研究成果

第 1 到 50 筆結果,共 50 筆。

公開日期標題作者來源出版物scopusWOS全文
12023Effects of woven structure and impact mode on the low-velocity impact properties and fractography of bamboo-textile-reinforced polymer compositesChang, Chun Wei; Lu, Ya Yu; Hsieh, Tsung Han; Chang, Ting Yu; FENG-CHENG CHANG Polymer Testing00
22023Surface, Physicomechanical, and Chemical Properties of Wood/Polypropylene Composites from Various Formulations after Accelerated WeatheringWu, Yi Hung; Chao, Wei Cheng; Yang, Tsu Hsien; FENG-CHENG CHANG ; Yang, Te HsinBioResources00
320232,2,6,6-Tetramethylpiperidine-1-oxyl-Oxidized Cellulose Nanofiber-Embedded Polymer Electrolytes for All-Solid-State Lithium Metal BatteriesLin, Pei Jin; Liao, Cheng Hung; Yeh, Shih Chieh; Tseng, Yu Cheng; FENG-CHENG CHANG ; WEN-CHANG CHEN ; RU-JONG JENG ; NAE-LIH WU ; CHU-CHEN CHUEH ACS Sustainable Chemistry and Engineering00
42023Micromechanical analytical and inverse numerical modeling methods for determining the transverse elastic modulus of bambooChang, CW; Lin, CY; Kao, HW; FENG-CHENG CHANG WOOD SCIENCE AND TECHNOLOGY22
52023Stable emulsion of cationic waterborne polyurethanes with cellulose nanocrystals for enhanced nanocomposite performance (Dec, 10.1007/s10570-022-04989-6, 2022)Chen, HC; Huang, YC; Wu, CH; Jeng, RJ; FENG-CHENG CHANG CELLULOSE00
62022Measuring elastic constants of wood through static bending using a strain gaugeChang C.-W; Hsu F.-L; FENG-CHENG CHANG ; Huang Y.-S.European Journal of Wood and Wood Products
72022Influence of Textile Structure on the Hygroscopic Behavior of Bamboo Textile-Reinforced PolymerChang C.-W; FENG-CHENG CHANG Journal of Natural Fibers11
82022Physical-Mechanical Properties of Bamboo-Textile-Reinforced Polymer Made with Vacuum-Assist Resin Transfer MoldingChang, CW; FENG-CHENG CHANG JOURNAL OF NATURAL FIBERS55
92022Cu(II) and Au(III) recovery with electrospun lignosulfonate CO2-activated carbon fiberWang S.-H; FENG-CHENG CHANG International Journal of Biological Macromolecules7
102022Mechanical properties of built-up timber beams with various cross sections determined using analytical methodsTsai M.-T; Le T.-D.-H; FENG-CHENG CHANG Wood Material Science and Engineering11
112022Study of Living Wall Systems’ (LWSs) Support system for improving LWSs Life cycle performance and noise reduction potentialChang L.-T; FENG-CHENG CHANG Building and Environment64
122021Fabricating efficient flexible organic photovoltaics using an eco-friendly cellulose nanofibers/silver nanowires conductive substrateLin, P.-C.; Hsieh, C.-T.; Liu, X.; FENG-CHENG CHANG ; WEN-CHANG CHEN ; Yu, J.; CHU-CHEN CHUEH Chemical Engineering Journal
132021Correction to: Effects of nanocellulose formulation on physicomechanical properties of Aquazol–nanocellulose composites (Cellulose, (2020), 27, 10, (5757-5769), 10.1007/s10570-020-03190-x)Chen H.-C; Tze W.T.Y; FENG-CHENG CHANG Cellulose
142021Fracture characteristics and energy dissipation of textile bamboo fiber reinforced polymerChang C.-W; FENG-CHENG CHANG Polymers
1520213d printing of collagen/oligomeric proanthocyanidin/oxidized hyaluronic acid composite scaffolds for articular cartilage repairLee C.-F; Hsu Y.-H; Lin Y.-C; Nguyen T.-T; Chen H.-W; Nabilla S.C; Hou S.-Y; FENG-CHENG CHANG ; Chung R.-J.Polymers
162020Developing self-activated lignosulfonate-based porous carbon material for ethylene adsorptionWang, S.-H.; Hwang, Y.-K.; Choi, S.W.; Yuan, X.; Lee, K.B.; FENG-CHENG CHANG Journal of the Taiwan Institute of Chemical Engineers
172020Effects of nanocellulose formulation on physicomechanical properties of Aquazol–nanocellulose compositesChen, H.-C.; Tze, W.T.Y.; FENG-CHENG CHANG Cellulose
182019Enhancement of phytoextraction by Taiwanese chenopod and Napier grass by soapnut saponin and EDDS additionsCHUN-HAN KO ; Yang B.-Y.; FENG-CHENG CHANG Environmental Science and Pollution Research43
192019Flexural performance of built-up beams made with plantation woodChien, T.-P.; Yang, T.-H.; Chang, F.-C.; Yang, Te Hsin; FENG-CHENG CHANG Forests22
202019Preparation and characterization of moso bamboo-based cellulose nanowhiskers under various acid hydrolysis conditionsLiu C.-M.; Lin K.-H.; Chang T.-C.; FENG-CHENG CHANG BioResources
212019Cellulose Nanocrystal Isolation from Hardwood Pulp using Various Hydrolysis ConditionsLin, K.-H.; Enomae, T.; Chang, F.-C.; Enomae, Toshiharu; FENG-CHENG CHANG Molecules2118
222019竹纖維加固樹脂複合材料之發展與特性張鈞瑋(Chun-Wei Chang); 張豐丞(Feng-Cheng Chang); FENG-CHENG CHANG 林產工業
232019應用積層理論分析不同配置條件對竹集成材彈性性質之影響李東穎(Dong-Ying Lee); 張豐丞(Feng-Cheng Chang); 蔡明哲(Ming-Jer Tsai); FENG-CHENG CHANG 國立臺灣大學生物資源暨農學院實驗林研究報告
242019An analysis on the electrophoretic mobility of cellulose nanocrystals as thin cylinders: Relaxation and end effectLin, K.-H.; Hu, D.; Sugimoto, T.; FENG-CHENG CHANG ; Kobayashi, M.; Enomae, T.RSC Advances
252018Effects of moisture content and temperature on wood creepFENG-CHENG CHANG Holzforschung129
262018Effects of temperature-induced strain on creep behavior of wood�Vplastic compositesFENG-CHENG CHANG ; Frank LamWood Science and Technology
272018Agricultural waste derived fuel from oil meal and waste cooking oilChang F.-C. ; Tsai M.-J. ; CHUN-HAN KO Environmental Science and Pollution Research2220
282018Developing lignosulfonate-based activated carbon fibersFENG-CHENG CHANG ; Yen S.-H.; Wang S.-H.Materials
292018利用積層理論分析直交集成材性質呂柏翰(Po-Han Lu); 張豐丞(Feng-Cheng Chang); FENG-CHENG CHANG 林產工業
302016Effects of fiber processing conditions on the yield, carbon content, and diameter of lignosulfonate-based carbon fibersFENG-CHENG CHANG BioResources 
312016Effects of Fiber Processing Conditions on the Yield, Carbon Content, and Diameter of Lignosulfonate-based Carbon FibersYen, Shih-Hsuan; FENG-CHENG CHANG Bioresources8
322016The effects of wood flour content and coupling agent on the dynamic mechanical and relaxation properties of wood-plastic compositesFENG-CHENG CHANG ; Kadla, J.F.; Lam, F.European Journal of Wood and Wood Products
332016Effects of temperature and duration of heat treatment on the physical, surface, and mechanical properties of japanese cedar woodYang, T.-H.; Chang, F.-R.; Lin, C.-J.; FENG-CHENG CHANG BioResources
342016The effect of processing parameters on formation of lignosulfonate fibers produced using electrospinning technologyFENG-CHENG CHANG ; Chan K.-K.; Chang C.-Y.BioResources
352016Study on performance of timber-steel composite beams with different shapes of steel componentsHsu, T.-L.; FENG-CHENG CHANG ; Tsai, M.-T.; Le, T.-D.-H.2016 World Conference on Timber Engineering
362015The Production of Carbon Fibers from LignosulfonateShih-Hsuan Yen; FENG-CHENG CHANG 中華林產事業協會學術論文暨研究成果研討會摘要集
372015Selective leaching process for the recovery of copper and zinc oxide from copper-containing dustWu, J.-Y.; Chang, F.-C.; Wang, H.P.; Tsai, M.-J.; Ko, C.-H.; CHUN-HAN KO ; FENG-CHENG CHANG ; MING-JER TSAI Environmental Technology1813
382014The effect of temperature on creep behavior of wood-plastic compositesFENG-CHENG CHANG ; Lam, F.; Kadla, J.F.Journal of Reinforced Plastics and Composites
392014應用靜電紡絲技術生產木質素纖維之製程探討陳旗旗; 張家源; 張豐丞; FENG-CHENG CHANG 中華林產事業協會學術論文暨研究成果研討會摘要集 
402014應用靜電紡絲技術生產木質素纖維張豐丞; 陳旗旗; 張家源; FENG-CHENG CHANG 林產工業 00
412014奈米微晶纖維素於不同溶劑之分散相容性評估張嵐婷; 林冠萱; 張資正; 張豐丞; FENG-CHENG CHANG 中華林產事業協會學術論文暨研究成果研討會摘要集 
422013Using master curves based on time-temperature superposition principle to predict creep strains of wood-plastic compositesFENG-CHENG CHANG ; Lam, F.; Kadla, J.F.Wood Science and Technology
432013Application of time-temperature-stress superposition on creep of wood-plastic compositesFENG-CHENG CHANG ; Lam, F.; Kadla, J.F.Mechanics of Time-Dependent Materials
442013利用生物材料進行靜電紡絲之技術發展與應用陳旗旗; 張豐丞; FENG-CHENG CHANG 林產工業 00
452011The correlations between system treatment efficiencies and aboveground emergent macrophyte nutrient removal for the Hsin-Hai Bridge phase II constructed wetlandKo, Chun-Han ; Lee, Tsai-Ming; Chang, Fang-Chih ; Liao, Shu-PingBioresource Technology2822
462010Feasibility of using mountain pine beetle attacked wood to produce wood-plastic compositesFENG-CHENG CHANG Wood and Fiber Science10
472010Feasibility of using mountain pine beetle-attacked wood to produce wood-plastic composites: Preliminary workLam, F.; FENG-CHENG CHANG Wood and Fiber Science
482009Use of mountain pine beetle killed wood to produce cement-bonded particleboardFENG-CHENG CHANG Wood and Fiber Science5
492008Suitability of fibers from mountain pine beetle attacked wood in wood-cement composite materialsFENG-CHENG CHANG Forest Products Journal4
502005The amount of wooden material in a closed room and its effect on the reverberation timeWang S.-Y.; FENG-CHENG CHANG ; FAR-CHING LIN Journal of Wood Science32