mechanical properties

Incorporating 10 Weight Percent Biochar Enhances Polymer Stiffness by 112 Percent
Optimal Agave and Biochar Mixtures Boost Concrete Performance by Forty Percent
Sustainable Biochar Fillers Improve Plastic Performance by Over Fifty Percent
Biochar Partially Replaces Carbon Black to Create Greener, More Flexible Rubber Composites
Biodegradable PHA and Biochar Composites Show Enhanced Performance with 0.5 wt% and 1.0 wt% Filler Concentrations
3D Printed PHA/Biochar Composites: A 1.0 wt% Biochar Ratio Increases Young’s Modulus by 25.4% and Reduces Porosity by 23.3%
Rice Husk Biochar Enhances Concrete Compressive Strength by 13.74% and Neutron Shielding by 0.090 cm⁻¹
Bamboo Biochar Boosts Mortar Compressive Strength by 24% and CO₂ Sequestration by 53%
Improving Biocomposite Strength: Sodium Bicarbonate Treatment Elevates Curauá Fiber and Biochar Composites’ Tensile and Flexural Strength to 56.32 MPa and 74.69 MPa
Biochar as 1-5 wt% Cement Replacement Enhances Concrete Strength, Durability, and Sequesters Carbon