Aluminums breakage pattern is Fracture.
Gypsum typically exhibits a conchoidal breakage pattern, meaning it breaks into smooth, curved surfaces with concentric ridges that resemble the inside of a seashell. This breakage pattern is a result of the layered crystal structure of gypsum, which causes it to fracture in a specific way.
it is not cheese shaped it is a banana
uneven induction hardening pattern
Breakage in minerals refers to how a mineral breaks when subjected to external forces such as impact or pressure. It is used to describe the way a mineral fractures or cleaves along certain planes or directions, which can help identify the mineral based on its unique breakage pattern.
Cleavage: When minerals break along smooth, flat planes. Conchoidal: Curved breakage pattern resembling the inside of a clamshell. Fibrous: Minerals break into fibrous or splintery shapes. Irregular: Breakage with no specific pattern or direction.
The two types of breakage are physical breakage, which involves the actual splitting or fracturing of an object, and emotional breakage, which refers to the psychological or emotional damage or distress experienced by an individual.
Graphite has a brittle breakage pattern, meaning it will fracture into irregular pieces with sharp edges when subjected to a sufficient amount of force. This is due to its layered structure, which allows for easy cleavage along the planes of weakness between the layers.
I think that the breakage of fluorite would be cleavage because it is cut in a direct way.
Mica exhibits cleavage, not fracture. Cleavage is a type of breakage along distinct planes due to weak bonds between atoms, resulting in smooth, flat surfaces. Conversely, fracture is an irregular breakage pattern across a mineral.
You can't expect to deliver eggs without some breakage among the lot.
The latius in a sapphire is in the middle of the sapphire.