Add to ORKGBinderless fiberboards from enzymatic hydrolysis lignin (EHL) and cotton stalk fibers were prepared under various manufacturing conditions, and their physico-mechanical properties were evaluated. Full factorial experimental design was used to assess the effect of fiber moisture content and pressing temperature on boards’ properties. In addition, differential scanning calorimetry (DSC) was used to obtain the glass transition temperature (Tg) of EHL. We found that both fiber moisture content and pressing temperature had significant effects on binderless fiberboards’ properties. High fiber moisture content and pressing temperature are suggested to contribute to the self-bonding improvement among fibers with lignin-rich surface mainly by therma...
Oxidoreductases and by microwave heating can be applied for bonding of fiberboards. The objectives o...
In the present study, two different crop by-products (namely, hemp long fibers and rice husk particl...
Laccase, an enzyme capable of degrading lignin, has become an effective agent for green processing a...
The emission of formaldehyde vapours from the adhesives such as urea formaldehyde (UF) and phenol fo...
The preparation of self-binding lignocellulosic fibreboards has been investigated. Different high-de...
The preparation of self-binding lignocellulosic fibreboards has been investigated. Different high-de...
This study aimed to improve straw-based fiberboard properties without resins by adding pulping efflu...
The feasibility of incorporating purified kraft lignin, at different concentrations ranging from 5 t...
The feasibility of incorporating purified kraft lignin, at different concentrations ranging from 5 t...
This research was aimed at studying the potential of using residual lignin from acid hydrolysis as a...
This research was aimed at studying the potential of using residual lignin from acid hydrolysis as a...
The manufacturing of fiberboard from wood fiber with the help of adhesive is highly developed and wi...
Corn husk fibers were extracted by water retting, alkalization, and enzymatic processes at different...
Thermomechanical pulp (TMP) is used for fiber production in binderless boards industries. Milled woo...
The emission of formaldehyde vapors from adhesives such as urea formaldehyde (UF) and phenol formald...
Oxidoreductases and by microwave heating can be applied for bonding of fiberboards. The objectives o...
In the present study, two different crop by-products (namely, hemp long fibers and rice husk particl...
Laccase, an enzyme capable of degrading lignin, has become an effective agent for green processing a...
The emission of formaldehyde vapours from the adhesives such as urea formaldehyde (UF) and phenol fo...
The preparation of self-binding lignocellulosic fibreboards has been investigated. Different high-de...
The preparation of self-binding lignocellulosic fibreboards has been investigated. Different high-de...
This study aimed to improve straw-based fiberboard properties without resins by adding pulping efflu...
The feasibility of incorporating purified kraft lignin, at different concentrations ranging from 5 t...
The feasibility of incorporating purified kraft lignin, at different concentrations ranging from 5 t...
This research was aimed at studying the potential of using residual lignin from acid hydrolysis as a...
This research was aimed at studying the potential of using residual lignin from acid hydrolysis as a...
The manufacturing of fiberboard from wood fiber with the help of adhesive is highly developed and wi...
Corn husk fibers were extracted by water retting, alkalization, and enzymatic processes at different...
Thermomechanical pulp (TMP) is used for fiber production in binderless boards industries. Milled woo...
The emission of formaldehyde vapors from adhesives such as urea formaldehyde (UF) and phenol formald...
Oxidoreductases and by microwave heating can be applied for bonding of fiberboards. The objectives o...
In the present study, two different crop by-products (namely, hemp long fibers and rice husk particl...
Laccase, an enzyme capable of degrading lignin, has become an effective agent for green processing a...