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Artigo de periodico

Potential use of Libidibia ferrea and Poincianella pluviosa woods for bows of string instruments (2018)

  • Authors:
  • USP affiliated authors: SILVA JUNIOR, FRANCIDES GOMES DA - ESALQ
  • Unidades: ESALQ
  • DOI: 10.1007/s00107-017-1187-6
  • Subjects: ÁRVORES FLORESTAIS; INSTRUMENTOS MUSICAIS; MADEIRA
  • Language: Inglês
  • Imprenta:
  • Source:
    • Online source accessDOI
    Informações sobre o DOI: 10.1007/s00107-017-1187-6 (Fonte: oaDOI API)
    • Este periódico é de assinatura
    • Este artigo NÃO é de acesso aberto
    • Cor do Acesso Aberto: closed
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    • ABNT

      LONGUI, Eduardo Luiz; MOUREIRA, Juliana Aparecida; LOMBARDI, Daniel Romeu; SILVA JÚNIOR, Francides Gomes da; ALVES, Edenise Segala. Potential use of Libidibia ferrea and Poincianella pluviosa woods for bows of string instruments. European Journal of Wood and Wood Products, Heidelberg, Springer Nature, v. 76, n. 1, p. 357-368, 2018. Disponível em: < http://dx.doi.org/10.1007/s00107-017-1187-6 > DOI: 10.1007/s00107-017-1187-6.

    • APA

      Longui, E. L., Moureira, J. A., Lombardi, D. R., Silva Júnior, F. G. da, & Alves, E. S. (2018). Potential use of Libidibia ferrea and Poincianella pluviosa woods for bows of string instruments. European Journal of Wood and Wood Products, 76( 1), 357-368. doi:10.1007/s00107-017-1187-6

    • NLM

      Longui EL, Moureira JA, Lombardi DR, Silva Júnior FG da, Alves ES. Potential use of Libidibia ferrea and Poincianella pluviosa woods for bows of string instruments [Internet]. European Journal of Wood and Wood Products. 2018 ; 76( 1): 357-368.Available from: http://dx.doi.org/10.1007/s00107-017-1187-6

    • Vancouver

      Longui EL, Moureira JA, Lombardi DR, Silva Júnior FG da, Alves ES. Potential use of Libidibia ferrea and Poincianella pluviosa woods for bows of string instruments [Internet]. European Journal of Wood and Wood Products. 2018 ; 76( 1): 357-368.Available from: http://dx.doi.org/10.1007/s00107-017-1187-6

    Referências citadas na obra
    Alves ES, Longui EL, Amano E (2008a) Pernambuco wood (Caesalpinia echinata) used in the manufacture of bows for string instruments. IAWA J 29:323–335
    Alves ES, Angyalossy V, Longui EL, Lombardi DR, Amano E, Vargas A (2008b) O arco: arte e ciência. In: Ribeiro RCLF, Barbedo CJ, Alves ES, Domingos M, Braga MR (eds) Pau-brasil, da semente à madeira conhecer para conservar (The bow: art and science. Pau-brasil, da semente a madeira, conhecer para conservar (Pau-brasil, from seed to wood, learn to conserve). Instituto de Botânica/SMA, São Paulo. pp 169–183 (in Portuguese)
    Askenfelt A (2002) Vital statistics. Strad 8:822–827
    Baar J, Tippner J, Gryc V (2013) The relation of fibre length and ray dimensions to sound propagation velocity in wood of selected Tropical Hardwoods. IAWA J 34:49–60
    Berlyn GP, Miksche JP (1976) Botanical microtechnique and cytochemistry. The Iowa University Press, Iowa
    Bodig J, Jayne BA (1982) Mechanics of wood and wood composites. Van Nostrand Reinhold, New York
    Brémaud I, Poidevin N (2013) Approches culturelles et mécaniques dans le choix des bois en facture: cas des archets anciens. (Cultural and mechanical approaches in the choice of woods in instrument making: the case of early bows) In: Castellengo M, Genevoix H (eds) La musique et ses instruments/Music and its instruments, contributions sélectionnées de CIM09, Paris. Editions Delatour France. Collection Pensée Musicale. pp 1–27 (in French)
    Brémaud I, Cabrolier P, Minato K, Gérard J, Thibaut B (2008) Vibrational properties of tropical woods with historical uses in musical instruments. In: Proceedings of the ESWM Conference Wood Science for the Preservation of Cultural Heritage, Braga, Portugal
    Brémaud I, Minato K, Langbour P, Thibaut B (2010) Physico-chemical indicators of the interspecific variability in vibration damping of wood. Ann For Sci 67:707–713
    Brunelli AA, Leal JJ, Longo FG (1997) Madeiras: material para o design (Wood: material for design). SCTDE, São Paulo, p 73 (in Portuguese)
    Bucur V, Lanceleur P, Roge B (2002) Acoustic properties of wood in tridimensional representation of slowness surfaces. Ultrasonics 40:537–541
    Carpita N, McCann M (2000) The cell wall. In: Buchanan BB, Gruissem W, Jones RL (Eds) Biochemistry and Molecular Biology of Plants. American Society of Plant Physiologists, Rockville. pp. 52–109
    Carvalho PER (2003) Espécies arbóreas brasileiras (Brazilian tree species). Embrapa Informação Tecnológica, Colombo: Embrapa Florestas v.1, Brasília (in Portuguese)
    Carvalho PER (2008) Espécies arbóreas brasileiras (Brazilian tree species). Embrapa Informação Tecnológica, Colombo: Embrapa Florestas v.3, Brasília (in Portuguese).
    CESP-Companhia Energética de São Paulo (1988) Guia de arborização (Afforestation Guide). 3. ed. Coleção Ecossistemas Terrestres 6, São Paulo (in Portuguese)
    CITES (2007) Consideration of Proposal for Amendment of Appendices I and II. The Hague, Belgium
    COPANT-Commission Panamericana de Normas Técnicas (1974) Descripcion de características generales, macroscópicas de las maderas angiospermas dicotiledôneas (Description of general characteristics, macroscopic of the angiosperms dicotyledons woods). pp. 1–19 (in Spanish)
    Dauchez N, Génevaux JM, Brémaud I (2006) Qualité des archets de violon et instabilité de type flambement (Quality of violin bows and buckling instability). In: 8e Congrès Français d’Acoustique, Tours, France: 459–462 (in French)
    Franco N, Yojo T (2008) Propriedades físicas, mecânicas e acústicas da madeira de Pau- brasil (Physical, mechanical and acoustic properties of pau brasil wood). In: Ribeiro RCLF, Barbedo CJ, Alves ES, Domingos M, Braga MR (eds) Pau-brasil, da semente a madeira, conhecer para conservar (Pau-brasil, from seed to wood, learn to conserve). Instituto de Botânica/SMA, São Paulo. pp 145–157 (in Portuguese)
    Gasson P, Warner K, Lewis G (2009) Wood anatomy of Caesalpinia s.s., Coulteria, Erythrostemon, Guilandina, Libidibia, Mezoneuron, Poincianella, Pomaria and Tara (Leguminosae, Caesalpinoideae, Caesalpineae). IAWA J 30:247–276
    Glass S, Zelinka SL (2010) Moisture Relations and Physical Properties of Wood (Chap. 4). In: Ross R (ed) Handbook wood. Centennial Edition. FPL-GTR-190. US Department of Agriculture, Forest Service, Forest Products Laboratory. pp 1–19
    Huang H, Lindström R, Nakada R, Ralston J (2003) Cell wall structure and wood properties determined by acoustics—a selective review. Holz Roh Werkst 61:321–335
    IAWA Committee (1989) IAWA list of microscopic features for hardwood identification. IAWA Bull 10:219–332
    IBAMA (1992) Portaria IBAMA nº 37-N, de 03 de Abril de 1992. Instituto Brasileiro do Meio Ambiente e dos Recursos Naturais Renováveis. http://www.mma.gov.br/estruturas/179/_arquivos/179_05122008033627.pdf . Accessed 20 Dec 2015
    Johansen DA (1940) Plant Microtechnique. McGraw-Hill Book Company Inc., New York
    Lewis GP (2015a) Poincianella in Lista de Espécies da Flora do Brasil. Jardim Botânico do Rio de Janeiro. http://floradobrasil.jbrj.gov.br/jabot/floradobrasil/FB109778 . Accessed 19 Aug 2015
    Lewis GP (2015b) Libidibia in Lista de Espécies da Flora do Brasil. Jardim Botânico do Rio de Janeiro. http://floradobrasil.jbrj.gov.br/jabot/floradobrasil/FB109828 . Accessed 19 Aug 2015
    Longui EL (2005) Pau-brasil e outras espécies nativas empregadas na confecção de arcos para instrumentos de corda: um estudo comparativo (Pau-brasil and other native species used in the manufacture of bows for string instruments: a comparative study). p 75 Dissertação (Mestrado em Biodiversidade vegetal e meio ambiente). Instituto de Botânica de São Paulo (in Portuguese)
    Longui EL, Yojo T, Lombardi DR, Alves ES (2010a) The potential of ipê (Handroanthus spp.) and maçaranduba (Manilkara spp.) woods in the manufacture of bows for string instruments. IAWA J 31:149–160
    Longui EL, Lombardi DR, Alves ES (2010b) Potential Brazilian wood species for bows of string instruments. Holzforschung 64:511–520
    Longui EL, Lombardi DR, Alves ES (2011) Six potential woods for bows of stringed instruments: organoleptic properties, machining and commercial availability. Revista do Instituto Florestal 23:203–216
    Longui EL, Brémaud I, Silva Júnior FG, Lombardi DR, Alves ES (2012) Relationship among extractives, lignin and holocellulose contents with performance index of seven wood species used for bows of string instruments. IAWA J 33:141–149
    Longui EL, Lima IL, Lombardi DR, Garcia JN, Alves ES (2014) Woods with physical, mechanical and acoustic properties similar to those of Caesalpinia echinata have high potential as alternative woods for bow makers. Cerne 20:369–376
    Lorenzi H (1992) Árvores brasileiras: manual de identificação e cultivo de plantas arbóreas nativas do Brasil (Brazilian trees: a guide for identification and cultivation of native trees from Brazil). Plantarum, Nova Odessa (in Portuguese)
    Lucchi G (1986) The use of empirical and scientific methods to measure the velocity of propagation of sound. J Violin Soc Am 9:107–123
    Mainieri C, Chimelo JP, Angyalossy-Alfonso V (1983) Manual de identificação das principais madeiras comerciais brasileiras (Manual of identification of the main Brazilian commercial woods). Promocet (in Portuguese), São Paulo
    Marchiori JNC (1997) Dendrologia das angiospermas: leguminosas (Dendrology of angiosperms: legumes). Editora da Universidade Federal de Santa Maria, Santa Maria (in Portuguese)
    Matsunaga M, Minato K (1998) Physical and mechanical properties required for violin bow materials II: comparison of the processing properties and durability between pernambuco and substitutable wood species. J Wood Sci 44:142–146
    Matsunaga M, Sugiyama M, Minato K, Norimoto M (1996) Physical and mechanical properties required for violin bow materials. Holzforschung 50:511–517
    Matsunaga M, Sakai K, Kamitakahara H, Minato K, Nakatsubo F (2000) Vibrational property changes of spruce wood by impregnation with water-soluble extractives of pernambuco (Guilandina echinata Spreng.). II. structural analysis of extractive components. J Wood Sci 46:253–257
    Minato K, Sakai K, Matsunaga M, Nakatsubo F (1997) The vibrational properties of wood impregnated with extractives of some species of Leguminosae. Mokuzai Gakkaishi 43:1035–1037 (in Japanese)
    Obataya E, Ono T, Norimoto M (2000) Vibrational properties of wood along the grain. J Mater Sci 35:2993–3001
    Oliveira FGR, Campos JAO, Sales A (2002) Ultrasound measurements in Brazilian hardwood. Mater Res 5:51–55
    Paula JE, Costa KP (2011) Densidade da madeira de 932 espécies nativas do Brasil (Wood density of 932 native species from Brazil). Cinco Continentes, Porto Alegre (in Portuguese)
    Rocha YT, Simabukuro EA (2008) Estratégias de conservação in situ e ex situ do pau-brasil (In situ and ex situ conservation strategies for pau-brasil). In: Ribeiro RCLF, Barbedo CJ, Alves ES, Domingos M, Braga MR (eds) Pau-brasil, da semente à madeira conhecer para conservar (The bow: art and science. Pau-brasil, da semente a madeira, conhecer para conservar (Pau-brasil, from seed to wood, learn to conserve). Instituto de Botânica/SMA, São Paulo. pp 102–113 (in Portuguese)
    Sakai K, Matsunaga M, Minato K, Nakatsubo F (1999) Effects of impregnation of simple phenolic and natural polycyclic compounds on physical properties of wood. J Wood Sci 45:227–232
    Schimleck LR, Espey C, Mora CR, Evans R, Taylor A, Muniz GIB (2009) Characterization of the wood quality of pernambuco (Caesalpinia echinata Lam.) by measurements of density, extractives content, microfibril angle, stiffness, color, and NIR spectroscopy. Holzforschung 63:457–463
    Schimleck LR, Matos JLM, Muniz GIB, Espey C, Taylor A, Harper D (2013) Examination of wood properties of plantation-grown Pernambuco (Caesalpinia echinata). IAWA J 34:34–48
    Soares CBLV (1982) Árvores nativas brasileiras de uso corrente em paisagismo (Brazilian native trees commonly used in landscaping). Silvicultura em São Paulo 16:1923–1928 (in Portuguese)
    Toledo Filho DV, Parente PR (1988) Arborização urbana com essências nativas (urban arborization with native species). Boletim Técnico do Instituto Florestal 42:19–31 (in Portuguese)
    Wegst UGK (2006) Wood for sound. Am J Bot 93:1439–1448
    Wegst UGK, Oberhoff S, Weller M, Ashby MF (2007) Materials for violin bows. Int J Mater Res 98:1230–1237
    Wiersema JH, León B (2013) World Economic Plants: a standard reference, 2nd ed. Boca Raton
    Williams RS, Miller R, Gangstad J (2001) Characteristics of ten tropical hardwoods from certified forests in Bolivia part I—weathering characteristics and dimensional change. Wood and Fiber. Science 33:618–626
    Zenid GJ (2009) Madeira: uso sustentável na construção civil (Wood: sustainable use in civil construction). 2 edn, Instituto de Pesquisas Tecnológicas do Estado de São Paulo, São Paulo, p 99 (in Portuguese)
    Tappi standard (2004a) T 204-om97. Solvent extractives of wood and pulp. In: Tappi test methods. TAPPI Press, Norcross, pp 4
    Tappi standard (2004b) T 222-om02. Acid-insoluble lignin in wood and pulp. In: Tappi test methods. TAPPI Press, Norcross, p 5
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