Want this question answered?
It was near the middle of the hardness matrix.
extra hard
MITOCHONDRIA More specifically, the mitochondrial matrix.
The matrix is the innermost space within a mitochondria
mitochondrial matrix
It was near the middle of the hardness matrix.
extra hard
extra hard
Collagen fibers within the bone matrix.
The organic portion of matrix is important in providing tensile strength, ability to resist stretch, and flexibility. It is not important in providing hardness.
Diamonds are hard based on the matrix -- lattice structure -- of the carbon atoms that form the mineral.
Bone salts (calcium, mainly) lend hardness; the protein-rich organic matrix permits some flexibility
Bone salts (calcium, mainly) lend hardness; the protein-rich organic matrix permits some flexibility
Use a big hammer and break any side window. TaDa...you're in!
probably because of different thermal expansion of carbide matrix phase with pearlite or austenite disperses, at cooling a high dislocation density apears in phases, especially deformable one, and this high dislocation density is responsible for higher hardness
M92 or m91 insert m code line above each wpc
A coin will get warmer when struck by a hammer just like a nail will. The energy of the hammer blow is converted into heat. The atoms and molecules in the coin will be compressed a great deal by the hammer blow, and this will break metallic crystal bonds in the metal matrix. This creates heat. The energy of the hammer blow must be conserved, and heat is a large part of the equation.