Optimizing Chemical Wood Modification with Oligomeric Lactic Acid by Screening of Processing Conditions

被引:16
|
作者
Grosse, Charlotte [1 ,2 ]
Grigsby, Warren J. [3 ]
Noel, Marion [1 ]
Treu, Andreas [4 ]
Thevenon, Marie-France [5 ,6 ]
Gerardin, Philippe [2 ]
机构
[1] Berne Univ Appl Sci, Dept Architecture Wood & Civil Engn, Solothurnstr 102,Postfach 6096, CH-2500 Biel, Switzerland
[2] Univ Lorraine, Fac Sci & Technol, LERMaB, EA 4370, Vandoeuvre Les Nancy, France
[3] Scion, Bioprod Dev, Rotorua, New Zealand
[4] NIBIO, Norwegian Inst Bioecon Res, As, Norway
[5] CIRAD, UR BIOWooEB, Montpellier, France
[6] Univ Montpellier, CIRAD, BIOWooEB, Montpellier, France
来源
JOURNAL OF WOOD CHEMISTRY AND TECHNOLOGY | 2019年 / 39卷 / 06期
关键词
Beech; chemical modification; lactic acid; curing; optimization; HEAT-TREATMENT INTENSITY; DECAY RESISTANCE; HARDWOOD; CELLULOSE; PERFORMANCE; SOFTWOOD; FTIR;
D O I
10.1080/02773813.2019.1601739
中图分类号
TB3 [工程材料学]; TS [轻工业、手工业、生活服务业];
学科分类号
0805 ; 080502 ; 0822 ;
摘要
When exposed to moisture, wood undergoes swelling and is susceptible to fungal degradation. Chemical modification via oligomeric lactic acid (OLA) treatment has been found to be a promising environmentally friendly solution to this disadvantage. In this study, wood was impregnated with OLA and then variously heat treated to polymerize the OLA in situ. The effect of curing temperature and time on OLA polymerization has been determined chemically. Dimensional stability was examined by water immersion and hygroscopicity measurements and biological decay resistance also evaluated. OLA impregnation followed by heat treatment enhanced wood properties. OLA cure at 160 degrees C for 48 h resulted in treated wood with greater dimensional stability and biological resistance.
引用
收藏
页码:385 / 398
页数:14
相关论文
共 50 条
  • [21] Modification Chemical and Physical Modification of Cassava Starch Using Lactic Acid and Ethanol Under Oven and Solar Drying
    Sumardiono, Siswo
    Djaeni, Mohamad
    Jos, Bakti
    Pudjihastuti, Isti
    Abdallatif, Mohamed
    ADVANCED SCIENCE LETTERS, 2017, 23 (06) : 5792 - 5795
  • [22] Pulverization and Chemical Modification of Wood in One Pod: Acetylation Behavior of Wood by Mechanochemical Processing with Rod-Milling Treatment
    Ando, Daisuke
    Kurimoto, Yasuji
    Takata, Katsuhiko
    ACS SUSTAINABLE CHEMISTRY & ENGINEERING, 2022, 10 (51) : 17198 - 17206
  • [23] Efficacy of Lactic Acid, Lactic Acid-Acetic Acid Blends, and Peracetic Acid To Reduce Salmonella on Chicken Parts under Simulated Commercial Processing Conditions
    Ramirez-Hernandez, Alejandra
    Brashears, Mindy M.
    Sanchez-Plata, Marcos X.
    JOURNAL OF FOOD PROTECTION, 2018, 81 (01) : 17 - 24
  • [24] Chemical modification of poly(lactic acid) and its use as matrix in poly(lactic acid) poly(butylene adipate-co-terephthalate) blends
    Rigolin, Talita Rocha
    Costa, Lidiane Cristina
    Chinelatto, Marcelo Aparecido
    Riveros Munoz, Pablo Andres
    Prado Bettini, Silvia Helena
    POLYMER TESTING, 2017, 63 : 542 - 549
  • [25] OPTIMIZING PROCESSING CONDITIONS FOR CHEMICAL PEELING OF POTATOES USING RESPONSE-SURFACE METHODOLOGY
    GARROTE, RL
    COUTAZ, VR
    LUNA, JA
    SILVA, ER
    BERTONE, RA
    JOURNAL OF FOOD SCIENCE, 1993, 58 (04) : 821 - 826
  • [26] Screening of lactic acid bacteria producing uricase and stability assessment in simulated gastrointestinal conditions
    Handayani, I
    Utami, T.
    Hidayat, C.
    Rahayu, E. S.
    INTERNATIONAL FOOD RESEARCH JOURNAL, 2018, 25 (04): : 1661 - 1667
  • [27] Screening of Lactic Acid Bacteria for Anti-Fusarium Activity and Optimization of Incubation Conditions
    Zhao, Hui
    Vegi, Anuradha
    Wolf-Hall, Charlene
    JOURNAL OF FOOD PROTECTION, 2017, 80 (10) : 1648 - 1656
  • [28] Studies on the screening of lactic acid bacteria suitable for hyposalt-pickles and their fermentation conditions
    Ishikawa, K
    Kato, T
    Komiya, T
    JOURNAL OF THE JAPANESE SOCIETY FOR FOOD SCIENCE AND TECHNOLOGY-NIPPON SHOKUHIN KAGAKU KOGAKU KAISHI, 2003, 50 (08): : 361 - 364
  • [29] Bioconversion of potato-processing wastes into an industrially-important chemical lactic acid
    de Oliveira J.
    Porto de Souza Vandenberghe L.
    Zwiercheczewski de Oliveira P.
    Fátima Murawski de Mello A.
    Rodrigues C.
    Singh Nigam P.
    Faraco V.
    Soccol C.R.
    Bioresource Technology Reports, 2021, 15
  • [30] Processing of poly(lactic acid): Characterization of chemical structure, thermal stability and mechanical properties
    Carrasco, F.
    Pages, P.
    Gamez-Perez, J.
    Santana, O. O.
    Maspoch, M. L.
    POLYMER DEGRADATION AND STABILITY, 2010, 95 (02) : 116 - 125
12345