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      Flexural Properties of Heat-Treatment Samama (Anthocephalus macrophyllus) Wood Impregnated by Boron and Methyl Metacrylate = Flexural Properties of Heat-Treatment Samama (Anthocephalus macrophyllus) Wood Impregnated by Boron and Methyl Metacrylate

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      https://www.riss.kr/link?id=A106541122

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      다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

      This study was conducted to analyze the application of boron compounds, methyl methacrylate (MMA), and heat treatment (HT) on changes in the density, moisture content, and flexural properties of samama (Anthocephalus macrophyllus) wood. Samama wood was impregnated with borax (BX) and boric acid (BA) using a pressure method at 5 atm for 4 h. Afterwards, the wood was impregnated with MMA at the same pressure and duration. Finally, the samama wood was given HT at 90 ºC and 180 ºC. The results indicate that there was a weight gain of 93.4% in the wood impregnated using BA and MMA monomer and HT at 90 °C. Consequently, the wood’s density increased by 82.3%. Increased MOE and MOR percentages of 32.2% and 29.4%, respectively, were also found. HT at 180 °C degraded the wood components and MMA, and consequently, the density, MOE, and MOR also decreased. The wood impregnated by BX, BA, and MMA, and subjected to HT also had decreased moisture content (MC). This research recommends that the application of boron (BX, BA) should be combined with an MMA monomer and HT at 90 °C as an alternative method to improve samama wood quality. If darker color is preferable, HT should be conducted at 180 °C.
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      This study was conducted to analyze the application of boron compounds, methyl methacrylate (MMA), and heat treatment (HT) on changes in the density, moisture content, and flexural properties of samama (Anthocephalus macrophyllus) wood. Samama wood wa...

      This study was conducted to analyze the application of boron compounds, methyl methacrylate (MMA), and heat treatment (HT) on changes in the density, moisture content, and flexural properties of samama (Anthocephalus macrophyllus) wood. Samama wood was impregnated with borax (BX) and boric acid (BA) using a pressure method at 5 atm for 4 h. Afterwards, the wood was impregnated with MMA at the same pressure and duration. Finally, the samama wood was given HT at 90 ºC and 180 ºC. The results indicate that there was a weight gain of 93.4% in the wood impregnated using BA and MMA monomer and HT at 90 °C. Consequently, the wood’s density increased by 82.3%. Increased MOE and MOR percentages of 32.2% and 29.4%, respectively, were also found. HT at 180 °C degraded the wood components and MMA, and consequently, the density, MOE, and MOR also decreased. The wood impregnated by BX, BA, and MMA, and subjected to HT also had decreased moisture content (MC). This research recommends that the application of boron (BX, BA) should be combined with an MMA monomer and HT at 90 °C as an alternative method to improve samama wood quality. If darker color is preferable, HT should be conducted at 180 °C.

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      참고문헌 (Reference)

      1 박용건, "과열증기 열처리 낙엽송재의 물리⋅역학적 성능 및 내후성능 평가" 한국목재공학회 44 (44): 776-784, 2016

      2 Sandberg, D., "Wood modification technologies-a review" 10 (10): 895-908, 2017

      3 Esteves, B., "Wood modification by heat treatment : A review" 4 (4): 370-404, 2008

      4 Trisna PRIADI, "Water Absorption and Dimensional Stability of Heat-treated Fast-growing Hardwoods" 한국목재공학회 47 (47): 567-578, 2019

      5 Chaouch, M., "Use of wood elemental composition to predict heat treatment intensity and decay resistance of different softwood and hardwood species" 95 (95): 2255-2259, 2010

      6 Cahyono, T. D., "The quality of 8 and 10 years old samama wood(Anthocephalus macrophyllus)" 12 (12): 22-28, 2015

      7 Simsek, H., "Some mechanical properties and decay resistance of wood impregnated with environmentally-friendly borates" 24 (24): 2279-2284, 2010

      8 Gaff, M., "Plasticity properties of thermally modified timber in bending–The effect of chemical changes during modification of European oak and Norway spruce" 165 : 613-625, 2019

      9 Missio, A. L., "Physical and mechanical properties of fast-growing wood subjected to freeze-heat treatments" 11 (11): 10378-10390, 2016

      10 Romagnoli, M., "Physical and mechanical characteristics of poor-quality wood after heat treatment" 8 (8): 884-891, 2015

      1 박용건, "과열증기 열처리 낙엽송재의 물리⋅역학적 성능 및 내후성능 평가" 한국목재공학회 44 (44): 776-784, 2016

      2 Sandberg, D., "Wood modification technologies-a review" 10 (10): 895-908, 2017

      3 Esteves, B., "Wood modification by heat treatment : A review" 4 (4): 370-404, 2008

      4 Trisna PRIADI, "Water Absorption and Dimensional Stability of Heat-treated Fast-growing Hardwoods" 한국목재공학회 47 (47): 567-578, 2019

      5 Chaouch, M., "Use of wood elemental composition to predict heat treatment intensity and decay resistance of different softwood and hardwood species" 95 (95): 2255-2259, 2010

      6 Cahyono, T. D., "The quality of 8 and 10 years old samama wood(Anthocephalus macrophyllus)" 12 (12): 22-28, 2015

      7 Simsek, H., "Some mechanical properties and decay resistance of wood impregnated with environmentally-friendly borates" 24 (24): 2279-2284, 2010

      8 Gaff, M., "Plasticity properties of thermally modified timber in bending–The effect of chemical changes during modification of European oak and Norway spruce" 165 : 613-625, 2019

      9 Missio, A. L., "Physical and mechanical properties of fast-growing wood subjected to freeze-heat treatments" 11 (11): 10378-10390, 2016

      10 Romagnoli, M., "Physical and mechanical characteristics of poor-quality wood after heat treatment" 8 (8): 884-891, 2015

      11 Sites, W., "Performance of borate treated wood coated with water repellants in Caribbean and southern US. Test structures" 1997

      12 Hadi, Y. S., "Ketahanan Kayu Termodifikasi Kimia terhadap Biodeteriorasi: Studi pada Kayu Asap dan Kayu Asetilasi" 2007

      13 JAS, "Japanese Agricultural Standard for Structural Laminated Veneer Lumber" Japanese Agricultural Standar Association 2003

      14 장윤성, "Hygroscopic Property of Heat Treated Yellow Poplar (Liriodendron tulipifera) Wood" 한국목재공학회 47 (47): 761-769, 2019

      15 Bowyer, J. L., "Forest products and wood science: an introduction" Wiley-Blackwell Publishing 2007

      16 Yalinkilic, M. K., "Enhancement of biological and physical properties of wood by boric acid-vinyl monomer combination treatment" 52 (52): 667-672, 1998

      17 Toker, H., "Effects of some environmentally-friendly fire-retardant boron compounds on modulus of rupture and modulus of elasticity of wood" 54 (54): 77-88, 2009

      18 Can, A., "Effects of boron impregnation and heat treatment on some physical and mechanical properties of spruce and pine wood" 2010

      19 Perçin, O., "Effects of boron impregnation and heat treatment on some mechanical properties of oak (Quercus petraea Liebl.) wood" 10 (10): 3963-3978, 2015

      20 Awoyemi, L., "Effects of borate impregnation on the response of wood strength to heat treatment" 39 (39): 484-491, 2005

      21 Wang, Q., "Effects of a new GUP-B fire retardant on mechanical properties of Korean pine when exposed to elevated temperature" 55 (55): 214-, 2005

      22 김윤기, "Effects of Heat Treatment on the Characteristics of Royal Paulownia (Paulownia tomentosa (Thunb.) Steud.) Wood Grown in Korea" 한국목재공학회 46 (46): 511-526, 2018

      23 Mohared, A., "Effect of protective additives on leachability and efficacy of borate treated wood" IRGSecretariat 2002

      24 Salman, S., "Development of new wood treatments combining boron impregnation and thermo modification : effect of additives on boron leachability" 72 (72): 355-365, 2014

      25 Biziks, V., "Density and density profile changes in birch and spruce caused by thermohydro treatment measured by X-ray computed tomography" 53 (53): 491-504, 2019

      26 Kartal, S., "Decay and termite resistance of boron-treated and chemically modified wood by in situ co-polymerization of allyl glycidyl ether(AGE)with methyl methacrylate(MMA)" 53 (53): 111-117, 2004

      27 Kartal, S. N., "Combined effect of boron compounds and heat treatments on wood properties: Chemical and strength properties of wood" 198 (198): 234-240, 2008

      28 Tarmian, A., "Changes in moisture exclusion efficiency and crystallinity of thermally modified wood with aging" 12 (12): 92-97, 2019

      29 Todaro, L., "Behavior of pubescent oak(Quercus pubescens Willd. )wood to different thermal treatments" 8 (8): 748-755, 2015

      30 Cahyono, T. D., "Beberapa Sifat Kimia dan Keawetan Alami Kayu Samama(Antocephallus macrophyllus)terhadap rayap tanah" 10 (10): 168-178, 2012

      31 Tekat Dwi Cahyono, "Analysis on Wood Quality, Geometry Factor, and Their Effects on Lathe Check of Samama (Anthocephalus macrophyllus) Veneer" 한국목재공학회 44 (44): 828-841, 2016

      32 "ASTM 2010. Standard test methods for direct moisture content measurements of wood and wood-base materials (ASTM D4442-92)"

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      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
      2011-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2009-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2007-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2005-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2002-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      1999-07-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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      학술지 인용정보

      학술지 인용정보
      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.5 0.5 0.5
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.48 0.45 0.457 0.13
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