EN31 Alloy Steel
Fushun produces EN 31 Alloy Steel round rods, EN31 Alloy Steel forging, sheet, coil and profiled strip, Deformed steel, flat steel, mould, steel wire, have all specifications. With production experience, strict control EN31 Alloy Steel chemical composition and EN31 Alloy Steel mechanical properties.From casting, forging, steel to hot and cold rolling process, heat treatment, etc, we have the control of professional engineers. We have advanced precision machining equipment, according to the requirements of users machining. in order to achieve the most satisfied with the user requirements.
Equivalent Material Grade En31 Round Bar
BRITISH BS 970:1991 | 535A99 |
BRITISH BS 970:1955 | EN31 |
GERMAN DIN | 100CR6 |
FRENCH AFNOR | 100C6 |
SWEDISH SS | 2258 |
AMERICAN SAE / AISI | 52100 |
EN31 Steel Quality Assured Supply
EN31 is available with cast and analysis certification and supplied in accordance with our ISO 9001:2015 registration.
Chemical Composition of EN31 Steel Round Bars, 52100 Bearing Steel and other Equivalents
Standard | Grade | C | Mn | P | S | Si | Ni | Cr | Cu. | Mo. |
ASTM A295 | 52100 | 0.93-1.05 | 0.25-0.45 | 0.025 | 0.015 | 0.15-0.35 | 0.25 | 1.35-1.60 | 0.3 | 0.1 |
DIN 17230 | 100Cr6 / 1.3505 | 0.90-1.05 | 0.25-0.45 | 0.03 | 0.025 | 0.15-0.35 | 0.3 | 1.35-1.65 | 0.3 | – |
JIS G4805 | SUJ2 | 0.95-1.10 | 0.5 | 0.025 | 0.025 | 0.15-0.35 | – | 1.30-1.60 | – | – |
BS 970 | 535A99/EN31 | 0.95-1.10 | 0.40-0.70 | – | – | 0.10-0.35 | – | 1.20-1.60 | – | – |
Mechanical Properties of EN31 Steel Round Bars, 52100 Bearing Steel and other Equivalents
Mechanical Properties of ASTM A295 52100 Bearing Steel | ||
Properties | Metric | Imperial |
Bulk modulus (typical for steel) | 140 GPa | 20300 ksi |
Shear modulus (typical for steel) | 80 GPa | 11600 ksi |
Elastic modulus | 190-210 GPa | 27557-30458 ksi |
Poisson’s ratio | 0.27-0.30 | 0.27-0.30 |
Hardness, Brinell | – | – |
Hardness, Knoop (converted from Rockwell C hardness) | 875 | 875 |
Hardness, Rockwell C (quenched in oil from 150°C tempered) | 62 | 62 |
Hardness, Rockwell C (quenched in water from 150°C tempered) | 64 | 64 |
Hardness, Rockwell C (quenched in oil) | 64 | 64 |
Hardness, Rockwell C (quenched in water) | 66 | 66 |
Hardness, Vickers (converted from Rockwell C hardness) | 848 | 848 |
Machinability (spheroidized annealed and cold drawn. Based on 100 machinability for AISI 1212 steel) | 40 | 40 |
52100 Steel Physical Properties | ||
Properties | Metric | Imperial |
Density | 7.81 g/cm3 | 0.282 lb/in3 |
Melting point | 1424°C | 2595°F |
52100 Alloy Steel Thermal Properties | ||
Properties | Metric | Imperial |
Thermal expansion co-efficient (@ 23-280°C/73.4- 36°F, annealed) | 11.9 μm/m°C | 6.61 μin/in°F |
Thermal conductivity (typical steel) | 46.6 W/mK | 323 BTU in/hr.ft2.°F |
EN31 Steel Machinability:
EN31 steel is a potential member in automobile industry, and achieving dimensional accuracy with outstanding surface characteristics is a challenging task while machining this alloy. The current investigations deal with wire electrical discharge machining (WEDM) of EN31 die steel and establish a fundamental understanding of the process parameters on micro-scale machined surface characteristics. WEDM parameters such as pulse on-time, servo voltage, wire feed and wire tension are grouped in an efficient way to understand the influence of these parameters on edge roughness, kerf width and cutting rate. The current study revealed that low pulse on-time and servo voltage decreased kerf width and edge roughness. However, cutting rate decreased with pulse on-time but increased with servo voltage. Wire tension and wire feed were found to have diverse effects on the response parameters. While edge roughness varied inversely, kerf width was directly proportional to the wire feed corresponding to lower wire tension.
EN31 Steel Machining
EN31 Alloy Steel Machining, Our production completely according to the EN31 Alloy Steel standards to meet the EN31 Alloy Steel Machining, can also according to the customer request, to meet the requirements of customers of EN31 Alloy Steel Machining.
EN31 Steel Rod is a actual high strength steel alloy which is tough and hardened before contributing and has nickel, chromium, molybdenum making it great tensile steel power, with decent ductility and uniform resistance. EN31 is an actual great strength alloy manufacturing steel. EN31 mechanical properties is a superiority high carbon alloy steel which propositions a high degree of rigidity with compressive power and scrape resistance.
EN31 Alloy Steel is a high carbon, chromium containing low alloy steel that is through hardening and noted in particular for use as bearings. AISI 52100 has an excellent high carbon alloy steel which provides a high level of hardness with compressive strength and abrasion resistance. This grade of alloy steel is quite regularly utilized for wear resisting machine constituents and for press instruments.
Components with friction surfaces require high surface hardness in order to resist wear. In this work, EN31 steel used in bearings, spline shafts, and tiller blades, is surface-hardened using gas tungsten arc (GTA). To further improve the hardness, cryogenic treatment was done. GTA torch uses thoriated tungsten (2%) electrode to apply the heat on the friction surface. The welding current and angle of the electrode tip were varied to obtain different heat inputs during surface hardening process. Cryogenic treatment was done for five different soaking periods at − 50 °C [shallow cryogenic treatment (SCT)] and − 196 °C [deep cryogenic treatment (DCT)]. Shallow cryogenic treatment was performed using dry ice, and deep cryogenic treatment was performed using liquid nitrogen. Micro-hardness and microstructures of the specimen were studied. Microstructure study shows that considerable amount of retained austenite has been transformed to plate martensite with precipitates of carbide particles, increasing the hardness of the surface. Surface hardness increases with current and soaking period. The maximum hardness is obtained at 200 A for all electrode tip angles. The maximum hardness is obtained at 15 h of soaking period. Specimens treated at − 190 °C were found to exhibit higher hardness than specimens treated at − 50 °C. Further, 200 A welding current with 45° electrode tip angle and 15 h of soaking period for both SCT and DCT is found to produce maximum hardness.
The range of EN31 Round Bars which we manufacture for our customers are of high quality and these round bars are used for making machineries and OEM Auto components. These products have been made keeping in mind the quality parameters which have been set by the industry in the market. EN31 Round Bars are always supplied with the test certificates and can be supplied in bulk quantity as well as retail quantity as per customers requirements. EN31 alloy Steel round bars are supplied by us to various industries.
EN31 is a very high strength steel alloy which is hardened and tempered before supplying and has nickel, chromium, molybdenum making it high tensile steel strength, with good ductility and wear resistance. With relatively good impact properties at low temperatures, EN31 is also suitable for a variety of elevated temperature applications. EN31 round bars have good internal strength and high external strength, which makes it highly wear resistant. EN31 steel round bars offer good combination of ductility, strength and wear resistance. EN31 is a very high strength alloy engineering steel.
EN31 round bars are fundamentally used as a Connector between the pipes at the middle. They are also used as a socket in to struggle pressure in Pressure Regulators. EN31 steel bar have chromium and is heat preserved for making products like front automobile axles, Obverse Axle beam, axle periodicals, crankshafts, steering components. EN31 Alloy Steel Bar are basically used as a Connector between the pipes at the middle whereas EN31 steel bar are average carbon and chromium steel, with decent ductile strength.
EN31 Steel Forging
Heat slowly and begin forging at 1000-1050°C. Allow sufficient time at the forging temperature for the steel to be thoroughly soaked through. Re heat as necessary and do not forge below 850°C. After forging EN31 steel, cool slowly preferably in a furnace.
EN31 Steel Heat Treatment
Heat treatment temperatures, including rate of heating, cooling and soaking times will vary due to factors such as the shape and size of each EN31 component. Other considerations during the heat treatment process including the type of furnace, quenching medium and work piece transfer facilities. Please consult your heat treatment provider for full guidance on heat treatment of EN31.
EN31 Steel Annealing
EN31 is usually supplied in the annealed and machineable condition. Re-annealing will only be necessary if the steel has been forged or hardened. To anneal, heat the EN31 steel slowly to 800-810°C, soak well and allow to cool in the furnace.
EN31 Steel Stress Relieving
When parts are to be heavily machined, stress relieving will be beneficial prior to hardening. Heat the EN31 carefully to 700°C, soak well and allow to cool in air.
EN31 Steel Hardening
Heat slowly to the hardening temperature of 800-820°C. Maintain until thoroughly soaked through. Plenty of time must be given for this soaking and then quench in oil.
EN31 Steel Tempering
Temper according to the purpose for which the tools are required, generally between 150°C and 300°C. Soak well at the selected temperature and soak for at least one hour per 25mm of total thickness. Cool slowly in air.
EN31 Steel Welding performance
EN31 Alloy Steel Welding performance,Our production completely according to the EN31 Alloy Steel standards to meet the EN31 Alloy Steel Welding performance, can also according to the customer request, to meet the requirements of customers of EN31 Alloy Steel Welding performance.