Interaction analysis between slenderness ratio and resin content on mechanical properties of particleboard 被引量：4

Interaction analysis between slenderness ratio and resin content on mechanical properties of particleboard

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摘要 The interaction between particle size and resin content is one of the most important structural parameters that can influence the accuracy of predictions about wood-composite properties. We developed three kinds of equation （linear, quadratic, and exponential） for each mechanical property of particleboard based on slenderness ratio and resin content at a constant density （0.7g cm -3 ）. Results from SHAZAM software （version 9） suggested that the quadratic function was not significant, but the linear and exponential functions were significant. The interaction between particle size and resin content was analyzed by Maple 9 software. The results indicated that an exponential function can better describe the simultaneous effect of slenderness and resin content than a linear equation. Under constant resin content, particles with higher slenderness ratios increased more in modulus of rupture （MOR） and modulus of elasticity （MOE） than did particles with lower slenderness ratios. Edge withdrawal resistance （SWRe） values did not increase with increasing slenderness ratio. The interaction between particle size and resin content is one of the most important structural parameters that can influence the accuracy of predictions about wood-composite properties. We developed three kinds of equation （linear, quadratic, and exponential） for each mechanical property of particleboard based on slenderness ratio and resin content at a constant density （0.7g cm -3 ）. Results from SHAZAM software （version 9） suggested that the quadratic function was not significant, but the linear and exponential functions were significant. The interaction between particle size and resin content was analyzed by Maple 9 software. The results indicated that an exponential function can better describe the simultaneous effect of slenderness and resin content than a linear equation. Under constant resin content, particles with higher slenderness ratios increased more in modulus of rupture （MOR） and modulus of elasticity （MOE） than did particles with lower slenderness ratios. Edge withdrawal resistance （SWRe） values did not increase with increasing slenderness ratio.

作者 Mohammad Arabi Mehdi Faezipour Mohammad Layeghi Ali Akbar Enayati

机构地区 Department of Wood & Paper Science and Technology

出处《Journal of Forestry Research》 SCIE CAS CSCD 2011年第3期461-464,共4页 林业研究（英文版）

关键词 mechanical properties particle size slenderness ratio linear equation exponential equation mechanical properties particle size slenderness ratio linear equation exponential equation

分类号 TS653.5 [轻工技术与工程] V258 [一般工业技术—材料科学与工程]

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参考文献3

1卢跃斌,王金满,胡国民.ANALYSIS OF COMPUTER VISION ON RESIN EFFICIENCY IN PARTICLEBOARD[J].Journal of Northeast Forestry University,1994,5(1):76-81. 被引量：1
2Majid Azizi Payam Ghorbannezhad Hamid Hatefnia.2012年伊朗人造板需求量预测[J].Journal of Forestry Research,2009,20(2):179-182. 被引量：2
3Majid Azizi.适用于伊朗的纸和木材业的一种白杨木材供应模式(英文)[J].Journal of Forestry Research,2008,19(4):323-328. 被引量：1

二级参考文献26

1Azis Iwan J. 2003. Complex Decision in the establishment of Asian Regional Financial Arrangement. In: Proceeding of the Seventh International Symposium on the Analytic ttierarchy Process, ISAHP 2003, 7-9 August 2003, Bali, Indonesia,. Bali, Indonesia: PPM Graduate School of Management, p39-56.
2Azizi M, Modarres M. 2007. A strategic model for location selection of wood industry: An application of ANP. Journal of Applied Sciences, 7(3): 326-333.
3Cevik S, Aktas E, Topcu YI. 2004. Selection of an Enterprise Resource Planning System using Analytic Network Process: The case of Turkey. 20th Eulvpean Conference on Operation Research, OR and the Management of Electronic Selwices, July 4-7, Rhodes, Greece, Abstract book. Greece: Hellenic Operational Research Society (HELORS), p87.
4Chang SH, Lee AHI, Pearn WE. 2005. Analytic network process approach for product mix planning in semiconductor fabricator, Int J Prod Eeon, 96: 15-36.
5Gencer C, Gurpinar D. 2007. Analytic network process in supplier selection: A case study in an electronic finn, Applied Mathematical Modeling. Elsevier 31, Elsevier Science Ltd, pp 2475-2486.
6Habib M, Javaid L R Saaty R W. 2007. Analytic Network Process applied to R&D project selection, ISAHP2007 proceeding, Creative Decision Foundation, Armada De Chile, Vina Del Mar, Chile.
7Ilker Y T, Sebnem B, Suha U. 2004. Modeling marketing strategies in organic food through analytic network process. MCDM 2004 conference, Whistler, B. C. Canada August 6-11. Canada: Simon Fraser University Burnaby, Canada
8Partovi Y F. 2006. An analytic model for locating facilities strategically. OMEGA, Int J Manage Sci, 34: 41-55.
9Piantanakulchai M. 2005. Analytic network process model for highway corridor planning. In: Proceeding of the 8^th International Symposium on the Analytic Hierarchy Process. US: ISAHP2005, University of Hawaii, Honolulu, East-West Conference Center, University of Hawaii and Creative Decision Foundation pp38
10Saaty T L. 2000. Decision making for leaders. US: RWA Publications, Pittsburg, PA. 4922 Ellsworth Avenue, Pittsburgh, PA 15213 US, p424.

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1Mohammad Arabi,Mehdi Faezipour,Heydar Gholizadeh.Reducing resin content and board density without adversely affecting the mechanical properties of particleboard through controlling particle size[J].Journal of Forestry Research,2011,22(4):659-664. 被引量：1

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1陈云,张喜燕,雷亚芳,史小娟.麦秸的微观构造及化学成分分析[J].西北农林科技大学学报（自然科学版）,2015,43(2):179-183. 被引量：14
2郑超,张雅云,肖建平,杨庆,雷亚芳.刨花形态对麦秸板物理力学性能的影响[J].西北农林科技大学学报（自然科学版）,2015,43(3):191-198. 被引量：9
3王琪,李济宁,史宇亮.玉米秸秆刨花形态对刨花板物理性能的影响[J].农业与技术,2005,25(6):41-42. 被引量：5
4王维新,舒文博.关于人造板弹性模量及测定方法的几个问题[J].中国人造板,2006,13(9):21-23. 被引量：3
5黄蓉.麦秸刨花板生产工艺简介[J].科技情报开发与经济,2008,18(10):215-216. 被引量：1
6多化琼,王喜明,王悦东.利用傅立叶变换研究闽楠木材纤维细胞尺寸[J].西北林学院学报,2009,24(3):159-162. 被引量：7
7彭明凯,梅长彤.刨花形态及定向角度对刨片层积材性能的影响[J].南京林业大学学报（自然科学版）,2009,33(4):129-131. 被引量：5
8王琪,胡晓丽,李松,程希.刨花形态对秸秆板材性能的影响试验研究[J].中国农机化,2011(3):122-124. 被引量：6
9张大同,刘学斌,李忠正.小麦草各部位纤维形态和化学组成的分析[J].中国造纸,1990,9(4):16-21. 被引量：17
10胡育辉.定向结构刨花板与其它人造板的比较[J].木材工业,2000,14(5):27-28. 被引量：6

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1郑超,张雅云,肖建平,杨庆,雷亚芳.刨花形态对麦秸板物理力学性能的影响[J].西北农林科技大学学报（自然科学版）,2015,43(3):191-198. 被引量：9
2Akbar Rostampour Haftkhani,Mohammad Arabi.Improve regression-based models for prediction of internal-bond strength of particleboard using Buckingham's pi-theorem[J].Journal of Forestry Research,2013,24(4):735-740. 被引量：1
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5孙萍,张健,刘红光,李黎,罗斌.UF/PMDI与PMDI胶黏剂制备轻质刨花板性能对比研究[J].林产工业,2021,58(6):7-12. 被引量：10
6谷晓雨,邹钰莹,王正.秸秆板物理性能的研究发展[J].林业机械与木工设备,2022,50(3):17-20.
7邹钰莹,谷晓雨,王正.秸秆板力学性能测试的研究进展[J].林业机械与木工设备,2022,50(6):4-8. 被引量：1
8黄钟惠.劈裂率对麦秸碎料板材物理力学性能的影响[J].林业科技通讯,2023(7):42-45.
9李宏艺,李长贵,马玉珍,王雅慧,葛立军,何明明,付茵茵,朱景振.大片刨花形态对可饰面定向刨花板力学性能的影响[J].西北农林科技大学学报（自然科学版）,2023,51(12):39-48. 被引量：2
10洪吾俊,李万兆,胡尧琼,梅长彤.基于卷积神经网络的刨花定向角度自动测量方法构建[J].木材科学与技术,2024,38(1):58-65.

1Mohammad Arabi,Mehdi Faezipour,Heydar Gholizadeh.Reducing resin content and board density without adversely affecting the mechanical properties of particleboard through controlling particle size[J].Journal of Forestry Research,2011,22(4):659-664. 被引量：1
2Takao Ota,Tomoya Okamoto.Mechanical Properties of Particleboard Made from Rice Husk[J].材料科学与工程（中英文B版）,2015,5(7):263-269.
3白桦.空椅子[J].诗歌月刊,2011(2):4-4.
4赵习水.有趣的“火星森林”猜想[J].大科技（科学之谜）（A）,2009(11):12-13.
5“火星森林”猜想[J].奇闻怪事,2010(1):18-19.
6吴昌新,孙传棋,李其娟.γ′粒子尺寸对定向凝固高温合金拉伸和持久性能的影响[J].航空材料学报,2002,22(3):1-4. 被引量：5
7送到太空、沙发和水下[J].科技新时代,2008(1):39-39.
8陈培德.Vo—Ⅱ微晶玻璃机械性能测试及其应用[J].航天返回与遥感,1993,14(2):18-21.
9李雅娣,陈林泉,蹇泽群.粒子尺寸分级的喷管两相流场计算[J].固体火箭技术,2003,26(3):32-34. 被引量：4
10王学胜.价廉物美的折叠飞机[J].青少年科技博览,2011(10):6-6.

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2011年第3期

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