HEF bushings are recognized worldwide for their excellent frictional and anti-seizure properties, and ability to withstand high loads. In this process, the item is heated to the desired temperature (550°C/1,020°F to 570°C/1,060°F) and then immersed in liquid cyanide salt. Salt bath nitriding is a thermochemical process in which nitrogen and carbon are diffused simultaneously into the surface of the material. Nitriding is a heat treating process that diffuses nitrogen into the surface of a metal to create a case-hardened surface. The following table lists the typical properties produced by CST’s standard Ni-Surf process. Whether this is good, bad or irrelevant depends on the circumstances. Liquid Nitriding achieves results by means of a chemical reaction (at temperatures lower than conventional heat treatment) that leads to the formation of a hard nitride compound on the surface of the component. Liquid Nitriding is often referred to as a heat treatment; but, this is technically incorrect. The Liquid Nitrocarburizing will not be suitable as the layer thickness of 10 to 15 microns compound zone will not take up abrasive wear effectively. Different trade names are used due to differences in the chemistry of the nitriding chemicals and the secondary processing steps. When it comes to liquid nitriding, you can depend on the experts at Specialty Heat Treating, Inc. to do it right. resistance to wear, friction, corrosion, and fatigue. Liquid-Equivalent Stainless Steel Nitriding. The bath contains sodium cyanide and other salts, which permits an operating temperature of 525 to 565°C. Shiva Automat is a pioneer company providing all types of Heat Treatment and Surface Treatment services in Faridabad, India. Liquid Nitriding also provides the best combination of wear and corrosion protection and the shortest processing times. can be accommodated. Nitriding is a thermochemical surface treatment process generally used for treating ferrous/austenitic alloys by introducing atomic nitrogen into the ferrite phase at a wide range of temperature (340–590 ° … The nitrogen infuses to a deeper level with liquid nitriding than it does with gas nitriding. A composition for nitrocarburizing stainless steel parts and a method for producing a nitride or hard case on such parts using the composition, are provided. The nitrogen combines with the iron to form an iron-nitride compound layer that provides improved surface properties; e.g. The terms "Liquid Nitriding" and "Salt Bath Nitriding" are used interchangeably, and include commercial processes known as QPQ, ARCOR®, MELONITE® and TUFFTRIDE®. Nitriding, or, nitrocarburizing, can be accomplished using four different media: 1) Liquid; 2) Gas; 3) Plasma; and 4) Fluidized Bed. It’s time for the main event – liquid nitriding vs gas nitriding. Liquid Nitriding (LN) is a subcritical surface enhancement process. Liquid Nitriding is not a coating or plating: it is a diffusion process that modifies/transforms the surface of the treated component. This is done by immersing the parts in specially formulated 'salts' between 400°C - 425°C (750°F -800°F); (2) POLISHING: to improve surface finish and (3) RE-OXIDATION: to recover the oxide layer thickness that may have been lost during the polishing step. We are franchise of M/s Hydromacnique et Frottment, France, since 1992 for Liquid Nitriding Process (Sursulf). Liquid Nitriding Salt bath nitriding / liquid nitriding is a subcritical surface enhancement process holding the longest track record of success over any case hardening technology. Liquid Nitriding (LN) is a common term for a diffusion process that is actually liquid nitrocarburizing; a thermo-chemical reaction whereby nitrogen, primarily, and some carbon are diffused into the surface of iron-based materials. Both processes case-harden items but consider the following differences before choosing a method. (a) salt bath (liquid) nitriding, where the source of nitrogen (and also carbon) is molten salt. It remains a popular case … The process infuses nitrogen more deeply into the item; however, it also infuses additional carbon. Despite the differences, the results are virtually identical for most applications. When steel parts are placed into a preheated liquid salt, there is sufficient energy localized near the surface due to differences in chemical potential that then allows nitrogen and carbon species to diffuse from the salt into the steel substrate. However, liquid is considered the benchmark for uniformity, consistency, and flexibility. Contact us at (248) 478-5900 to discuss your requirements. This specialty process improves on the more commonly used salt-bath (liquid) nitriding method by offering deeper case depths and higher quality case hardening The second challenge with stainless steels is the high amount of Chromium. Liquid nitriding is one of the many hardening services offered by Specialty Steel. in diameter or 107 in. Activation of some stainless grades can be quite difficult, which has resulted in the public perception that gas nitriding of stainless … Salt baths presents dangers to the environment and to the personal safety of the operators. The composition includes alkali metal cyanate and alkali metal carbonate, wherein the cyanate ion is present in a weight percentage of greater than 45% and less than 55.2%. Nitriding and Oxidation Surface increase the excellent corrosion resistance. Liquid nitriding is a subcritical surface enhancement process with one of the longest track records of success of any case hardening technology. All methods are intended to accomplish similar - though not identical – results. The method features the transfer via diffusion of carbon and nitrogen from the molten salt to the surface of a steel part. However, ARCOR® represents a family of LN processes, including ARCOR® C, V, N, DT, and others, which were developed to address specific applications and/or materials. In many cases, it is being used as an alternative method for surface heat treatment process such as hardening, hard chrome plating with equivalent or better properties. DuBois offers liquid carburizing solutions capable of achieving case depths up to 0.100 inches, and liquid nitriding solutions to provide thinner case depths needed for high speed tool steels. These steps entail the sequence: (1) OXIDATION: 2-3 microns of the surface layer is transformed to an iron oxide. Besides, the process has few advantages, quick heating of the work piece being the only one worth mentioning. Houston Unlimited, Inc. offers a salt bath nitriding process, also referred to as liquid salt bath ferritic nitrocarburizing. Nitrocarburizing supplies both nitrogen and some carbon; can be performed in either liquid (salt bath) or gas atmospheres; and uses much shorter time cycles to produce comparatively shallow diffusion depth. Liquid Nitriding process involves enrichment of the Steel Surface basically with Nitrogen and very small amount of Carbon at a specified temperature range, by diffusion from Cyanide-free molten salt bath. Liquid Nitriding Offers a Different Approach to Case-Hardening In this process, the item is heated to the desired temperature (550°C/1,020°F to 570°C/1,060°F) and then immersed in liquid cyanide salt. Potentially, this could be undesirable if the item being hardened has some areas where the metal is very thin. Liquid nitriding is suitable for a wide variety of carbon steels, low alloy steels, tool steels, cast irons, and stainless steels. This modified surface layer is well integrated with the bulk material – hence it is not susceptible to flaking or peeling. Liquid Nitriding is not a coating or plating: it is a diffusion process that modifies/transforms the surface of the treated component. True heat treating processes operate at higher temperatures, and transform the crystal structure of the steel to produce the desired mechanical properties. This is accomplished by heating the metal to 520°C/970°F and introducing nitrogen-rich ammonia. Liquid nitriding is used where low case-depth is required and is then cheaper. Liquid nitriding uses a cyanide salt mixture in a bath. PVD coatings involve the deposition of thin (2-10 microns; 0.0001" – 0.0004") films on the surface of tools and components. MELONITE® and TUFTRIDE® are identical processes – the former term is prevalent in North America, and the latter term in the rest of the world. Nitriding Nitriding is a surface hardening process in which nitrogen present in the atmosphere in the nascent form of N1 diffuses into the surface of the steel and forms nitrides with certain critical elements such as chromium, molybdenum, vanadium, aluminum, tungsten and iron. The life span of the product increases due to this process. Liquid nitriding infuses additional carbon in the item being processed. The ion nitriding process is carried out in a vacuum vessel where a high-voltage electrical charge forms plasma, causing nitrogen ions to accelerate and impinge on the metal. Please click here to request a PDF version of the FAQs to be emailed to you. It is a commonly used term for the diffusion process that is actually liquid nitrocarburizing. As with all hardening processes, the metallic properties of the interior are unchanged. The exterior of the item is hardened, leaving the metallic properties of the interior unchanged. The process is carried out at 750-1050°F, making it faster than gas nitriding. Process Selection and Quality Control. Liquid nitriding is a subcritical surface enhancement process with one of the longest track records of success of any case hardening technology. The process infuses nitrogen more deeply into the item; however, it also infuses additional carbon. Gas Nitriding or plasma Nitriding will the ideal choice to meet your requirements.But care should to taken to remove the passive layer prior to nitriding . The liquid nitriding process has several proprietary modifications and is applied to a wide variety of carbon steels, low-alloy steels, tool steels, stainless steels, and cast irons. HEF USA • 2015 Progress Drive • Springfield, OH 45505 • Ph: 937.323.2556 • Fax: 937.323.5787 • Email Us • Sitemap, Liquid Nitriding properties / miscellaneous. Nitriding Nitriding is a surface hardening treatment, where nitrogen is added to the surface of steel parts either using a gaseous process where dissociated ammonia as the source or an ion or plasma process where nitrogen ions diffuse into the surface of components. What is Nitriding – Process, Advantages and Disadvantages Introduction to Nitriding: Nitriding is a case-hardening process of enriching the solid steel surface with nitrogen at a low temperature, normally in the range of 500-575°C (i.e., below A 1), when the steel is ferritic. Parts up to 57 in. QPQ Liquid Nitriding (also known as salt bath nitriding) is a process for producing a thin, high-hardness case that is wear and corrosion resistant, with little or no distortion of the part during processing. However, it is not nearly as dangerous as the highly toxic cyanide salts used in the liquid method. Unlike nitriding methods using a salt bath, gas nitriding is a more flexible process with easier disposal of the nitriding agent. Liquid Nitriding (LN) is a common term for a diffusion process that is actually liquid nitrocarburizing; a thermo-chemical reaction whereby nitrogen, primarily, and some carbon are diffused into the surface of iron-based materials. Chromium has a high affinity for nitrogen and slows diffusion, thereby limiting the achievable case depth. Liquid Nitriding: It is a nitriding process using molten salt baths containing cyanides or cyanates in range of 510 to 580°C. It is also used to harden dies and machine tools. All are actually nitrocarburizing processes that use molten salts as a source of nitrogen (+ some carbon). The material that contributes nitrogen to the gas method is the toxic chemical ammonia. They are also used on medium and high-carbon steels, titanium, aluminium and molybdenum. Liquid Nitriding Salt Services or nitriding in a molten salt bath employs the same temperature range as gas nitriding, which is 510 to 580°C liquid nitriding is a sub-critical casehardening process which increases surface hardness for a ferrous components. It is widely used to enhance the performance of titanium, chromium, and aluminum alloyed steels, as well as low alloy materials, and stainless steels. This form of heat treating is well documented in showing consistent case depths throughout the entire surface area of … Because the molten salts are diffused with anhydrous ammonia, a new bath does not require aging and may be put into immediate Nitriding Nitriding Heat Treating Services for Metal Precision Parts. Nitriding is a surface hardening process in which nitrogen atoms are diffused into the surface of ferrous materials at sub-critical temperatures and react with the base metal to form a hard, wear resistant, and fatigue resistant nitrided case below the surface. MELONITE®, TUFFTRIDE® and ARCOR® are all liquid nitrocarburizing processes, and trademarks of the HEF Group (TS USA and HEF USA are US subsidiaries). Salt Bath Nitriding. Liquid Nitriding Services This is a non-pollutive salt bath Ferritic Nitro Carburizing Process and is operating at the temperature of 565 ± 5 ° c. Our liquid niriding process provides an effective answer to the problems of wear, fatigue, scuffing and corrosion encounter with steel and iron components used in engineering industries. This is a thermo-chemical reaction where primarily nitrogen and other elements are diffused into the … We are These ARCOR® treatments provide a more robust and consistent compound layer; are operationally easier to control and environmentally friendlier than other liquid nitriding treatments. Liquid Nitriding (LN) is a subcritical surface enhancement process. These processes are most commonly used on high-carbon, low-alloy steels. The heat requirements for liquid are lower than for the gas technique, and the hardened compound on the surface of the component is thicker. Simply put, gas nitriding is the process of infusing nitrogen atoms into the surface of items made of steel and other metals. Special cycles are employed for deeper case requirements. Gas Nitriding requires precise control of the treatment process. The gas nitriding temperature is 520°C, lower than the 550°C to 570°C temperature required for liquid nitriding. QPQ is prescribed when a smooth surface finish and maximum corrosion protection are required. Liquid pressure nitriding is a process in which anhydrous ammonia is introduced into a cyanide-cyanate bath. Salt Bath Basics. Gas Nitriding is a low temperature case hardening process that is ideal for producing hardened surfaces on pre-heat treated alloy steels such as 4140 and 4340, pre-heat treated tool steels such as H13, and specialty grades such as Nitralloy 135M. It is heavily utilized on automotive components like crankshafts and gears. As Liquid Nitriding is a manual process, it isn’t possible to control the white layer thickness. The hallmark of salt bath nitriding is the bath of molten salt (usually cyanide or other salts) into which parts are submerged. Nitriding provides only nitrogen to the surface of the work piece, and is normally accomplished in gas or plasma atmospheres, using much longer cycles to achieve deep diffusion depth. It is a commonly used term for the diffusion process that is actually liquid nitrocarburizing. "QPQ" stands for "Quench-Polish-Quench", which describes a sequence of secondary steps following the liquid nitriding step. When the nitrogen ions bombard the part they heat up the … Friction Technologies Incorporated in the year 1997, it has been providing a wide range of reliable nitriding services that consists of salt bath nitriding & oxiding process, nitro carburizing process, surface treatment process, better corrosion resistance coatings, and many more. The Ion Nitriding Process. This modified surface layer is well integrated with the bulk material – hence it is not susceptible to flaking or peeling. It provides similar advantages as gas nitriding. Gas nitriding disperses gas to the metal via heat in a furnace or sealed atmosphere.