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Toward chemically treated low-cost lignocellulosic parsley waste/polypropylene bio-composites for resourceful sustainable bio-products
F.M. AL-Oqla
*
,
Vijay Kumar Thakur
*
Corresponding author for this work
Biorefining And Advanced Materials Research Centre
Research output
:
Contribution to journal
›
Article
›
peer-review
19
Citations (Scopus)
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Dive into the research topics of 'Toward chemically treated low-cost lignocellulosic parsley waste/polypropylene bio-composites for resourceful sustainable bio-products'. Together they form a unique fingerprint.
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Engineering
Biocomposite
100%
Lignocellulosics
100%
Ultimate Tensile Strength
100%
Mechanical Performance
50%
Chemical Treatment
50%
Young's Modulus
50%
Impact Strength
50%
Impact Behavior
25%
Green Product
25%
Fiber Content
25%
Lignocellulosic Fiber
25%
Attainment
25%
Fibre Loading
25%
Sustainable Future
25%
Alternative Material
25%
Elongation at Break
25%
Material Science
Ultimate Tensile Strength
100%
Polypropylene
100%
Impact Strength
50%
Elastic Moduli
25%
Mechanical Property
25%
Biomaterial
25%
Young's Modulus
25%
Structural Composite Material
25%
Chemical Engineering
Polypropylene
100%
Sodium Chloride
66%
Citric Acid
33%
Phosphoric Acid
33%