Littérature scientifique sur le sujet « Wood/bamboo materials »
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Articles de revues sur le sujet "Wood/bamboo materials"
Qanytah, Khaswar Syamsu, Farah Fahma et Gustan Pari. « Structure analysis of three non-wood materials for liner paper ». Nordic Pulp & ; Paper Research Journal 34, no 4 (18 novembre 2019) : 453–66. http://dx.doi.org/10.1515/npprj-2019-0043.
Texte intégralSupriadi, A., et D. R. Trisatya. « Engineered bamboo : The promising material for building and construction application in Indonesia ». IOP Conference Series : Earth and Environmental Science 886, no 1 (1 novembre 2021) : 012040. http://dx.doi.org/10.1088/1755-1315/886/1/012040.
Texte intégralNguyen, Thanh Nam, Tuyen Vo et Tran Van Hung. « Study on the Effects of Technology Parameters on the Water Absorption and the Thickness Swelling of the Pressed Bamboo Pulp Plywood ». Key Engineering Materials 863 (septembre 2020) : 1–11. http://dx.doi.org/10.4028/www.scientific.net/kem.863.1.
Texte intégralSathish, T., S. Dinesh Kumar, M. Ravichandran, V. Mohanavel, S. Suresh Kumar, Sivanraju Rajkumar et Ram Subbiah. « Waste Food Cans Waste Bamboo Wood Based AA8079/SS304/Bamboo Wood Ash Hybrid Nanocomposite for Food Packaging ». Key Engineering Materials 928 (16 août 2022) : 69–78. http://dx.doi.org/10.4028/p-9lpz3q.
Texte intégralTrisatya, D. R., M. Iqbal et I. M. Sulastiningsih. « Enhancing the properties of damar (Agathis loranthifolia Salisb.) wood by making hybrid bamboo-wood composite ». IOP Conference Series : Earth and Environmental Science 914, no 1 (1 novembre 2021) : 012066. http://dx.doi.org/10.1088/1755-1315/914/1/012066.
Texte intégralArsad, Effendi. « KARAKTERISTIK SERTA PENGEMBANGAN PENGGUNAAN KAYU KARET DAN BAMBU UNTUK BAHAN BAKU PERUMAHAN RAKYAT DAN INDUSTRI ». Jurnal Riset Industri Hasil Hutan 4, no 1 (1 juillet 2012) : 36. http://dx.doi.org/10.24111/jrihh.v4i1.1200.
Texte intégralHartono, Rudi, Jajang Sutiawan, Dede Hermawan, Santiyo Wibowo et Deni Zulfiana. « Termite and decay resistances of Sumatran elephant dung-based particleboard modified with wood shavings and bamboo layering ». BioResources 18, no 3 (2 juin 2023) : 5073–84. http://dx.doi.org/10.15376/biores.18.3.5073-5084.
Texte intégralAntonov, Svetlin, Nguyen Thanh Nam, Tran Trong Hy et Le Khanh Dien. « A Study on the Effects of Technical Parameters on the Tensile Strength of Bamboo Plywood ». E3S Web of Conferences 207 (2020) : 05004. http://dx.doi.org/10.1051/e3sconf/202020705004.
Texte intégralSujito, S., Hanim Munawaroh et Endhah Purwandari. « Mechanical Properties and Biodegradability of Bamboo and Sengon Wood Thin Sheets Reinforced Poly Latic Acid (PLA) Biocomposites) ». Jurnal ILMU DASAR 14, no 2 (16 juillet 2014) : 67. http://dx.doi.org/10.19184/jid.v14i2.513.
Texte intégralHong, Pei Fen. « Furniture Materials Research in Kinmen ». Advanced Materials Research 1091 (février 2015) : 45–50. http://dx.doi.org/10.4028/www.scientific.net/amr.1091.45.
Texte intégralThèses sur le sujet "Wood/bamboo materials"
Archila, Santos Hector Fabio. « Thermo-hydro-mechanically modified cross-laminated Guadua-bamboo panels ». Thesis, University of Bath, 2015. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.675700.
Texte intégralMiskalo, Eugênio Polistchuk. « Avaliação do potencial de utilização de bambu (Dendrocalamus giganteus) na produção de painéis de partículas orientadas ». Universidade Tecnológica Federal do Paraná, 2009. http://repositorio.utfpr.edu.br/jspui/handle/1/182.
Texte intégralThe consumption of restored wood boards has increased, bringing along the use of woods derived from reforestation, traditionally from Pinus and Eucalyptus, composed of long and short fibers respectively, which demand the enlargement and replacement of the plantation areas quickly. In this essay, the main objective was to measure the potential application of the bamboo as an alternative to make boards of Oriented Strand Board – OSB. The kind of bamboo studied was the Dendrocalamus giganteus, which is made of medium strands. Boards were produced with 4, 6 and 8% contents of phenol-formaldehyde resin. The experimental work was divided in two stages. The purpose of the first stage was to study the variation of density and the relative highness of the bamboo studied, in order to separate particles with different characteristics, and proceed the selection of the stem part with density more similar to the one indicated by MALONEY, with the purpose of making boards with similar characteristics to Pinus OSB boards, using the same production technique. On the second stage, experimental planning was applied to obtain bamboo boards of particles with two slit orientation and three numbers of adhesive. The physical and mechanical tests were performed according to the European patterns EN 300/93 and American patterns ASTM 1037-1996. The results indicated that the boards made in bamboo at the tangential direction at 6% of resin is the most appropriate to produce on a large scale, considering that its yield and mechanical behavior is comparable to commercial OSB, in agreement to quoted patterns.
RAMBO, CARLOS R. « Sintese e caracterizacao de ceramicas biomorficas ». reponame:Repositório Institucional do IPEN, 2001. http://repositorio.ipen.br:8080/xmlui/handle/123456789/10973.
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Tese (Doutoramento)
IPEN/T
Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP
He, Qian. « Étude sur le mécanisme d'activation du bois/bambou/adhésif et amélioration du collage induit par le champ électrique à haute tension ». Electronic Thesis or Diss., Université de Lorraine, 2021. http://www.theses.fr/2021LORR0147.
Texte intégralIn this study, the advanced equipments were selected in order to investigate the effects of HVEF on the physicochemical properties of wood and bamboo, the effects of HVEF on the chemical structure and rheological properties of adhesives under a series of HVEF parameters. The aggregation effect of adhesive at bonding interface induced by HVEF has also been revealed and the micro-mechanical prediction model is established.The main conclusions of this study are as follows:1.After HVEF treatment, the surface activity of wood and bamboo increased significantly. Moreover, with the increase of voltage/time, the surface free radicals, O/C ratio and the number of oxygen groups increased significantly while the contact angle decreased. Under the condition of 60kV, the surface activity highly increased. The increment of free radicals was 26%, the decrease of initial contact angle was 22%, the decrease of equilibrium contact angle was 23%, the increment of free energy component was 43% ~ 75%, the increment of O/C ratio was 34%, the increment of oxygen-containing groups were 39% (C‒OH), 149% (C‒O or C=O) and 97% (O‒C=O), respectively. Therefore, under HVEF treatment, the physical and chemical properties of wood and bamboo can be significantly improved, which is conducive to improving the interphase properties of composite materials.2.With the increase of voltage/time, significantly improved inter-molecular reactions of urea formaldehyde resin and phenol formaldehyde resin were obtained. After 60kV/8 min treatment, significant increment of the characteristic peaks of C‒O groups were obtained. Under HVEF treatment, the temperature/frequency dependence of the rheological behaviors of the two resins changed significantly. Therefore, the degree of inter-molecular polymerization of phenol formaldehyde and urea formaldehyde resin can be significantly improved and the viscoelasticity of the resin can be improved under HVEF treatment.3.After HVEF treatment, the distribution of adhesive at the bonding interphase was continuous and uniform. The penetration depth was significantly reduced. The density and bonding strength at the bonding interphase were significantly increased, and the delamination rate was reduced. After treatment, the maximal density at interphase is 1081 kg/m3, which was 32% higher than the control. The bonding strength increased from 0.66MPa to 1.25MPa and the wood breaking rate increased to 85%, and the delamination rate decreased to 5.97%. For bamboo material, the bonding strength was significantly improved after HVEF treatment. The bonding strength of bamboo skin and bamboo skin was 9.51MPa, and the bamboo failure ratio was 60%. In the combination of bamboo pith and bamboo pith, the maximum bamboo failure ratio was 85%, which was increased by 70%. Therefore, under HVEF treatment, the continuous and uniform distribution of bonding interphase adhesives can be obtained, which can significantly improve the bonding performance of wood bamboo composite, and is conducive to the efficient utilization of wood bamboo composite.4. According to the vertical density profile at the bonding interface, the laminated stiffness and stress distribution model of the bonding interface has been established. The results showed that the relative error was less than ±15%. Based on the distribution model, the macroscopic mechanical properties of composite are predicted with the combination of composite mechanics and laminated plate theory, including elastic modulus, bending strength, shear modulus and shear strength. The results showed that the prediction error of mechanical properties is less than 30%. With the stiffness and strength distribution model, the effect of HVEF treatment can be quantitatively characterized and the mechanical properties of HVEF treated composites can be predicted. As a result, strengthening mechanism of bonding interphase can be revealed with the the stiffness and strength distribution model
Sánchez, Vivas Lorena. « Bamboo as a Sustainable Engineering Material : Mechanical Properties, Safety Factors, and Experimental Testing ». Scholar Commons, 2019. https://scholarcommons.usf.edu/etd/7925.
Texte intégralTrela, Wiktoria 1992. « Ecological materials for interior design use : impact of wood and recycling materials, for people lives and the environment ». Master's thesis, 2018. http://hdl.handle.net/10451/35128.
Texte intégralLivres sur le sujet "Wood/bamboo materials"
Frank, Kuhnle, dir. Timber as construction material in developing countries. Stuttgart, Federal Republic of Germany : Informationszentrum Raum u. Bau d. Fraunhofer-Ges., 1989.
Trouver le texte intégralShao, Zhuoping, et Fuli Wang. The Fracture Mechanics of Plant Materials : Wood and Bamboo. Springer, 2018.
Trouver le texte intégralShao, Zhuoping, et Fuli Wang. The Fracture Mechanics of Plant Materials : Wood and Bamboo. Springer, 2019.
Trouver le texte intégralChapitres de livres sur le sujet "Wood/bamboo materials"
Wachter, Igor, Peter Rantuch et Tomáš Štefko. « Transparent Bamboo ». Dans Transparent Wood Materials, 47–57. Cham : Springer Nature Switzerland, 2023. http://dx.doi.org/10.1007/978-3-031-23405-7_5.
Texte intégralShao, Zhuoping, et Fuli Wang. « Introduction to the Application of the Fracture Mechanics in Wood and Bamboo ». Dans The Fracture Mechanics of Plant Materials, 1–10. Singapore : Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-10-9017-2_1.
Texte intégralMili, Medha, Anju Singhwane, Vaishnavi Hada, Ajay Naik, Prasanth Nair, Avanish Kumar Srivastava et Sarika Verma. « Advances in Bamboo Composites for Structural Applications : A Review ». Dans Bamboo - Recent Development and Application [Working Title]. IntechOpen, 2023. http://dx.doi.org/10.5772/intechopen.110489.
Texte intégralAsif, M. « Sustainability of timber, wood and bamboo in construction ». Dans Sustainability of Construction Materials, 31–54. Elsevier, 2009. http://dx.doi.org/10.1533/9781845695842.31.
Texte intégralJia, Beibei. « Design of Fast-Growing Plant Material Woven Furniture Products Based on Sustainable Concepts ». Dans Frontiers in Artificial Intelligence and Applications. IOS Press, 2024. http://dx.doi.org/10.3233/faia231501.
Texte intégralOkonkwo, Paul C., Israr Ul Hassan et Wesam H. Beitelmal. « Bamboo Utilization as a Sustainable Building Material ». Dans Advances in Civil and Industrial Engineering, 79–96. IGI Global, 2021. http://dx.doi.org/10.4018/978-1-7998-7279-5.ch004.
Texte intégralOlajide Olorunnisola, Abel. « Potentials of Wood, Bamboo and Natural Fibre-Reinforced Composite Products as Substitute Materials for Fabricating Affordable Agricultural Equipment and Processing Machines in Africa ». Dans Technology in Agriculture. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.98265.
Texte intégralMansencal, Rachel, John F. Kadla et Jennifer L. Braun. « Cellulose ». Dans Polymer Data Handbook, 69–78. Oxford University PressNew York, NY, 2009. http://dx.doi.org/10.1093/oso/9780195181012.003.0013.
Texte intégralWang, Zhiqiang, et Tianxiao Yin. « Cross-Laminated Timber : A Review on Its Characteristics and an Introduction to Chinese Practices ». Dans Engineered Wood Products for Construction [Working Title]. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.98956.
Texte intégralActes de conférences sur le sujet "Wood/bamboo materials"
KOENE, L., et G. VAN DER WORP. « BULLET PENETRATION INTO BAMBOO, ORIENTED STRAND BOARD AND LOW-DENSITY FIBREBOARD TARGETS ». Dans 32ND INTERNATIONAL SYMPOSIUM ON BALLISTICS. Destech Publications, Inc., 2022. http://dx.doi.org/10.12783/ballistics22/36136.
Texte intégralLiu, Dewen, Zhongli Guo, Bihui Dai, Li Han, Binghua Xia, Rongqing Qi, Xiaoya Luo et Jing Li. « Seismic study on skin effect of bamboo-bonded wood structure ». Dans 2017 3rd International Forum on Energy, Environment Science and Materials (IFEESM 2017). Paris, France : Atlantis Press, 2018. http://dx.doi.org/10.2991/ifeesm-17.2018.286.
Texte intégral« Production and Characterization of Bamboo/Wood-Made Shape to be used in Longboards ». Dans Non-Conventional Materials and Technologies. Materials Research Forum LLC, 2018. http://dx.doi.org/10.21741/9781945291838-52.
Texte intégralCaldas, Lucas Rosse, Carolina Goulart Bezerra, Francesco Pittau, Arthur Araujo, Mariana Franco, Nicole Hasparyk et Romildo Dias Toledo Filho. « Development of GHG Emissions Curves for Bio-Concretes Specification : Case Study for Bamboo, Rice Husk, and Wood Shavings Considering the Context of Different Countries ». Dans 4th International Conference on Bio-Based Building Materials. Switzerland : Trans Tech Publications Ltd, 2022. http://dx.doi.org/10.4028/www.scientific.net/cta.1.428.
Texte intégralYin, Shun, Xinhe Lu, Xiuqing Zeng, Jiyao Wei, Shiyuan Zhang et Weiwei Yao. « Design Strategies of Bamboo Fiber-based Composites Pavillon under the dual-carbon background ». Dans 14th International Conference on Applied Human Factors and Ergonomics (AHFE 2023). AHFE International, 2023. http://dx.doi.org/10.54941/ahfe1003089.
Texte intégralRindo, Good, Parlindungan Manik, Sarjito Jokosisworo, Carolina Putri et Priscilla Wilhelmina. « Effect analysis of the direction of fiber arrangement on interfaces of laminated bamboo fiber as a construction material for wood vessel hulls ». Dans 1ST INTERNATIONAL SEMINAR ON ADVANCES IN METALLURGY AND MATERIALS (i-SENAMM 2019). AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0016147.
Texte intégralGnanasundar, V. « Mechanical Properties of Fiber Reinforced Concrete by using Sisal Fiber with M-Sand as Fine Aggregate ». Dans Sustainable Materials and Smart Practices. Materials Research Forum LLC, 2022. http://dx.doi.org/10.21741/9781644901953-10.
Texte intégralSchumann, Kyle. « Research-Build : Biomaterial Invention through Design Studio Pedagogy ». Dans 111th ACSA Annual Meeting Proceedings. ACSA Press, 2023. http://dx.doi.org/10.35483/acsa.am.111.40.
Texte intégral« Sustainable Building Replacing Normal Construction Materials with Sustainable Materials ». Dans The International Conference on scientific innovations in Science, Technology, and Management. International Journal of Advanced Trends in Engineering and Management, 2023. http://dx.doi.org/10.59544/qvzv4524/ngcesi23p75.
Texte intégralElizondo, Hazel A., Bereket Lebassi et Jorge E. Gonzalez-Cruz. « Modeling and Validation of Building Thermal Performance of the 2007 Santa Clara University Solar Decathlon House ». Dans ASME 2008 2nd International Conference on Energy Sustainability collocated with the Heat Transfer, Fluids Engineering, and 3rd Energy Nanotechnology Conferences. ASMEDC, 2008. http://dx.doi.org/10.1115/es2008-54044.
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