a toilet akshay
Fifty percent of skeletal bones are primarily made of a mineralized matrix, which consists mainly of hydroxyapatite—a crystalline structure composed of calcium phosphate. Additionally, bones contain collagen fibers, which provide flexibility and tensile strength. This combination of minerals and organic components gives bones their strength and resilience.
Cellulose, I believe it is the hydrogen bonds with in the cellulose that give a high tensile strength
collagen
The proportion of collagen to hydroxyapatite in bones determines their flexibility and strength. Collagen provides flexibility and tensile strength, while hydroxyapatite contributes to the bones' hardness and compressive strength. This balance is critical for the overall structural integrity and function of bones.
Tensile strength annealed 207
no iron has any tensile strength
The tensile strength of concrete is 10% of it's compressive strength.
calcium
Protein fibers, such as collagen, provide bones with flexibility and tensile strength. They help prevent fractures by allowing bones to bend slightly before breaking.
Tensile strength of Fe410Wa is 410 Mpa Min
tensile strength of astm A672Gr.55
Collagen is the protein that provides mechanical support and tensile strength for the body's tissues. It is the most abundant protein in the human body and is found in skin, tendons, ligaments, and bones.