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The process, called "normalize and temper", is used frequently on steels such as 1045 carbon steel, or most other steels containing 0.35 to 0.55% carbon. These steels are usually tempered after normalizing, to increase the toughness and relieve internal stresses. This can make the metal more suitable for its intended use and easier to machine. [9]
The final result of exactly how hard the steel becomes depends on the amount of carbon present in the metal. Only steel that is high in carbon can be hardened and tempered. If a metal does not contain the necessary quantity of carbon, then its crystalline structure cannot be broken, and therefore the physical makeup of the steel cannot be altered.
This experiment in chemistry is usually performed by adding metal salts, such as copper sulfate or cobalt(II) chloride, to an aqueous solution of sodium silicate (otherwise known as waterglass). This results in the growth of plant-like forms in minutes to hours. [1] [2] [3] [4]
The first major programme under the Government of India to popularise scientific temper among the people was the Vigyan Mandir (temple of knowledge/science) experiment in 1953. It was created by S. S. Bhatnagar , at the time Head of the Council of Scientific and Industrial Research (CSIR), in Delhi and launched by Nehru on 15 August.
Metals. Above the Curie temperature, the atoms are excited, and the spin orientations become randomized [9] but can be realigned by an applied field, i.e., the material becomes paramagnetic. Below the Curie temperature, the intrinsic structure has undergone a phase transition, [16] the atoms are ordered, and the material is ferromagnetic. [12]
Popular Science Monthly. Vol. 8. January 1876. ISSN 0161-7370 – via Wikisource. PrinceRupertsDrop.com High-speed slow-motion video demonstrations. Video showing the making and the breaking of Prince Rupert's Drops from the Museum of Glass; Popular Science article with a video detailing Prince Rupert's Drops; Corning Inc. (19 November 2014).
Further research into the isothermal transformation of steels was a result of Bain and Davenport's discovery of a new microstructure consisting of an "acicular, dark etching aggregate." This microstructure was found to be "tougher for the same hardness than tempered Martensite". [2] Commercial exploitation of bainitic steel was not rapid.
In materials science, quenching is the rapid cooling of a workpiece in water, gas, oil, polymer, air, or other fluids to obtain certain material properties. A type of heat treating , quenching prevents undesired low-temperature processes, such as phase transformations, from occurring.