中國國家標準 CNS 454 (2005) 木材抗彎試驗法。經濟部標準檢驗局。
中國國家標準 CNS 3000 (2001) 木材之加壓防腐處理方法。經濟部標準檢驗 局。
中國國家標準 CNS 6717 (1999) 木材防腐劑之性能基準及其試驗方法。經濟 部標準檢驗局
中國國家標準 CNS 14995 (2000) 木材防腐劑。經濟部標準檢驗局。
台灣電力公司材料標準 E 048 (2003) 防腐木橫擔。台灣電力股份有限公 司。
王家彰 (1980) 水溶性木材防腐劑之效果。台灣林業 6(1): 39-49。
王家彰 (1985) 水溶性木材防腐劑--(鉻化砷酸銅)之回顧與未來展望。林產 工業 4(3): 60-67。
王松永、丁昭義 (1984) 林產學(上冊)。臺灣商務印書館,47-115 頁。台北。
王松永 (1983) 木材物理。國立編譯館,294-313 頁。台北。
王松永 (1991) 商用木材。中華民國林產事業協會。台北。
王 松 永 (1998) 木 材 之 天 然 耐 朽 性 及 其 防 止 處 理 。 林 產 工 業 17(1):
219-234。
王松永、李長垚 (1993) 鉻化砷酸銅防腐劑處理對集成材之強度與膠合性質 之影響。中華林學季刊 26(2): 95-112。
王松永、林淑華 (1997) 不同栽植距離柳杉木材之動彈性係數與靜曲性質之 影響因子探討。中華林學季刊 30(1): 3-13。
周慧明 (1989) 木材防腐。中國林業出版社。北京。
林振榮 (1992) 柳杉、杉木造林木之原木品等與製材率、製材品等與彎曲性 質之研究。國立台灣大學森林學研究所碩士論文。
林亞立 (1996) 鉻化砷酸銅防腐劑之注入與流失(Ⅲ)-樹種與 CCA 類型對注
入量與流失性之影響。林產工業 15(4): 670-685。
林亞立、陳克恭 (2004) 後鉻化砷酸銅防腐劑時代之發展趨勢。林業研究專 訊 11(6): 23-24。
李鴻麟、夏滄琪、許富蘭、林勝傑 (2005) 新型水溶性木材防腐劑對木材保 存性與燃燒性之影響。台灣林業科學 20(2): 139-156。
卓志隆 (1998) 栽植距離對柳杉強度變異性影響之研究 (Ι) 靜力機械性質。
林產工業 17(3): 453-470。
卓志隆 (2000) 栽植距離對柳杉強度變異之影響 (Ⅱ) 動彈性係數與靜彈性 係數。林產工業 19(1): 9-22。
柯志裕 (1995) 栽植距離對柳杉實大樑靜曲及動彈性係數的影響之研究。國 立台灣大學森林學研究所碩士論文。
張上鎮、王升陽 (1995) 鉻化砷酸銅(CCA)在木材內之分佈與固定。林產工 業 14(3): 488-498。
黃志煜、王松永、林振榮、蔡明哲 (2008) 市售國外與國內防腐處理南方松 品質之初探。林產工業 27(2): 133-140。
莊鴻濱 (2000) 耐燃藥劑的分佈與吸收量對木材耐燃性能與強度性能的影 響。國立台灣大學森林學研究所博士論文。
陳克恭 (2006) 木材防腐藥劑成分對木材真菌之抑制效能。國立台灣大學森 林環境暨資源學系碩士論文。
陳顗夫 (2007) 防腐處理對木質構造建築地檻材之耐久性。國立台灣大學森 林環境暨資源學系碩士論文。
楊德新、邱志明、郭博文、王松永、林振榮(2005)超音波檢測技術評估 商用地板材質之研究。台灣林業科學 20(2): 113-121。
蔡明哲、王松永、林振榮、楊德新、謝耀明、林蘭東 (2008) 防腐處理對古 蹟修復用新木料物理與力學性質之影響。林產工業 27(2): 83-96。
蘇文清、陳周宏、陳柏璋、王怡仁 (2007) 荷重跨距內節特徵對台灣杉及杉 木抗彎性質的影響。林產工業 26(2): 149-158。
ASTM D610-08. (2008) Standard test method for evaluating degree of rusting on painted steel surface. Annual Book of ASTM Standards, West Conshohocken. PA.
ASTM D1413-07. (2007) Standard test method for wood preservatives by laboratory soil-block cultures. Annual Book of ASTM Standards, West Conshohocken. PA.
ASTM G-1. (1990) Standard practice for preparing, ckaning, and evaluating corrosion test specimens. Annual Book of ASTM Standards, West Conshohocken. PA.
AWPA P5-04. (2004) Standard for waterborne preservatives. American Wood-Preservers’Association Book of Standards. Granbury, Texas. U.S.A.
AWPA U1-04. (2004) Use category system:user specification for treated wood.
American Wood-Preservers’Association Book of Standards. Granbury, Texas. U.S.A.
AS 1604.1 (005) Specification for preservative treatment part 1: sawn and round timber. Australian Standard GPO Box 476, Sydney, NSW2001, Australia.
Baker, A.J. (1978) Corrosion of metal in wood products. In: Durability of building materials and components. Proceedings, First International Conference; 1978 Aug. 21-23; Ottawa, Canada, West Conshohocken, PA:
ASTM.
Baker, A.J. (1987) Corrosion of metal in preservative-treated wood. Hamel, Margaret ed. Wood protection techniques and the use of treated wood in construction: Proceedings 47258; 1987 October 28-30; Memphis, TN.
Madison, WI: Forest Products Research Society; 99-101.
Barnes, H.M. (1985) Effect steaming temperature and CCA retention on mechanical properties of southern pine. For. Prod. J. 35(6):31-32.
Clarruthers, P. (2001) Internation approval and use of copper azole based wood preservatives. 新世紀木材防腐新趨勢研討會論文集,中華民國木質構 造協會,28-35 頁。
Clausen, C. and A. F. Green (2003) Oxalic acid overproduction by copper-tolerant brown-rot basidiomycets on southern yellow pine treated with copper-base preservatives. Int. Biodeterior. Biodegrad. 51:139-144.
Freeman, M.H. and C.R. McIntyre (2008) A Comprehensive Review of Copper Based Wood Preservatives with a Focus on New Micronized or Dispersed Copper Systems. For. Prod. J. 58(11): 6-27.
Graham, M. S. (2009) Fastener corrosion and treated wood: the current generation of preservative-treated wood present some problems.
ProfessionalRoofing April. pp23.
Lee, J. S., I. Furukawa, and T. Sakuno (1992) Microdistribution of elements in wood after pre-treatment with chitosan and impregnation with chrome-copper-arsenic preservative. Mokuzai Gakkaishi 38(2):186-192.
Matsunaga, H., J. Matsunaga, and K. Oda (2004) X-ray microanalysis using thin section of preservative-treated wood:Relationship of wood anatomical features to the distribution of copper. IAWA J. 25(1):9-90.
Matsunaga, H, Kiguchi, M, Evans, P (2007): Micro-Distribution of Metals in Wood Treated with a Nano-Copper Wood Preservative. International Research Group on Wood Protection. Document No. IRG/WP/07-40360.
10p.
Kass, A., F.F. Wangaard and H.A. Schroeder. (1970) Chemical degradation of wood: The relation between strength retention and pentosan content. Wood and fiber 2(1):31-39.
Resch, H. and R. Parker. (1982) Strength and stiffness of preservative-treated marine piles. Wood and fiber 14(4):310-319.
Ruetze, M., U. Schmitt, D. Noack, and S. Kruse (1994) Inveatigations on the
potential role of chromium containing woodstrains in the development of nasal cancer. Holzals. and Werkstoff. 52:63-87.
Rammer D.R., S.L. Zelinka, and P. Line (2006) Fastener corrosion:tesing, research, and design considerations. In: WCTE 9th World Conference on Timber Engineering ; 2006 August 6-10 ; Corvallis, OR.; Oregon Seate University:8p.
Simpson Strong Tie (2006) Corrosion fact sheet. Simpson Strong Tie Technical Bulletin T-PTWOOD06. Available electronically at
http://www.strongtie.com/literature/tech-bulletins.html
Stefanovic, S. (2006) Environmental impact of wood preservative leachates. Ph.
D. thesis, Univ of Toronto, pp. 186.
Winandy, J.E. (1995) Effects of waterborne preservative treatment on mechanical properties: A review. pp.17-33. In: Proceedings 19th
Annual Meeting
of the American Wood-Preservers’ Association.May 21-24,1995.New York, New York, USA.
Winandy, J.E. and S. T. Lebow (1997) Effects of ammoniacal copper citrate preservative and redrying on bending properties of two grades of southern pine 2 by 4 lumber. Solid Wood Prod. 47(7/8):91-99.
Zelinka, S. L.; Rammer, D. R.; Stone, D. S. (2009) Evaluating the corrosiveness of southern pine treated with several wood preservatives using electrochemical techniques. CORROSION 2009, National Association of Corrosion Engineers. Paper #09172.
Yildiz, U.C., A. Temiz, E.D., and S. Yildiz (2004) Effects of the wood preservation on mechanical properties of yellow pine. Building and Environ. 39(9):1071-107.