot sizing can fulfill the material demand with lower total cost. Keyword: Material Requirement Planning, Inventory, Lot sizing, Nickel Industry
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