相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。Creep properties of compression wood fibers
Hui Peng et al.
WOOD SCIENCE AND TECHNOLOGY (2020)
Orthotropic mechano-sorptive creep behavior of Chinese fir during the moisture adsorption process determined in tensile mode via dynamic mechanical analysis (DMA)
Hui Peng et al.
HOLZFORSCHUNG (2019)
Temperature-humidity-time equivalence and relaxation in dynamic viscoelastic response of Chinese fir wood
Tianyi Zhan et al.
CONSTRUCTION AND BUILDING MATERIALS (2019)
Effects of moisture content and temperature on wood creep
Tai-Yun Hsieh et al.
HOLZFORSCHUNG (2018)
Application of TTSP to wood- development of a vertical shift factor
Fuli Wang et al.
HOLZFORSCHUNG (2017)
Wood modification technologies - a review
Dick Sandberg et al.
IFOREST-BIOGEOSCIENCES AND FORESTRY (2017)
A geometry-based approach to determining time-temperature superposition shifts in aging experiments
Amitesh Maiti
RHEOLOGICA ACTA (2016)
Physical properties of cellulosic materials related to moisture changes
Lennart Salmen et al.
WOOD SCIENCE AND TECHNOLOGY (2016)
Effect of temperature on mechanical properties and creep responses for wood/PVC composites
T. Pulngern et al.
CONSTRUCTION AND BUILDING MATERIALS (2016)
Mechanical properties and extended creep behavior of bamboo fiber reinforced recycled poly(lactic acid) composites using the time-temperature superposition principle
Teng-Chun Yang et al.
CONSTRUCTION AND BUILDING MATERIALS (2015)
Wood morphology and properties from molecular perspectives
Lennart Salmen
ANNALS OF FOREST SCIENCE (2015)
Thermorheological Complexity and Fragility in Plasticized Lignocellulose
Sudip Chowdhury et al.
BIOMACROMOLECULES (2013)
A critical discussion of the physics of wood-water interactions
Emil Tang Engelund et al.
WOOD SCIENCE AND TECHNOLOGY (2013)
Using master curves based on time-temperature superposition principle to predict creep strains of wood-plastic composites
Feng-Cheng Chang et al.
WOOD SCIENCE AND TECHNOLOGY (2013)
Thermo-hydro and thermo-hydro-mechanical wood processing: An opportunity for future environmentally friendly wood products
Dick Sandberg et al.
WOOD MATERIAL SCIENCE & ENGINEERING (2013)
Tensile creep and recovery of Norway spruce influenced by temperature and moisture
Emil Tang Engelund et al.
HOLZFORSCHUNG (2012)
Modelling time-dependent mechanical behaviour of softwood using deformation kinetics
Emil Tang Engelund et al.
HOLZFORSCHUNG (2011)
Time-Humidity-Superposition Principle in Electrical Conductivity Spectra of Ion-Conducting Polymers
C. Cramer et al.
PHYSICAL REVIEW LETTERS (2011)
On the time-temperature equivalency in green wood: Characterisation of viscoelastic properties in longitudinal direction
Jana Dlouha et al.
HOLZFORSCHUNG (2009)
Micromechanics of creep and relaxation of wood. A review COST Action E35 2004-2008: Wood machining - micromechanics and fracture
Parviz Navi et al.
HOLZFORSCHUNG (2009)
Viscoelastic properties of wood across the grain measured under water-saturated conditions up to 135 °C:: evidence of thermal degradation
Vincent Placet et al.
JOURNAL OF MATERIALS SCIENCE (2008)
Time/temperature equivalence in the dry wood creep response
Nanjian Sun et al.
HOLZFORSCHUNG (2007)
Viscoelastic properties of green wood across the grain measured by harmonic tests in the range 0-95 degrees C: Hardwood vs. softwood and normal wood vs. reaction wood
Vincent Placet et al.
HOLZFORSCHUNG (2007)
Time-temperature superposition principle applied to a kenaf-fiber/high-density polyethylene composite
M Tajvidi et al.
JOURNAL OF APPLIED POLYMER SCIENCE (2005)
Examination of the time-water content superposition on the dynamic viscoelasticity of moistened polyamide 6 and epoxy
A Ishisaka et al.
JOURNAL OF APPLIED POLYMER SCIENCE (2004)
Transient moisture effects on wood creep
P Navi et al.
WOOD SCIENCE AND TECHNOLOGY (2002)
Influence of moisture sorption on swelling of mahogany (Swietenia macrophylla King) wood
R Arevalo et al.
HOLZFORSCHUNG (2001)