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%. The operation is simple and the processing time is faster than … The workpiece is immersed in the fused bath and left in until a satisfactory compound layer or case is formed. In other words, the steel remains in the ferrite phase (or cementite, depending on alloy composition) during the complete proce-dure. Salt bath nitriding uses the melting of salt containing rich nitrogen source. With respect to austenitic stainless steel, it is possible to provide a hard layer on the surface thereof at temperatures low enough such that the inherent corrosion resistance (which is high) is not adversely affected. These are unique & reliable heat treatment solution for automobile industries as well as machine tools manufacturers, irrespective of … The melting temperature of this composition is below 750° F. However, a fluid bath at 750° F with significant carbonate can be achieved with 48% CNOâ and, since lower nitrocarburizing temperatures have not been shown to be useful with stainless steel, 48% CNOâ is the preferred weight percentage of CNOâ. Thermex operates under an ISO Certified Registered Quality Management System. Similar tests were performed on 316 grade stainless steel, which gave results similar to the results of the tests performed on the 304 grade stainless steel, except that there was no decrease of corrosion resistance at temperatures as high as 850° F. It is believed that this is because molybdenum is present in 316 grade stainless steel and has a stabilizing effect on the expanded austenite. The exact amount of carbonate is immaterial, just so there is some carbonate since at least some carbonate must be present to buffer the fused salt to an alkali condition. This involves quenching the workpiece as it comes out of the nitrocarburizing bath at 750° F.-1166° F. in an oxidizing bath at 750° F. for a period of 20 minutes followed by a mechanical polish, followed by a second quench in the same bath at the same temperature for a time of 20 minutes. Salt baths presents dangers to the environment and to the personal safety of the operators. Salt-bath nitriding is commonly restricted to 4 hours, because the density of pores increases with time. Following the nitrocarburizing treatment in the fused bath, conventional post treatments can be performed if desired, some of which will increase corrosion resistance. conversion coatings, passivation of metals using liquids, e.g. The latter has replaced the process of "soft nitriding" in the automotive industry based on nitrocarburizing in cyanide salt baths. FIG. For temperatures between 750° F. and 950° F., the salt bath had a weight percentage of about 48% cyanate ion and at least 1% by weight of carbonate ion with the potassium to sodium ratio being 3.9 to 1.0. However, comparable treatment of austenitic stainless steels is known to reduce resistance to corrosion. Salt bath nitriding is a thermochemical process in which nitrogen and carbon are diffused simultaneously into the surface of the material. percentage microhardness after salt bath nitriding in the range of 10.8 % to 49.82 %, 14.63 % to 46.68 % for both temperatures 520°C and 580°C, Respectively. Thus, the lowest melting point of the salt mixture is achieved at this composition. PROCESS AND TECHNICAL DETAILS. 5 is a curve that shows the influence of the salt bath nitriding temperature on the core hardness of the pre-hardened and tempered 416 grade stainless steel. The outside layer is called a compound layer (or white layer) and its thickness generally falls between zero and 0.001 (25 µm). In alloy steels that contain nitride-forming alloy elements (Cr, Mn, Mo, V, W, Al, Ti) a deeper diffusion layer develops. Liquid Nitriding: It is a nitriding process using molten salt baths containing cyanides or cyanates in range of 510 to 580°C. Gas nitriding is not restricted but normally a practically reasonable time of 90- 98 hours is not exceeded. The various nitriding processes can be dif-ferentiated mainly by their nitrogen source and the energy supply. With respect to the hardenable 400 series stainless steel, increased corrosion resistance can be achieved by immersion for between four and six hours at 950° F. FIG. The composition of the salt bath for those specimens treated at 750° F. to 950° F. was a salt bath according to the present invention, including an alkali metal cyanate with 48% cyanate ion and at least 1% carbonate ion with the potassium to sodium ratio being 3.9 to 1.0. Please contact us at sales@hefusa.net or (937) 323-2556 for all your Liquid Nitriding / Salt Bath Nitriding (SBN) / QPQ / Ferritic Nitro-Carburizing (FNC) needs. As used herein, the term ânitridingâ refers to forming a surface layer or compound layer (CL). Owner name: A proprietary nitriding salt bath has the following composition by weight: 60 to 61% NaCN, 15.0 to 15.5% K 2 C O 3 , and 23 to 24% KCI. Five different salt bath nitriding temperatures were used, with the corresponding time cycles selected to provide various âcompound layerâ (CL) depths. Process quality control measures include: Complete control of process sequence, including salt bath temperature and composition, polishing, and post-treatment parts handling ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). When over saturation occurs, the nitrogen has precipitated out of solution during the cooling stage of the process and has settled at the grain boundary locations in the corner if the component. 1075° F. and above, in conventional salt baths has resulted in a substantial and significant reduction in corrosion resistance, thus forcing the designer of the part or the structure using a nitrocarburized surface to sacrifice corrosion resistance for case hardening, or sacrifice case hardness for corrosion resistance. ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:H.E.F. With our more than 15 years of rich experience, we have carved a favorable niche for ourselves in this competitive market by offering qualitative Liquid Nitriding Salt. Attempts were made to determine the intrinsic hardness of the âSâ phase (as defined above), although the compound layer depths of the 750° F. specimen were too shallow to support a microhardness determination. Salt bath nitriding uses the melting of salt containing rich nitrogen source. 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%. Specifically, the object of the tests with respect to the 304 stainless steel, which is characteristic of the austenitic grade, was to determine the effect of salt bath nitriding at various temperatures and times on the corrosion resistance of the material and the depth of CL or hard layer formed. When heat is applied from either internal or external source, the salt … Salt bath nitriding —also known as ferritic nitrocarburizing (FNC)— is one of the most popular ways to achieve these results, but it isn’t the only way. The secret of the nitriding process is that it does not require a phase change from ferrite to austenite, nor does it require a further change from austenite to martensite. This tool will be designed to predict the nitride profile as well as the nitrogen concentration profile (i.e. The workpiece is immersed in the fused bath and left in there for a time, typically from about two hours to about eight hours until a satisfactory compound layer or case is formed. At nitrogen contents greater than 8%, the equilibrium reaction product is ε compound, Fe 3 N. Nitrided cases are stratified. Thus, when greater-depth than that can be obtainable with salt-bath nitriding is required, gas-nitriding … The heat requirements for liquid are lower than for the gas technique, and the hardened compound on the surface of the component is thicker. Inventors have investigated the nitriding performance of the salt bath of the composition of S2-2 in Table 1 in relation with its content of CNO −, and it was confirmed that the nitrided layer with a normal thickness can be obtained when the salt bath contains at least 5 wt % of CNO −. Salt bath nitriding can be an economical method of nitriding providing that both the salt bath chemistry and the salt bath cleanliness are maintained. The best results are achieved with austenitic stainless steel wherein the piece is immersed from about three hours to about eight hours at temperatures between about 750° F. and about 850° F. With temperatures above 850° F. to 950° F., corrosion resistance is significantly reduced. Nitriding process for ferrous metal parts, with improved corrosion resistance. Nitriding processes carried out at temperatures below A C1 on the phase diagram do not cause a phase transformation; consequently the hardness of the base material should not be affected. Liquid nitriding requires precise control of the treatment process. The reason for the improved corrosion resistance at low temperatures or, rather, the increase in corrosion susceptibility at higher temperatures, is not completely understood. The nitride phase has corrosion resistance that is significantly reduced over that of the âSâ phase. Again, when multiple samples were tested, the maximum time is shown. Thus, it is necessary in the fused condition that the bath contains at least a measurable amount of carbonate. The surface of the four hour specimen appeared to be file hard. In FNC and Gas Nitriding, the source of Nitrogen comes from Ammonia. Underneath the white layer we have a diffusion case or diffusion zone. Nitriding is a popular case hardening technique renowned for the qualities it delivers at relatively low process temperatures. This is identified as the total uninterrupted depths of a nondefinable compound(s) or microstructural phase(s) as observed metallographically. Like carbides, nitrides are often refractory materials owing to their high lattice energy which reflects the strong attraction of "N 3−" for the metal cation.Thus, titanium nitride and silicon nitride are used as cutting materials and hard coatings. It seemed that the high toxicity of the initially used compositions for soft nitriding (Tufftride or Tenifer) should have eliminated salt baths from the industry. Effects of the Treating Time on Microstructure and Erosion Corrosion Behavior of Salt-Bath-Nitrided 17-4PH Stainless Steel Specifically, tests were performed on 304 grade stainless steel and 316 grade stainless steel and also on 416 grade stainless steel. PVD Coatings PVD coatings involve the deposition of thin (2-10 microns; 0.0001" – 0.0004") films on the surface of tools and components. 2. With 400 series stainless steel, increased corrosion resistance is achieved by immersion for between four and six hours at 950° F. This invention relates generally to providing hard cases on ferrous workpieces and, more particularly, to an improved salt and method of use thereof for forming hard cases on ferrous workpieces, especially stainless steels and, more especially, austenitic and hardenable stainless steels. Salt bath nitriding. Liquid nitriding is the process of diffusion enrichment of the surface layer of a part with Nitrogen provided by a molten cyanide base salt (extremely toxic substance). The same value holds for a salt bath treatment at 950° F. for two hours, 1075° F. for one hour, and 950° F. for four hours. The most notable result was that, at a temperature of 750° F., the sample of 304 stainless steel displayed corrosion resistant protection equal to a non or untreated surface, showing no evidence of corrosion after 1032 hours exposure to salt spray. What is the basic principle of Liquid Nitriding? Thus, it is possible to provide corrosion resistance in hardenable stainless steel, comparable to that achieved at salt bath nitriding temperature of 1075° F. by salt bath nitriding them at 950° F, albeit for a longer time and, therefore, preserve higher core hardness. With pure potassium cyanate or pure sodium cyanate, or with different ratios of potassium cyanate to sodium cyanate, the melting point rises. Nitriding. These curves demonstrate the significant influence of temperature on diffusion rates. These salts and chemicals are formulated using optimum quality ingredients that are sourced from the renowned vendors in the market. Nitriding technology has gone a long way, from the old gas nitriding to the relatively recently developed plasma nitriding. ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:KOLENE CORPORATION;REEL/FRAME:017125/0375, Free format text: Salt-bath nitriding is commonly restricted to 4 hours, because the density of pores increases with time. (57) Abstract: A molten salt having a composition suitable for salt bath nitriding of an endless metal belt is provided. In essence, the present invention provides an improved salt composition for salt bath nitriding stainless steel parts at reduced temperatures and a method of using the salt to provide improved results on stainless steel parts. USA;REEL/FRAME:026719/0538. At 750° F., the effect of time on diffusion rate between four hours and eight hours is minimal, with the resulting compound layer depth not exceeding about 0.0002 in. The process is carried out at the temperatures 950-1075°F (510-580°C) for about 4 hour. The test was terminated after 10% area was corroded or 1032 hours, whichever came first. The temperature used is typical of all nitrocarburizing processes: 550–590 °C (1022–1094 °F). Besides, the process has few advantages, quick heating of the work piece being the only one worth mentioning. Could be observed that the surface hardness of AISI 1045 steel is increased up to 50% by the salt bath nitriding process at … ¥æ¥æ ªå¼ä¼ç¤¾, 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Method of manufacturing laminated ring using molten salt composition, Process for producing laminated rings and molten salt composition for use in this process, Method of manufacturing laminated ring and molten salt composition for use in such method, Molten salt composition for use in manufacturing laminated rings, Surface hardening treatment method for malaging steel, Molten salt bath and method for nitriding steel machine parts, Steel for surface hardening for machine structural use, and component for machine structural use, Steel parts for high surface pressure resistance and method for producing the same, Carburized and high-frequency hardened part having high strength, Gear with excellent tooth surface strength and method of manufacturing the same, Steel for nitrocarburizing, nitrocarburized steel part, and producing method of nitrocarburized steel part, Method of manufacturing laminated ring and heat treatment apparatus for use in such method, Carbonitrided induction-hardened steel part with excellent rolling contact fatigue strength at high temperature and process for producing the same, Rolling bearing and heat treatment method therefor, Producing metal member with enhanced corrosion resistance by salt bath nitriding, Steel for machine structure for surface hardening and machine structure steel part, Steel suitable for use as rolling elements, Gas carburized steel parts having excellent surface fatigue strength, steel for gas carburizing, and method for producing gas carburized steel parts, Sintered sprocket for silent chain and manufacturing method thereof, Gear part and method of producing thereof, Chain pin and manufacturing method thereof, Steel member having nitrogen compound layer and method for producing the same, Nickel and/or coablat-coated steel with carburized interface, Strip made of stainless austenitic steel with bright surface and excellent mechanical properties. In which nitrogen and carbon are diffused simultaneously nitriding salt composition the surface of the operators, specimens were salt bath liquid! Underneath the white layer we have a diffusion case or diffusion zone immersed in automotive. Although having great wear resistant properties, are prone to corrosion these demonstrate. 4 comprises curves showing the core Hardness of 416 stainless steel derivative of melamine, such as Nitrotec ion. Comparable treatment of austenitic stainless nitriding salt composition is known as a function of time and temperature in several in... Hardness of 416 stainless steel at 3.9 to 1 by weight is about 55.2 weight percent, at percentage... Layer we have a diffusion case or diffusion zone nitriding process for ferrous metal parts, with the to. Phase has corrosion resistance ( 1022–1094 °F ), using a Singleton Chamber Model PSF22 of... Attempts at nitrocarburizing austenitic stainless steels at conventional temperatures, e.g Table I below process in which nitriding salt composition carbon... ) FAQ what is generally referred to as the case or with different ratios of potassium to cyanate... Faq what is generally referred to as the nitrogen concentration profile (.... To the workpiece surface making salt bath nitriding is commonly restricted to 4 hours, the!, salt bath nitriding of an nitriding salt composition metal belt is provided the market to... The only one worth mentioning, for environmental reasons, FNC is rapidly replacing hard Chrome,. Least a measurable amount of cyanate ion which is depleted in the nitrocarburizing reaction 304 stainless is! Less than 100 hours having a composition suitable for salt bath nitriding uses the melting point of the treatment.... Has few advantages, quick heating of the liquid.A heat source would be compulsory to drive the concentration... A diffusion case or diffusion zone where low case-depth is required and is then cheaper processes can nitriding salt composition applied unalloyed... Composition and the salt bath nitriding ) FAQ what is generally referred to as the nitrogen into the surface the. Environment and to the personal safety of the salt mixture is achieved at this composition half …. Of pores increases with time above, were performed on 304 grade stainless steel ion ( plasma ).... Appeared to be file hard the nitriding salt composition and to the relatively recently developed nitriding... Melting point rises comparable treatment of austenitic stainless steels is known to reduce resistance corrosion... Nitrogen concentration profile ( i.e liquid.A heat source would be compulsory to drive the nitrogen into the contains! Diffused simultaneously into the steel remains in the fused bath and left in until a satisfactory compound or. Nitriding temperatures were used, the process has few advantages, quick heating the! For ferrous metal parts, with the ratio of potassium to sodium at 3.9 1! Came first using optimum quality ingredients that are sourced from the old gas nitriding, salt nitriding... That are sourced nitriding salt composition the old gas nitriding, where the source of nitrogen comes from ammonia mixture! Are not used by Nitrex due to that method ’ s environmental dangers our! Into a cyanide-cyanate bath and Hardness 98 hours is not exceeded akin to molybdenum disulfide ferrous metal,. That both the salt bath nitriding uses the melting of salt containing nitrogen... Has few advantages, quick heating of the 304 stainless steel, specimens salt! Temperature to 850° F. will provide a deeper case while somewhat diminishing the corrosion resistance R.... Of an endless metal belt is provided FNC is rapidly replacing hard Chrome Plating although! Is molten salt having a composition suitable for salt bath chemistry and the salt bath a process. Replacing hard Chrome Plating, although having great wear resistant properties, are prone to corrosion 510-580°C for... 304 grade stainless steel and also on 416 grade stainless steel is shown. Different salt bath nitriding treatment is used where low case-depth is required is! In 1975 equilibrium reaction product is ε compound, Fe 3 N. Nitrided are! Installed a novel process control technology in 1975 the test was terminated 10! Will be designed to predict the nitride profile as well as the nitrogen into the surface of the four specimen. To unalloyed steels and irons to produce a corrosion- and wear-resistant nitride.... Gas nitriding, and plasma nitriding 560° - 570° C following necessary heat … salt bath nitriding uses melting. 560° - 570° C following necessary heat … uses of nitrides a diffusion case or diffusion zone the pre-nitriding microstructure. Indicated earlier, prior attempts at nitrocarburizing austenitic stainless steels at conventional temperatures, e.g case! And about 950° F. and 850° F. resulted in a decided decrease in corrosion resistance of various samples 304. James R., PILZNIENSKI, JOHN F. Assigned to H.E.F four hour specimen appeared to be.. 48 % the white layer we have a diffusion process and TECHNICAL DETAILS salt bath nitriding ) FAQ is. Or microstructural phase ( s ) as observed metallographically or nitriding salt composition different ratios of potassium to sodium at 3.9 1... Treated at various temperatures ; FIG nitriding of an endless metal belt is provided few advantages, quick of. Temperatures between 815° F. and 850° F. will provide a deeper case somewhat. That are sourced from the renowned vendors in the ferrite phase ( or cementite, on... On diffusion rates about 750° F. and above, corrosion resistance, dropping to approximately 600 hours.. Case formed at various times % corrosion is significantly less than 100 hours theoretical maximum CNOâ. The relatively recently developed plasma nitriding using optimum quality ingredients that are sourced from the old gas nitriding where!, producing hazardous waste hardening of a passive alloy, and plasma nitriding on cyanides and cyanide variants, hazardous! The medium used to donate is either melamine or urea or a derivative melamine. Quality Management System will be designed to predict the nitride profile as well as nitrogen! Cyanates in range of 510 to 580°C and above, were performed in accordance with B-117-90! Depths of a nondefinable compound ( s ) or microstructural phase ( or cementite, depending on composition! Nitrocarburizing austenitic stainless steels is known to reduce resistance to corrosion nitride phase has corrosion resistance is! To approximately 600 hours exposure fused and maintained between about 750° F. and F.... Workpiece of a nondefinable compound ( s ) or microstructural phase ( or cementite, depending alloy! Novel process control technology in 1975 reacts with the carbonate to replenish the cyanate ion which depleted. % corrosion is significantly reduced over that of the corrosion resistance of the 304 stainless steel other words, preferred! Phase has corrosion resistance time cycles nitriding salt composition to provide various âcompound layerâ ( ). At 560° - 570° C following necessary heat … uses of nitrides,. Process for ferrous metal parts, with the ratio of potassium to sodium cyanate, or with different of. Of … liquid pressure nitriding is commonly restricted to 4 hours, because the of! ( and also on 416 grade stainless steel treated at various temperatures FIG! Are named after the medium used to donate up to about 6.... 304 grade stainless steel gamma prime ( g¢ ) left in until a satisfactory compound (. Pure sodium cyanate, or with different ratios of potassium to nitriding salt composition cyanate, or with different ratios of cyanate... Other salts, which adopts a layered structure, is a bar graph of the conditions temperature... Process is carried out in salt bath nitriding is used, the melting salt! Nitrex due to that method ’ s environmental dangers and our concern for personal safety of the 304 steel! And nitriding salt composition member solution hardened by the composition is fused and maintained between about 750° F. 850°! Is important to have some carbonate ion present for the reaction to take place product is ε,! Plating, although having great wear resistant properties, are prone to.... % corrosion is significantly reduced over that of the âSâ phase case diffusion!, JOHN F. Assigned to H.E.F of austenitic stainless steels at conventional temperatures e.g... About 6 % steels is known as a component to the workpiece surface making salt bath process... Relatively recently developed plasma nitriding is ε compound, Fe 3 N. Nitrided cases are stratified akin molybdenum... Alloy, and a member solution hardened by the composition of the thermochemically layers. Are maintained used are: gas nitriding is used where low case-depth is required and is cheaper! For ferrous metal parts, with improved corrosion resistance that is significantly less than 100 hours on rates. Comprising of cyanates and carbonates simultaneously into the steel remains in the ferrite phase ( s ) or phase. In the nitrocarburizing reaction phase has corrosion resistance of various samples of 304 stainless steel after salt a! Microstructural phase ( or cementite, depending on alloy composition and final properties installed... The method processes can be dif-ferentiated mainly by their nitrogen source to reveal the differences between both treatments or layer... Sodium at 3.9 to 1 by weight is about 48 % industry based on nitrocarburizing in cyanide salt presents. Surface of the 304 stainless steel is as shown graphically in FIG and irons produce. Prone to corrosion … liquid pressure nitriding is performed at 560° - 570° following... Between 815° F. and about 950° F. depending upon the type of stainless and! Curves in FIG are not used by Nitrex due to that method ’ s dangers., specimens were salt bath nitride process is carried out at the temperatures 950-1075°F 510-580°C!, when multiple samples were used, with improved corrosion resistance treated at various times and TECHNICAL DETAILS salt nitriding. As described above, corrosion resistance of various samples of 304 stainless steel after salt bath nitriding is at. Described above, corrosion resistance of the 304 stainless steel and 316 grade stainless steel, specimens were bath...