Scratch hardness
Scratch hardness refers to the hardness of a material in terms of resistance to scratches and abrasion by a harder material forcefully drawn over its surface. Scratch hardness test or scratch test refers to any of a number of methods of measuring scratch hardness. Resistance to abrasion is less affected by surface variations than indentation methods. Scratch hardness is measured with a sclerometer.[1]
Attempting to scratch a surface to test a material is a very old technique.[2] The first scientific attempt to quantify materials by scratch tests was by mineralogist Friedrich Mohs in 1812 (see Mohs scale).[3][4] The Mohs scale is based on relative scratch hardness of different materials; with talc assigned a value of 1 and diamond assigned a value of 10.[5] Mohs's scale had two limitations: it was not linear, and most modern abrasives fall between 9 and 10.[6][7]; so, later scientists attempted to increase resolution at the harder end of the scale.
Raymond R. Ridgway, a research engineer at the
There is a linear relationship between cohesive energy density (lattice energy per volume) and Wooddell wear resistance, occurring between corundum (H=9) and diamond (H=42.5).[11]
See also
References
- ISBN 9781615032365.
- S2CID 1176619. Retrieved 2022-05-03.
We present results of a hybrid experimental and theoretical investigation of the fracture scaling in scratch tests and show that scratching is a fracture dominated process. Validated for paraffin wax, cement paste, Jurassic limestone and steel, we derive a model that provides a quantitative means to relate quantities measured in scratch tests to fracture properties of materials at multiple scales. The scalability of scratching for different probes and depths opens new venues towards miniaturization of our technique, to extract fracture properties of materials at even smaller length scales.
- ISBN 9783662409107.
In demselben Jahre (1812) wurde MOHS als Professor am Joanneum angestellt und veröffentliche den ersten Teil seines Werkes "Versuch einer Elementarmethode zur naturhistorischen Bestimmung und Erkennung der Fossilien", in welcher die bekannte Härteskala aufgestellt wurde.
[In the same year (1812) MOHS was employed as a professor at the Joanneum and published the first part of his work "Attempt at an elementary method for the natural-historical determination and recognition of fossils", in which the well-known hardness scale was set up.] - ^ "Mohs hardness" in Encyclopædia Britannica Online
- ISBN 978-0-19-850776-5. Retrieved 2022-05-03.
- ^ a b Industrial Minerals and Rocks: (nonmetallics Other Than Fuels). American Institute of Mining, Metallurgical, and Petroleum Engineers. 1960.
The Mohs scale is inadequate both because the methods of testing are very crude and because the intervals between steps in the scale are not uniform.
- . Retrieved 2022-04-21.
For all its usefulness, the Mohs scale is arbitrary and nonlinear. ... When synthetic abrasive materials become widely available at the beginning of this century, R.R. Ridgway and his co-workers, finding they needed more numbers at the high end of the scale, modified Mohs' scheme. C.E. Wooddell measured how much various minerals resisted wearing down with diamond abrasives, which allowed a finer categorization between the Mohs numbers of 9 and 10. Ridgway arbitrarily shifted the value of diamond to 15 on the scale instead of 10, which allowed them to assign hardness numbers of 12 to fused alumina, 13 to silicon carbide, and 14 to boron carbide.
- . Retrieved 2022-04-22.
- . Retrieved 2022-04-22.
- ^ Henry Chandler (1963). "Industrial Diamond : A Materials Survey". Information Circular (8200). United States Department of the Interior: 6–7. Retrieved 2022-05-03.
- . Retrieved 2022-04-22.
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