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Home > Materials > Titanium > CPUA CPUA Titanium Commercially Pure and Unalloyed Titanium Alloys are used in industries where their combined high corrosion resistance and good formability is a necessary requirement, but ultimate strength is not. Commercially Pure Titanium Alloys are those which have a Titanium content of no less than 99%, with additional interstitials containing controlled amounts of Nitrogen, Carbon, Hydrogen, Iron and Oxygen making up the balance. The traditionally termed Commercially Pure grades are Grades 1-4. Grade 1 Titanium has the greatest corrosion resistance and formability with a relatively low strength. The pattern reverses through Grades 2 and 3 until we reach Grade 4 Titanium, which is the strongest Commercially Pure Alloy, but with only moderate formability. Grades 7, 11, 16, and 17 are included in the CPUA category because they only contain trace amounts of Palladium (Max. 0.25%) to increase corrosion resistance. Additionally, Grade 26 is included as it possesses similar mechanical qualities to Grades 7 respectively, but with Ruthenium replacing its Palladium. All the grades, shapes, and specifications of Commercially Pure and Unalloyed Titanium found below are available directly through Integ Metals, so please feel free to read through the information on this page for reference, or contact us directly with your requirements. Commercially Pure & Unalloyed Titanium Supplied Shapes • Plate • Sheet • Strip • Coil • Rod • Bar • Ingot • Billet • Seamless & welded tube • Seamless & welded pipe • Wire • Revert Grade One (R50250) Int'l Equivalents ASTM UNS Werkstoff ISO Grade 1 R50250 3.7025 Ti-99.8 Characteristics The purest, softest titanium alloy Exhibits the greatest ductility and cold formability of all commercially pure alloys Displays excellent corrosion resistance in highly oxidizing and moderately reducing conditions Enquire Now Supplied Shapes • Plate • Sheet • Strip • Coil • Rod • Bar • Ingot • Billet • Seamless & welded tube • Seamless & welded pipe • Wire • Revert Grade Two (R50400) Int'l Equivalents ASTM UNS Werkstoff ISO Grade 2 R50400 3.7035 Ti-99.7 Characteristics Moderate strength Good cold formability Good fabricability Excellent corrosion resistance to highly oxidizing media, with or without chlorides Enquire Now Supplied Shapes • Plate • Sheet • Strip • Coil • Rod • Bar • Ingot • Billet • Seamless & welded tube • Seamless & welded pipe • Wire • Revert Grade Three (R50500) Int'l Equivalents ASTM UNS Werkstoff ISO Grade 3 R50550 3.7055 Ti-99.6 Characteristics Stronger version of Grade 2 Similar corrosion resistance to Grade 2 Reasonable cold ductility/formability Enquire Now Supplied Shapes • Plate • Sheet • Strip • Coil • Rod • Bar • Ingot • Billet • Seamless & welded tube • Seamless & welded pipe • Wire • Revert Grade Four R50700 Int'l Equivalents ASTM UNS Werkstoff ISO Grade 4 R50700 3.7065 Ti-99.5 Characteristics Strongest commercially pure Titanium Reduced ductility and formability Good corrosion resistance Enquire Now Supplied Shapes • Plate • Sheet • Coil • Rod • Bar • Ingot • Billet • Seamless & welded tube • Seamless & welded pipe • Wire • Revert Grade Seven (R52400) Int'l Equivalents ASTM UNS Werkstoff ISO Grade 7 R52400 3.7235 - Characteristics Most resistant Titanium Alloy to corrosion in reducing acids Most resistant Titanium Alloy to localised attack in Halide media Mechanical properties equivalent to Grade 2 Titanium Excellent fabricability Enquire Now Supplied Shapes • Plate • Sheet • Coil • Bar • Ingot • Billet • Seamless & welded tube • Seamless & welded pipe • Wire • Revert Grade Eleven (R52250) Int'l Equivalents ASTM UNS Werkstoff ISO Grade 11 R52250 3.7225 Ti-0.15Pd Characteristics Most resistant Titanium Alloy to corrosion in reducing acids Most resistant Titanium Alloy to localised attack in Halide media Mechanical properties equivalent to Grade 2 Titanium Excellent fabricability Enquire Now Supplied Shapes • Plate • Sheet • Coil • Bar • Ingot • Billet • Seamless & welded tube • Seamless & welded pipe • Wire • Revert Grade Twelve (R53400) Int'l Equivalents ASTM UNS Werkstoff ISO Grade 12 R53400 3.7105 Ti-0.3Mo-0.8Ni Characteristics Good strength Meets ASME code for both strength and pressure at elevated temperatures Excellent crevice corrosion resistance Advanced resistance to chlorides Enquire Now Supplied Shapes • Bar • Plate • Sheet • Strip Grade Sixteen (R52402) Int'l Equivalents ASTM UNS Werkstoff ISO Grade 16 R52402 - Ti-0.05Pd Characteristics Lower Palladium version of Grade 7 Titanium Equivalent mechanical properties of Grade 7 Titanium, including high corrosion resistance and good fabricability Enquire Now Supplied Shapes • Plate • Sheet • Strip Grade Seventeen (R52252) Int'l Equivalents ASTM UNS Werkstoff ISO Grade 17 R52252 - Ti-0.05Pd Characteristics Lower Palladium version of Grade 11 Titanium Equivalent mechanical properties to Grade 11 Titanium, including high corrosion resistance and good fabricability Enquire Now Supplied Shapes • Seamless & welded tube • Seamless & welded pipe Grade Twenty-Six (R52404) Int'l Equivalents ASTM UNS Werkstoff ISO Grade 26 R52404 - Ti-0.1Ru Characteristics A Ruthenium containing alternative to Grade 7 Titanium. Equivalent mechanical properties to Grade 7 with similar fabricability properties and corrosion resistance. Enquire Now Contact us now for more info and pricing Back to Top Our Other Titanium Categories Alpha & Near Alpha Alpha-Beta Beta

Home > Materials Materials From the outset, we have always considered the perspective of the engineer when presenting our product range, simply because that is how we started - as engineers ourselves. Our product offering, and scope of service, are as broad as we could possibly make them, purely to ensure that we are able to assist you in the most concise and convenient way possible. ​ We have specifically curated our product selection to meet the prospective needs of typical tasks undertaken within the greater engineering industry so that regardless of the project and sphere of expertise, the sourcing of material is as straightforward as possible. ​ Please take a moment to peruse the materials in which we specialise below, and contact us for any further assistance you require. Aluminium With it's ultra-low density, a protective oxide layer, vast range of alloys - giving a plethora of useful properties - and ready formability, Aluminium is a go-to material for a vast range of engineering applications. ​ Read More Titanium Named after the gods of Greek mythology, titanium casts a large shadow in the world of engineering. Low density, high strength, excellent corrosion resistance, as comfortable at both elevated and cryogenic temperatures, titanium is a god among metals. Read More Nickel Nickel has incredible corrosion resistance, high mechanical strength and excellent creep resistance, all whilst being able to operate at elevated temperatures - a range of qualities vital to both the aeronautical and petrochemical industries alike. Read More Carbon Fibre A member of the new-age family of materials, carbon fibre as a material only came into common use from the 1980s. Strong, incredibly light and easy to shape and form for any role, carbon fibre will only increase in use with time. Read More Steel An iron-based alloy, and the most widely used engineering material, steel is unparallelled in it's range of alloys and, therefore, mechanical properties. As a result, its number of eventual applications is incalculable. ​ Read More Aramids "Aramid" is the name given to a unique class of man-made synthetic fibres which have risen to prevalence due to their strength, high temperature stability and puncture resistance. Found in areas as diverse as bicycle tyres and bullet-proof vests. Read More Contact us now for more info and pricing Back to Top

Home > Shapes > Wire Wire Wire is a mill product directly related to rods and bars. The differing factor here is that they are typically drawn from rod, rather than extruded as a finer bore. Wires are available in a range of additional shapes to the round wire which we're accustomed to, including but not limited to; square, flat, triangular, oval, hexagonal, etc. The dimensional limitations on the definition of "wire" are not more than 25.4mm for round products and 13mm for square. ​ There is a broad range of different wire types for different applications, all requiring different properties. These include; structural wire for uses such as cables for bridges - requiring high tensile strength and good corrosion resistance, spring steel, for automotive suspension and mattresses, requiring good elasticity and material memory, and electrical wires - needing both tensile strength to support themselves over large spans, and good electrical conductivity. ​ We supply all grades of Wire listed below. However, t he materials and applications on this page are listed solely as a guide and do not reflect the limit of our supply, or the uses of said materials. If you have a specific application for which you need particular materials, please do not hesitate to contact us . Aluminium Wire Aluminium Wire 1xxx Series Aluminium Wire Grade Available Shapes 1370 / AW-Al1370 / Al 99.7 Wire 1188 / AW-Al1188 / A91188 / ER1188 Wire 1145 / AW-Al1145 / A91145 Wire 1080 / AW-Al1080 / 3.0285 / Al 99.8 / 1A Wire 1070 / AW-Al99.7 / 3.0275 / Al 99.7 / 2L 48 Wire 2xxx Series Aluminium Wire Grade Available Shapes 2024 / AW-2024 / 3.1355 / AlCu4Mg1 / AlCuMg2 / A92024 Wire 2017 / AW-2017 / 3.1325 / AlCuMg1 / H14 Wire 2014 / AW-2014 / 3.1255 / AlCu4SiMg / H15 Wire 4xxx Series Aluminium Wire Grade Available Shapes 4043 / AW-4043 / A94043 / ER4043 Welding Wire 5xxx Series Aluminium Wire Grade Available Shapes 5456 / AW-5456 / A95456 / AlMg5Mn1 Wire 5454 / AW-5454 / 3.3537 / AlMg3Mn / N51 Wire 5086 / AW-5086 / 3.3545 / AlMg4 / A95086 Wire 5083 / AW-5083 / 3.3547 / AlMg4.5Mn0.7 / N8 Wire 5019 / AW-5019 / A95019 / 3.3555 / AlMg5 Wire 6xxx Series Aluminium Wire Grade Available Shapes 6262 / AW-6262 / A96262 Wire 6005 (A) / AW-6005 (A) / 3.3210 / AlMgSi0.7 / A96005 (A) Wire 7xxx Series Aluminium Wire Grade Available Shapes 7178 / AW-7178 / A97178 / AlZn7MgCu Wire Contact us now for more info and pricing Back to Top Nickel Wire Nickel Wire Commercially Pure & Low-Alloy Nickel Wire Grade Available Shapes Alloy 301 / N03301 Wire Alloy 300 / N03300 Flat Wire, Square Wire, Round Wire, Fine Wire Alloy 270 / N02270 / 2.4050 Wire Alloy 201 / N02201 / 2.4061, 2.4068 / NA12 Wire Alloy 200 / N02200 / 2.4060, 2.4066 / NA11 Wire Corrosion-Resistant Nickel Wire Grade Available Shapes Alloy 59 / Nicrofer 5923 hMo / N06059 / NiCr23Mo16Al / 2.4605 Wire Alloy 20 / Nicrofer® 3620 / N08020 / NiCr20CuMo / 2.4660 Wire Alloy G-30 / Hastelloy G-30 / N06030 / NiCr30FeMo / 2.4603 Wire Alloy C-4 / Hastelloy® C-4 / N06455 / NiMo16Cr16Ti / 2.4610 Flat Wire, Square Wire, Round Wire Alloy C-276 / Hastelloy® C-276 / N10276 / NiCr16Mo15W / 2.4819 Wire Alloy C-22 / Hastelloy® C-22 / N06022 / NiCr21Mo14W / 2.4602 Flat Wire, Square Wire, Round Wire Alloy B-3 / Hastelloy® B-3 / N10675 / NiMo29Cr / 2.4600 Flat Wire, Square Wire, Round Wire Alloy B-2 / Hastelloy® B-2 / N10665 / NiMo28 / 2.4617 Flat Wire, Square Wire, Round Wire Heat-Resistant Nickel Wire Grade Available Shapes Alloy X-750 / Inconel® X-750 / N07750 / NiCr15Fe7TiA / 2.4669 Wire Alloy 718 / Inconel® 718 / N07718 / NiCr19FeNb / 2.4668 Wire Alloy 625 / Inconel® 625 / N06625 / NiCr22Mo9Nb / 2.4856 / NA21 Wire Alloy 617 / Inconel® 617 / N06617 / NiCr23Co12Mo / 2.4663 Wire Alloy 602 CA / 602 CA / N06025 / NiCr25FeAlY / 2.4633 Wire Alloy HR-120 / Haynes® HR-120® / N08120 / NiFe33Cr25Co / 2.4854 Wire Alloy RA333 / Nicrofer 4626 Mo W / N06333 / NiCr26MoW / 2.4608 Wire Alloy 330 / Incoloy® 330 / N08330 / X12NiCrSi35-16 / 1.4886 Wire Alloy 282 / Haynes® 282 / N07208 Wire Alloy 263 / Haynes® 263® / N07263 / NiCo20Cr20MoTi / 2.4650 Wire Alloy 242 / Haynes® 242® / N10242 Wire Alloy 214 / Haynes® 214® / N07214 / NiCr16Al / 2.4646 Wire Alloy X / HX / Hastelloy® X / Incoloy® HX / UNS N06002 / NiCr19Fe19Nb5Mo3 / 2.4665 Flat Wire, Square Wire, Round Wire High-Performance Nickel Wire Grade Available Shapes Alloy 825 / Incoloy® 825 / N08825 / NiCr21Mo / 2.4858 Wire Alloy 800 / Incoloy® 800 / N08800 / X10NiCrALTi 32-21 / 1.4876 Wire Alloy 702 / Inconel® 702 / N07702 Flat Wire, Square Wire, Round Wire Alloy 601 / Inconel® 601 / N06601 / NiCr23Fe / 2.4851 Wire Alloy R-405 / Monel® R-405 / N04405 Wire Alloy 404 / Monel® 404 / N04404 / NiCr6016 / 2.4867 Flat Wire, Square Wire, Round Wire Alloy 401 / Monel® 401 / N04401 / CuNi44Mn1 / 2.0842 Flat Wire, Square Wire, Round Wire Alloy 400 / Monel® 400 / N04400 / NiCu30Fe / 2.4360, 2.4361 / NA13 Flat Wire, Square Wire, Round Wire Controlled-Expansion Nickel Wire Grade Available Shapes Alloy K / Nilo® K, Kovar® & Pernifer® 2918 / K94610 / FeNi28Co18 / 1.3981 Wire Alloy 52 / Nilo® 52 / N14052 / 2.4478 / FeNi52 Wire Alloy 48 / Nilo® 48 / K94800 / FeNi48 / 1.3922, 1.3926 & 1.3927 Wire Alloy 46 / Invar® 46 / K94600 / FeNi46 / 1.3920 Wire Alloy 42 / Nilo® 42 / K94100 / FeNi42 / 1.3917 Wire Alloy 36 / Nilo® 36 / K93600 / FeNi36 / 1.3912 Wire Contact us now for more info and pricing Back to Top Steel Wire Steel Wire Maraging Steel Wire Grade Available Shapes C350 / 1.6356 / K93540 Wire C300 / 1.6358 / K93120 Wire C250 / 1.6359 / K92890 Wire C200 / K92710 Wire Austenitic Stainless Steel Wire Grade Available Shapes 347 / S34700 / 1.4550 / X6CrNiNb18-10 Wire 330 / N08330 / 1.4886 / X12NiCrSi35-16 Wire 321H / S32109 / 1.4878 / X12CrNiTi18-9 Wire 317L / S31703 / 1.4438 / X2CrNiMo18-15-4 Wire 316L / S31603 / 1.4404 / X2CrNiMo17-12-2 Wire 316Ti / S31635 / 1.4571 / X6CrNiMoTi17-12-2 Wire 314 / S31400 / 1.4841 / X15CrNiSi25-20 Wire 310S / S31008 / 1.4845 / X8CrNi25-21 Wire 310 / S31000 / 1.4841 / X15CrNiSi25-20 Wire 309S / S30908 / 1.4828 / X15CrNiSi20-12 Wire 309 / S30900 / 1.4829 / X15CrNi23-13 Wire 305 / S30500 / 1.4303 / X8CrNi18-12 Wire 304V Flat Wire, Square Wire, & Round Wire 304CU / S30430 / SUS XM7 Wire 303SE / S30323 / X10CrNiS18-9 Flat Wire, Square Wire, & Round Wire 302HQ / S30430 / 1.4567 / X3CrNiCu18-9-4 Wire 302 / S30200 / 1.4310 / X10CrNi18-8 Wire 301Si / S3010 / 1.4310 / X10CrNi18-8 Wire 204Cu / S20430 / 1.4597 / X8CrMnCuN17-8-3 Wire 201L / S20103 / 1.4371 / X2CrMnNiN17-7-5 Wire 201 / S20100 / 1.4372 / X12CrMnNiN17-7-5 Wire Martensitic Stainless Steel Wire Grade Available Shapes 455 / UNS S45500 Flat Wire, Square Wire, & Round Wire 450 / UNS S45000 Flat Wire, Square Wire, & Round Wire 440A / UNS S44002 / Werkstoff 1.4116 / EN X50CrMoV15 Flat Wire, Square Wire, & Round Wire 431 / Werkstoff 1.4057 / EN X17CrNi16-2 BS 431S29 Wire 430F / Werkstoff 1.4105 / EN X6CrMoS17 Wire 420LC Wire 420F / UNS S42020 / Werkstoff 1.4197 / EN X22CrMoNiS13-1 Wire 420B / Werkstoff 1.4028 / EN X30Cr13 / BS 420S45 Wire 416 / UNS S41600 / Werkstoff 1.4005 / EN X12CrS13 / BS 416S21 Flat Wire, Square Wire, & Round Wire 410 / UNS S41000 / Werkstoff 1.4006 / EN X12Cr13 / BS 410S21 Flat Wire, Square Wire, & Round Wire Ferritic Stainless Steel Wire Grade Available Shapes 444 / UNS S44400 / Werkstoff 1.4521 / EN X2CrMoTi18-2 Wire 436 / UNS S43600 / Werkstoff 1.4526 / EN X6CrMoNb17-1 Flat Wire, Square Wire, & Round Wire 434 / UNS S43400 / Werkstoff 1.4113 / EN X6CrMo17-1 / BS 434S20 Flat Wire, Square Wire, & Round Wire 430Li Flat Wire, Square Wire, & Round Wire 430 / UNS S43000 / Werkstoff 1.4016 / EN X6Cr17 / BS 430S17 Wire Duplex Stainless Steel Wire Grade Available Shapes 2507 / F53 / 1.4410 / S32750 / X2CrNiMoN25-7-4 Wire 2304 / F68 / 1.4362 / S32304 / X2CrNi23-4 Wire 2205 / 318LN / F60 / F51 / 1.4462 / S32205 / S31803 / X2CrNiMoN22-5-3 Wire Precipitation - Hardening Stainless Steel Wire Grade Available Shapes AM350 / UNS S35000 Flat Wire, Square Wire, & Round Wire 17-7 PH / UNS S17700 Flat Wire, Square Wire, & Round Wire 15-7 Mo / UNS S15700 Flat Wire, Square Wire, & Round Wire PH 13-8 Mo® / UNS S13800 / Werkstoff 1.4534 Wire Contact us now for more info and pricing Back to Top Titanium Wire Titanium Wire CPUA Titanium Wire Grade Available Shapes Grade 1 / R50250 / 3.7025 / Ti-99.8 Wire Grade 11 / R52250 / 3.7225 / Ti-0.15Pd Wire Grade 12 / R53400 / 3.7105 / Ti-0.3Mo-0.8Ni Wire Grade 2 / R50400 / 3.7035 / Ti-99.7 Wire Grade 3 / R50550 / 3.7055 / Ti-99.6 Wire Grade 4 / R50700 / 3.7065 / Ti-99.5 Wire Grade 7 / R52400 / 3.7235 Wire Alpha Titanium Wire Grade Available Shapes 6-2-4-2 / R54620 / 3.7145 / Ti-6Al-2Sn-4Zr-2Mo Wire Grade 9 / R56320 / 3.7195 / Ti-3Al-2.5V Wire Alpha-Beta Titanium Wire Title Available Shapes Ti-6Al-6V-2Sn / R56620 Wire Ti-6Al-7Nb / R56700 Wire Grade 29 / R56404 / Ti-6Al-4V-0.1Ru Wire Grade 23 / R56407 / 3.7164 / Ti-6Al-4V-ELI Wire Grade 5 / R56400 / 3.7165 / Ti-6Al-4V Wire Beta Titanium Wire Grade Available Shapes R58010 / Ti-13V-11Cr-3Al Wire 15-3-3-3 / R58153 / Ti-15V-3Cr-3Sn-3Al Wire Grade 21 / R58210 / Ti-15Mo-2.7Nb-3Al-0.2Si Wire Contact us now for more info and pricing Back to Top Other Shapes Tubes & Pipes Shapes & Profiles Revert Sheets & Plates Billets Fixings & Fastenings Cast Products Bars & Rods

Home > Materials > Aluminium > 5xxx 5xxx Series Aluminium The primary alloying element of 5xxx Series Aluminium Alloys is Magnesium, which helps to create moderate to high-strength alloys, with the highest strength of all non-heat-treatable alloys. For applications where temperatures exceed 65℃, alloys featuring no more than 3.5% Magnesium are recommended, in addition to a lower temper, to stave off stress corrosion cracking. ​ They are a precipitation hardened alloy, with properties similar to 3xxx series, but with higher strength and improved corrosion resistance. In this vein, plates tempered to H116 and H321 offer excellent saline corrosion protection and are used extensively in the marine industry. Additionally, this series is easy to anodize, which offers greater corrosion resistance, as well as offering different colour options. ​ As a grade regarded as “general purpose” they find themselves used in many different industries including; architecture and construction, automotive, marine, shipbuilding, bridge construction, electronics, electronics and energy. ​ All alloys are readily weldable, with 5xxx Series Alloys offering the strongest weld strength of all Aluminium Alloys. They are not a grade recommended for machining, however. ​ We supply all grades of 5xxx Series Alloys, so please feel free to contact us with your direct requirements. Available 5xxx Series Alloys Supplied Shapes Plate Sheet Alloy 5005 Int'l Equivalents AA EN UNS DIN BS 5005 AW-5005 A95005 AlMg1(B) N41 Characteristics Moderate strength Excellent weldability Excellent resistance to atmospheric corrosion Ideal for decorative anodising Enquire Now Supplied Shapes Rod Bar Wire Tube Profiles Alloy 5019 Int'l Equivalents AA EN UNS Werkstoff DIN 5019 AW-5019 A95019 3.3555 AlMg5 Characteristics High strength Excellent corrosion resistance against seawater and weathering Enquire Now Supplied Shapes Plate Sheet Strip Coil Alloy 5049 Int'l Equivalents AA EN Werkstoff DIN UNS 5049 AW-5049 3.3527 AlMg2Mn0.8 A95049 Characteristics Good strength Good workability to increase strength, at the cost of ductility Very good corrosion resistance Very good weldability Enquire Now Supplied Shapes Plate Sheet Coil Rod Bar Tube Pipe Alloy 5052 Int'l Equivalents AA EN Werkstoff DIN UNS 5052 AW-5052 3.3523 AlMg2.5 A95052 Characteristics Moderate to high strength Excellent corrosion resistance to seawater Good weldability Good fatigue strength Good cold formabilty Enquire Now Supplied Shapes Plate Sheet Coil Rod Bar Wire Tube Custom Extrusions Alloy 5083 Int'l Equivalents AA EN Werkstoff DIN BS 5083 AW-5083 3.3547 AlMg4.5Mn0.7 N8 Characteristics Highest strength non-heat treatable alloy Excellent resistance to corrosion from seawater and chemical attack Maintains excellent strength after welding Enquire Now Supplied Shapes Plate Sheet Coil Rod Bar Tube Pipe Wire Custom extrusions Alloy 5086 Int'l Equivalents AA EN Werkstoff DIN UNS 5086 AW-5086 3.3545 AlMg4 A95086 Characteristics Higher strength than 5052, but less than 5083 Very good weldability Strengthened by cold working Excellent corrosion resistance to seawater Enquire Now Supplied Shapes Sheet Coil Alloy 5182 Int'l Equivalents AA EN UNS DIN 5182 AW-5182 A95182 AlMg4.5Mn0.4 Characteristics Moderate strength Excellent weldability High ductility Good corrosion resistance Lowest electrical conductivity of all 5xxx series alloys Enquire Now Supplied Shapes Plate Sheet Alloy 5251 Int'l Equivalents AA EN Werkstoff DIN BS 5251 AW-5251 3.3525 AlMg2Mn0.3 N4 Characteristics Moderate strength Very good weldability Work hardens very quickly High ductility Excellent corrosion resistant to seawater Enquire Now Supplied Shapes Welding Rod Welding Bar Alloy 5356 Int'l Equivalents AA EN Werkstoff DIN BS 5356 AW-5356 3.3556 AlMg5 2901 Characteristics One of the most common aluminium welding alloys Excellent corrosion resistance High shear strength Enquire Now Supplied Shapes Plate Sheet Coil Tread Plate Bar Tube Wire Custom Extrusions Alloy 5454 Int'l Equivalents AA EN Werkstoff DIN BS 5454 AW-5454 3.3537 AlMg3Mn N51 Characteristics Moderate to high strength Very good corrosion resistance to seawater Possesses high fatigue strength Good formability Good weldability Enquire Now Supplied Shapes Plate Sheet Rod Bar Wire Tube Custom Extrusions Alloy 5456 Int'l Equivalents AA EN UNS DIN 5456 AW-5456 A95456 AlMg5Mn1 Characteristics Wrought equivalent of 5356 welding alloy Good strength Excellent resistance to saltwater corrosion Enquire Now Supplied Shapes Plate Sheet Tread Plate Tube Round Bar Rectangular Bar Hexagonal Bar Custom Extrusions Alloy 5754 Int'l Equivalents AA EN Werkstoff DIN 5754 AW-5754 3.3535 AlMg3 Characteristics Good strength Excellent cold workability Excellent resistance to saltwater corrosion Commonly used for flooring in marine environments Enquire Now Contact us now for more info and pricing Back to Top Our Other Aluminium Series 1000 Series 2000 Series 3000 Series 4000 Series 6000 Series 7000 Series 8000 Series

Home > Marine > Industries Marine The Marine Industry poses a raft of requirements for engineering materials. The first one that comes to mind is the issue of corrosion many materials face in saltwater solutions, so resistance to these events is a must. With a specific weight of 1.025Kg/l, marine structures must also be incredibly strong to withstand the forces inflicted by seawater, both stationary and under pressure from, let alone the weight of ships and liners themselves. Often within the world of engineering, there are crossovers within industries, and this is also true of the Marine industry. As well as all of the vessels used at sea level, including; boats, yachts, desalination plants etc, we also have to consider the uses of equipment which aren't utilising the sea itself, but are more interested in what lies beneath. Oil & Gas, for example, sits neatly within this particular segment, and the materials used must withstand both the marine environment and the chemical. ​ The materials and applications on this page are listed solely as a guide and do not reflect the limit of our supply, or the uses of said materials. If you have a specific application for which you need particular materials, please do not hesitate to contact us . Aluminium in the Marine Industry Uses Hulls Super structures Masts Winches Scuba bottles Stairs Railings Engine components Fittings Characteristics Straightforward to form into complex shapes, by drawing, extruding etc. May be joined by welding, bonding and riveting, including to different materials Excellent corrosion resistance to both fresh and seawater High strength Lightweight, aiding manoeverability, reducing fuel consumption and increasing performance May be anodised to increase corrosion resistance, reduce scratching and match colouring aesthetics Grades 1085 5049, 5083, & 5454 Enquire Now Contact us now for more info and pricing Back to Top Marine Aluminium Nickel in the Marine Industry Uses Hulls Propeller shafts Heat Exchangers Evaporator Bodies Tubes & Pipes for water, steam, and hydraulic fluids Desalination plant equipment Characteristics Excellent corrosion resistance to saltwater, chlorides and aqeuous solutions Very high strength Superior high temperature properties A very useful alloy in Stainless Steel Fit and forget - practically maintenence free Grades 400 & K-500 600 & 625 Enquire Now Contact us now for more info and pricing Back to Top Marine Nickel Steel in the Marine Industry Uses Hulls Super structures Masts Rigging Fixtures Fittings Anchors Marine structures including bridges & drilling platforms Characteristics Straightforward to form into required shapes Austenitic Stainless and Duplex Steels offer very good corrosion resistance to freshwater, salt water and chlorides High strength to build marine structures including cranes and bridges, as well as ships and shipping containers Easy to join via welding and riveting Grades 316L 329 LDX 2101 Enquire Now Contact us now for more info and pricing Back to Top Marine Steel Titanium in the Marine Industry Uses Structural yacht fittings Engine impellers & Turbines Anchors Tubes & Pipes for water, steam & hydraulic fluids Tubes & Pipes for saline solutions Characteristics Superior strength to weight ratio Excellent corrosion resistance to freshwater, sea water, aqeuous and gaseous corroding media Very high specific strength Very lightweight Exceptional high temperature characteristics Grades Grade 2 Grade 5 Enquire Now Contact us now for more info and pricing Back to Top Marine Titanium Carbon Fibre in the Marine Industry Uses Boat hulls Superstructures Masts Kayaks Canoes Paddles Rowing boats Oars Characteristics Straightforward to form into complex shapes Excellent corrosion resistance High strength - may be used from smaller vessels to superyachts Very lightweight, allowing superior maneuverability, lower fuel consumption and increased performance Grades 3K 6K 9K 12K Hybrid Enquire Now Contact us now for more info and pricing Back to Top Marine Carbon Fibre Aramids in the Marine Industry Uses Sails Structural reinforcement of hulls , masts, etc. Fireproof barriers Characteristics Straightforward to form into complex shapes Excellent corrosion resistance High strength Very lightweight Fire retardant - useful for safety barriers/liners Puncture resistant, making Aramids vital for composite hull Grades Kevlar® Nomex® Enquire Now Contact us now for more info and pricing Back to Top Marine Aramids

Home > About Us Overview About Us Integ Metals Ltd. are metal and composites suppliers, headquartered in London, England. Our areas of expertise are in the supply of Aluminium, Nickel, Steel, Titanium, Carbon Fibre and Aramids, and in the supply of said materials to the Aeronautical, Automotive, Construction, Energy, Leisure, Marine, Medical and Petrochemical industries. Outside of this scope our reach extends further by being able to source other requested materials, grades, shapes and dimensions, as our customers so require. Moreover, all materials herein have the option of the application of suitable coating, plating and finishing to meet our customer’s specifications. In addition, all materials may be cut to our customers specified dimensions. Services Services The international supply of all commercially available grades of Aluminium, Nickel, Steel, Titanium, Carbon Fibre and Aramids. Individual cutting of said materials to the customer’s specifications. Plating/anodizing/finishing materials to suitable specifications. Mission Statement Mission Statement Our prime corporate objective is to further global cohesion by using the field of Metallurgy to equip, facilitate, educate, motivate and inspire those in the Engineering Industry. Having untapped resources to many of the industry's harder to find materials, as well as regular access to standard mill items, our services take the pressure and stress out of sourcing materials and allow Engineers to do what they do best – engineering our future. We endeavour to achieve this by selling the best quality products at competitive prices and in the fastest possible times to people working in all corners of the Engineering community. ​ Through our social media feed, we intend to share this message, by making metallurgical information engaging and exciting to read, including their uses, unique properties and characteristics, as well as news on the Metallurgy and Engineering industries as a whole. ​ We pride ourselves in our level of customer service and are only too happy to facilitate customer requests to satisfy their needs for their individual projects.

Home > Materials > Aluminium > 2xxx 2xxx Series Aluminium The major alloying element of 2xxx Series Aluminium Alloys is copper, contributing up to 6.8% of their composition. Copper has a significant effect in increasing aluminium's strength, whilst magnesium, manganese and silicon additions allow the alloys to be further solution and precipitation heat treated. This leads to 2xxx series alloys having some of the highest aluminium strengths, after the 7xxx Series - higher than that of some steels - whilst 2xx.x castings offer the highest strength of all cast aluminium alloys. Furthermore, these grades maintain their strength across a broad temperature range, making them ideal for the aeronautical and automotive industries. ​ Where 2xxx alloys do not excel is in corrosion resistance, with intergranular corrosion and stress corrosion cracking, both being a curiously specific problem - unusual for an aluminium alloy. To address this, where good corrosion resistance is a necessity, Alclad grades are created as a composite sandwich, with the strong 2xxx core being plated with corrosion-resistant alloys. ​ These alloys machine well, 2011 especially, but require specific treatment for welding, with many grades considered "unweldable." Grade 2219 is used for applications where high-strength weldments are needed. ​ We supply all grades popular of 2xxx series alloys, so please feel free to contact us with your direct requirements. Available 2xxx Series Alloys Supplied Shapes Round bar Square Bar Rectangular bar Hex Bar Tubes Extruded Profiles 2007 Aluminium Int'l Equivalents AA EN Werkstoff DIN 2007 AW-2007 3.1645 AlCu4PbMgMn Characteristics Excellent free-machining properties Allows high cutting speeds Forms short chips Extends cutting tool life High strength & heat-treatable alloy Enquire Now Supplied Shapes Round Bar Rod Tube Custom Extrusions 2011 Aluminium Int'l Equivalents AA EN Werkstoff DIN BS 2011 AW-2011 3.1655 AlCu6BiPb FC1 Characteristics Excellent free-machining properties Allows high cutting speeds Forms short chips Allows the creation of highly detailed and complex parts Enquire Now Supplied Shapes Pipe Bar Custom Extrusions 2013 Aluminium Int'l Equivalents AA EN UNS 2013 AW-2013 A92013 Characteristics Excellent extrusion capabilities Possesses the ability to create hollow extrusions High strength alloy Enquire Now Supplied Shapes Plate Sheet Tube Wire Forgings Round Bar Square Bar Rectangular Bar Hexagonal Bar Custom Extrusions 2014 Aluminium Int'l Equivalents AA EN Werkstoff DIN BS 2014 AW-2014 3.1255 AlCu4SiMg H15 Characteristics Excellent machining properties Very high mechanical strength Heat treatable and easily plated Enquire Now Supplied Shapes Plate Sheet Strip Wire Rod Round Bar Square Bar Rectangular Bar Hexagonal Bar Custom Extrusions 2017 Aluminium Int'l Equivalents AA EN Werkstoff DIN BS 2017 AW-2017 3.1325 AlCuMg1 H14 Characteristics Good machining characteristics Great strength, ductility, and formability Excellent fatigue resistance Good corrosion resistance Enquire Now Supplied Shapes Forgings 2018 Aluminium Int'l Equivalents AA EN UNS 2018 AW-2018 A92018 Characteristics High strength forging alloy Excellent machinability Heat treatable Enquire Now Supplied Shapes Plate Sheet Wire Rod Forgings Tubes Round Bar Square Bar Rectangular Bar Hexagonal Bar Custom Extrusions 2024 Aluminium Int'l Equivalents AA EN Werkstoff DIN UNS 2024 AW-2024 3.1355 AlCu4Mg1 / AlCuMg2 A92024 Characteristics High strength and heat treatable Good machinability Excellent toughness Improved fracture toughness Good fatigue resistance Enquire Now Supplied Shapes Round Bar Square Bar Rectangular Bar Hexagonal Bar 2028 Aluminium Int'l Equivalents AA EN UNS 2028A AW-2028A A92028 Characteristics Alloy developed specifically for electronics industry A low-lead alternative to 2007 and 2030 Excellent machining characteristics Enquire Now Supplied Shapes Round Bar Square Bar Rectangular Bar Hexagonal Bar 2030 Aluminium Int'l Equivalents AA EN Werkstoff DIN UNS 2030 AW-2030 3.1645 AlCu4PbMg A92030 Characteristics Excellent free-machining properties Allows high cutting speeds Forms short chips High strength & heat-treatable alloy Modified 2030 contains no Sn or Pb & conforms to RoHS III Enquire Now Supplied Shapes Round Bar Square Bar Rectangular Bar Hexagonal Bar 2033 Aluminium Int'l Equivalents AA EN UNS 2033 AW-2033 A92033 Characteristics Excellent machining characteristics Creates short machining chips Conforms to RoHS III Lead-free alternative to 2007/2030 Enquire Now Supplied Shapes Round Bar Square Bar Rectangular Bar Hexagonal Bar 2041 Aluminium Int'l Equivalents AA EN UNS 2041 AW-2041 A92041 Characteristics Regarded as the most free-machining aluminium alloy Creates short machining chips Direct replacement for 2011, replacing Pb with Sn & Bi Conforms to RoHS II Developed for use in the electronics industry Enquire Now Supplied Shapes Round Bar Square Bar Rectangular Bar Hexagonal Bar 2044 Aluminium Int'l Equivalents AA EN UNS 2044 AW-2044 A92044 Characteristics Excellent machining characteristics Direct replacement for 2007 & 2030, replacing Pb with Sn & Bi Retains excellent mechanical & technological properties of the original designations Conforms to RoHS III Enquire Now Supplied Shapes Plate Forgings 2050 Aluminium Int'l Equivalents AA EN Werkstoff DIN 2050 AW-2050 A92050 AlCu3.5LiAgMg Characteristics Excellent balance between mechanical strength, toughness and fatigue resistance, whilst possessing corrosion resistance properties Good hardenability allows the manufacture of very thick parts Enquire Now Supplied Shapes ​Custom Extrusions 2090 Aluminium Int'l Equivalents AA EN UNS 2090 AW 2090 A92090 Characteristics A high-strength aluminium-lithium alloy developed for aircraft applications 8% density savings over other aerospace alloys Superior corrosion resistance Excellent welding characteristics Enquire Now Supplied Shapes Plate Sheet Bar Tubing Forging Extrusions 2099 Aluminium Int'l Equivalents AA EN UNS 2099 AW-2099 A92099 Characteristics High strength alloy Excellent corrosion resistance Excellent weldability High fracture toughness Suitable for high strength applications including motorsports & aerospace Enquire Now Supplied Shapes Plate Sheet Coil 2124 Aluminium Int'l Equivalents AA EN Werkstoff DIN UNS 2124 AW-2124 3.1354 AlCu4Mg1(A) A92124 Characteristics High-strength alloy Excellent exfoliation corrosion resistance Used in moderately elevated temperature applications Guaranteed fracture toughness Good creep resistance Enquire Now Supplied Shapes Plate Sheet Forgings Tubes Extrusions Ring Rod Round Bar Square Bar 2219 Aluminium Int'l Equivalents AA EN DIN UNS 2219 AW-2219 AlCu6Mn A92219 Characteristics An age-hardenable alloy with excellent structural strength Can be used over a broad temperature range Good weldability, giving good high-temperature weldments Good fracture toughness Good machining properties Enquire Now Supplied Shapes ​ Sheet Plate 2424 Aluminium Int'l Equivalents AA EN UNS 2424 AW-2424 A92424 Characteristics High-strength alloy, developed for the aeronautical industry Used for larger aeroplane structures, like the wings Enquire Now Supplied Shapes Plate Sheet Round Bar Hexagonal Bar Round Tube Rectangular Tube Custom Extrusions 2618/a Aluminium Int'l Equivalents AA EN Werkstoff DIN BS 2618/A AW-2618/A 3.1924 AlCu2Mg1.5Ni H16 Characteristics High-strength alloy Good corrosion resistance with a fair resistance to atmospheric attack Good machinability Good high temperature properties, which make it useful in making race car pistons Enquire Now Supplied Shapes Plate L93 Aluminium Commercial Equivalents AA EN BS 2014A T651 AW-2014A T651 HP15TF Characteristics Aerospace version of 2014A T651 plate High mechanical strength Heat-treatable Good machining properties Enquire Now Supplied Shapes Bars Sections L102 Aluminium Commercial Equivalents AA EN Werkstoff DIN BS 2014A AW-2014A 3.1255 AlCuSiMn H15 Characteristics Aerospace version of 2014A High mechanical strength Heat-treatable Good machining properties Enquire Now Supplied Shapes Round Bar Custom Extrusions L168 Aluminium Commercial Equivalents AA EN BS 2014A T6 AW-2014A T6 HE15 TF Characteristics Aerospace version of 2014A T6 High mechanical strength Heat-treatable Good machining properties Enquire Now Contact us now for more info and pricing Back to Top Our Other Aluminium Series 1000 Series 3000 Series 4000 Series 5000 Series 6000 Series 7000 Series 8000 Series

Home > Energy > Industries Energy The energy industry is a true test of material properties. The breadth of geographical locations, environments, structural demands, temperatures and contact with corrosive elements are unparalleled. As new ways of producing energy come to the fore and efficiencies are being found in existing technologies, new materials are being integrated and new applications are being found for the incumbents. ​ Key material considerations for the energy industries are: strength - structural strength for hydroelectric dams, electricity pylons, wind turbines et al, tensile strength for overhead powerlines and compessive strength for pressure vessels; electrical conductivity for power lines; corrosion resistance for attacks from the elements, marine environments and acids; and Temperature range, from sub zero cryogenics in nuclear cooling, to 1000s of degrees celsius. ​ The materials and applications on this page are listed solely as a guide and do not reflect the limit of our supply, or the uses of said materials. If you have a specific application for which you need particular materials, please do not hesitate to contact us . Aluminium in the Energy Industry Uses Overhead powerlines Electricity Pylons Low-voltage undergound powerlines Domestic electrical wiring Characteristics 61% conductivity of Copper, yet half the weight Reduction in weight allows longer spans between pylons for overhead powerlines High corrosion resistance - suitable for exposure to the elements and offshore applications Easily shaped into wire and complex shapes for connectors Low coefficient of thermal expansion Easy to bend without cracking Readily recycled at end of useful life Grades 1050, 1070, 1080, 1085, 1350, & 1370 2028, 2033, & 2044 5454 Enquire Now Contact us now for more info and pricing Back to Top Energy Aluminium Nickel in the Energy Industry Uses Geothermal pipework Machinery and piping used in production of oil & gas Equipment - including turbines - used in hydroelectricity production Gearboxes in wind turbines High temperature applications including turbines and pipework Applications exposed to corrosive media Cathodes used in batteries Characteristics Excellent corrosion resistance High strength Great creep strength A very useful alloy in Stainless Steels Resistant to high temperatures Straightforward to join and shape Grades 270 & 301 400 600, 601, 625, 718, X-750, 800, & 825 Alloy 36, Alloy 42, Alloy 48, & Alloy K Enquire Now Contact us now for more info and pricing Back to Top Energy Nickel Steel in the Energy Industry Uses Rebar to reinforce concrete dam walls Turbines in gas, hydroelectric and nuclear power plants Electricity pylons for overhead powerlines Towers and rotors for wind turbines | Heat exchangers Transit pipelines Framework and structures to hold solar panels Handling equipment Biofuel storage Characteristics High strength Readily formed into complex shapes High corrosion resistance in Stainless Steels Good high temperature characteristics Broad range of alloys to meet possible requirements Grades 304, 316 Enquire Now Contact us now for more info and pricing Back to Top Energy Steel Titanium in the Energy Industry Uses Pipelines Heat exchangers Expansion pipes Valves Meters Condensers Impellers Turbine components Pressure Vessels Characteristics Very high strength Superior corrosion resistance Excellent creep strength Readily joined and formed into complex shapes High capacity for resisting internal and external pressures Long life cycle with minimal maintenance required Grades Grade 1, Grade 2, Grade 3, & Grade 4 Grade 7 & Grade 12 Enquire Now Contact us now for more info and pricing Back to Top Energy Titanium Carbon Fibre in the Energy Industry Uses Reinforced wind turbine rotors Fuel Cells Carbon-Reinforced Aluminium Conductor cables (CRAC) Pressure vessels Characteristics Very lightweight Low coefficient of thermal expansion High strength Resistant to high temperatures with the right polymers Excellent corrosion resistance Easy to form and shape into complex shapes Grades 3K 6K 9K 12K Hybrid Enquire Now Contact us now for more info and pricing Back to Top Energy Carbon Fibre Aramids in the Energy Industry Uses Insulators for powelines Insulators for transformers High pressure hoses Umbilicals PV panel housing and bracketry Characteristics Very lightweight allowing less loading on powerlines when used as insulator Readily formed into complex shapes High corrosion resistance to the elements and acids Excellent resistance to heat and electrical currents Superior containment of high pressures. Ideal for use in hoses/umbilicals Grades Kevlar® Nomex® Enquire Now Contact us now for more info and pricing Back to Top Energy Aramids

Home > Materials > Titanium Titanium In a perfect example of a mineral's true potential not being realised until long after its discovery, Titanium went from being discovered by a Cornish amateur geologist and parish priest, William Gregor, in 1791, to being the material of choice during the jet age of the 1950s. The principle characteristics engineers then, as well as now, appreciate are its high strength with comparably lower mass, its high-temperature operating properties, its resistance to corrosion and, for specific purposes, its bio-compatibility. This means that Titanium will find itself invaluable across the whole spectrum of the engineering industry. Titanium is typically organised into four distinct groups to reflect its varying alloyed states and is organised on this 'site thusly: Commercially Pure/Unalloyed , Alpha and Near-Alpha , Alpha-Beta and Beta . Titanium Grades CPUA Commercially Pure and Unalloyed Titanium Alloys are used in industries where their combined high corrosion resistance and good formability is a necessary requirement, but ultimate strength is not ... Read More Beta Beta Titanium Alloys, with their Body Centred Cubic (BCC) structure, are formed by the addition of sufficient Beta isomorpheous and eutectic stabilising elements Molybdenum, Vanadium, Iron, Niobium, Chromium and Hydrogen ... Read More Alpha & Near-Alpha Alpha and Near-Alpha Titanium Alloys are the traditional high temperature alloys. They have a near-single phase structure, giving them excellent creep characteristics, whilst offering the good strength of Alpha-Beta Alloys (up to 600MPa) ... Read More Alpha-Beta The best of both worlds, Alpha-Beta Titanium Alloys are a dual phase alloy, featuring high compositions of Alpha friendly Aluminium, but with healthy measures of Beta Stabilisers Vanadium, Tantalum, Niobium and Hydrogen, too ... Read More Contact us now for more info and pricing Back to Top TitAnium Shapes Integ Metals supply metals and materials directly to industry. To this end, we have listed the eight most frequently supplied to industries on this page, for the purpose of offering our solutions to each industry. Thereafter you will find the industries, explainations of what their unique demands are, and then outlines of the Pros, Cons and Uses for each of the six most requested materials and their role within the selected industry. Bars & Rods Tubes & Pipes Shapes & Profiles Bars & Rods Sheets & Plates Billets Revert Cast Products Wire Fixings & Fastenings Contact us now for more info and pricing Back to Top Titanium in Industry Integ Metals supply metals and materials directly to industry. For this purpose, we have listed the eight most frequently supplied to industries on this page, with the purpose of offering our solutions to each industry. Thereafter, we have taken the liberty of introducing the industries, explained what their unique demands are, and then outlined the Pros, Cons and Uses for each of the most requested materials and their role within the selected industry. Aeronautical The world of Aeronautics is the single most demanding field, for materials, within engineering. Extremes of temperature, exposure to the elements, not to mention bearing vast masses and G-forces, only the very best materials are used... Read More Energy The energy industry is a test for metallurgy in the breadth of applications required of it. Electrical resistance- and conductivity- thermal resistance, strength, corrosion resistance and nuclear handling are but a few. Renewable energy will ask yet more. Read More Medical The Medical Industry presents some of the keenest challenges for engineering materials. In terms of absolute stress and strain on materials, the medical industry doesn't challenge the Aeronautical Industry, for example... Read More Automotive Material considerations in the automotive industry are more important today than ever before. With higher performance, more stringent safety tests and environmental restraints unheard of a generation ago, it's in materials that gains are found. Read More Leisure From golf clubs to tennis racquets, bicycles to kayaks, performance and health gains can be found in improving the materials used in leisure equipment. Whether it's weight saving, strength gaining, or ease of forming, winning or losing can be decided by material selection. Read More Petrochemical, Oil & Gas The world of Petro-Chemical engineering is unquestionably a most testing industry for engineering materials. Not only is there the severe corrosion threat from chemicals used in the refining of oil into petrol, there's also the fact that oil is often mined at sea... Read More Construction Construction evolution continues to advance at an increasing rate. Where the use of steel allowed us to build skyscrapers in the early 20th century, towering monoliths are built to higher standards in shorter times today, with a wider material selection. Read More Marine The Marine Industry poses a raft of requirements for engineering materials. The first one that comes to mind is the issue of corrosion many materials face in salt water solutions, so a resistance to these events is a must ... Read More Contact us now for more info and pricing Back to Top Our Other Materials Aluminium Nickel Steel Carbon Fibre Aramids

Home > Materials > Stee l > Case Hardening Case-Hardening Steel Case-hardening is a process applied to low-carbon and, generally, machinable steels to improve their wear resistance and, by leaving a relatively soft core, their toughness and impact resistance, also. ​ Carburising - another name for case-hardening - occurs via a gaseous phase at 825-925℃, usually created when propane or butane is introduced to the heated steel in a sealed furnace and diffuses into the surface to carburize the carbon present in the material's surface. This can then be either quenched or double quenched to increase the depth of carburisation. ​ Case-hardened steels are used to manufacture parts for mechanical engineering purposes, such as gears, cams, valves, timing wheels, pinions, shafts, crankshafts, and con-rods, among others. These are usually supplied in bar form to reflect the fact that they are intended for machining. Integ Metals supplies all of the grades of case-hardening steels below, in all of the shapes advertised. Please feel free to contact our experts directly for further information, or to place an order. Case-Hardening Steel Supplied Shapes Round Bar Flat Bar Hex Bar Square Bar 080M15 (EN32) Int'l Equivalents SAE Werkstoff ISO 1015, 1016 1.0407, 1.1148 C16, C16E Characteristics Unalloyed low carbon case-hardening steel Hard, wear-resistant surface with a core strength of 430 - 490N/mm² Good machinability and weldability Used for lightly stressed components Enquire Now Supplied Shapes Round Bar 210M15 (EN32M) Int'l Equivalents SAE Werkstoff ISO 1117 1.0725 15SMn13 Characteristics Low carbon case-hardening steel Semi free-cutting steel with enhanced machining properties Used for lightly stressed components Enquire Now Supplied Shapes Round Bar 635M15 (EN351) Int'l Equivalents SAE Werkstoff ISO - - 16NiCrS4 Characteristics A 3/4% nickel-chromium case-hardening steel Hard, wear resistant case with a core strength of 770N/mm² May be used as an alternative to 655M17 Enquire Now Supplied Shapes Round Bar Square Bar 655M13 (EN36B) Int'l Equivalents SAE Werkstoff ISO 3415 1.5752 15NiCr13 Characteristics A nickel-chromium case hardened steel Hard, wear-resistant case with excellent toughness and a core strength of 850 - 1230N/mm² Used for heavy duty components subject to high-stress Enquire Now Supplied Shapes Round Bar 665M17 (EN34) Int'l Equivalents SAE Werkstoff ISO 4615 - - Characteristics A 2% nickel-molybdenum medium case-hardened steel alloy Hard, wear-resistant case with excellent shock resistance and fatigue strength and a core strength of 770N/mm² Enquire Now Supplied Shapes Round Bar Square Bar 8620 (EN362) Int'l Equivalents SAE Werkstoff ISO 8620 1.6523 20NiCrMo2-2 Characteristics A low-alloy case-hardened steel Hard, wear-resistant case with as-quenched surface hardness of 341 - 375HB Exhibits high hardenability and good weldability Enquire Now Supplied Shapes Round Bar 832M13 (EN36C) Int'l Equivalents SAE Werkstoff ISO 9315 1.6657 14NiCrMo13-4 Characteristics A nickel-chromium case-hardened steel Hard, tough, shock resistant case with a core strength of 850 - 1230N/mm² Used to make components subject to high stress, heavy duty applications Enquire Now Supplied Shapes Round Bar 835M15 (EN39) Int'l Equivalents SAE Werkstoff ISO - 1.6723 15NiCrMo16-5 Characteristics A 4.5% nickel-chromium-molybdenum case-hardened steel Hard, wear-resistant case with a core strength of 1310N/mm² Case-hardened qualities may be exhibited over a large section Enquire Now Supplied Shapes Round Bar 16MnCr5 (590M17) Int'l Equivalents SAE Werkstoff ISO 5115 1.7131 16MnCrS5 Characteristics A low-alloy chromium-manganese case-hardening steel Good hardenability and excellent forgeability A good combination of toughness and wear resistance Enquire Now Supplied Shapes Round Bar 18CrNiMo7-6 Int'l Equivalents SAE Werkstoff ISO - 1.6857 - Characteristics A low-alloyed, case-hardened steel Ideal for thick parts with large diameters, which still require toughness at their core. Enquire Now Supplied Shapes Round Bar ​ 20MnCr5 Int'l Equivalents SAE Werkstoff ISO - 1.7147 20MnCrS5 Characteristics A low-alloy, chromium-manganese, case-hardening steel Hard, wear-resistant case, with a toughness through to its core Enquire Now Contact us now for more info and pricing Back to Top Our Other Steel Categories Carbon/Engineering Weathering Steel Precipitation Hardening Through Hardening Austenitic Maraging Nitriding Martensitic Alloy Steel Ferritic Structural Steel Duplex

Home > Industries > Aeronautical Aeronautical The aeronautical industry is a great test for engineering materials. Where other industries have a singular key requirement that the materials used have to adhere to, the aeronautical industry has manifold requirements, often simultaneously. Not only is there the construction of the aircraft itself to consider, with maximum takeoff payloads as high as 640 tons, but there are also positive and negative pressures, stress and strain, yaw, and torque, along with the greatest of extremes of temperature, requiring both high strength and elasticity. ​ In addition to this, the structural components of modern jet engines can operate in excess of 1000c, whilst also dealing with high rotational forces and attack from chemicals necessitating materials with excellent high-temperature characteristics, extremely high creep resistance, as well as protection from corrosive attack. There is often a trade-off between out and out performance and weight, where light weight is needed to increase payload or save fuel, but not at the expense of a lower-performance material. As a result, the aeronautical industry has had perhaps the highest amount of time and money invested in metallurgy and manufacturing techniques. ​ The materials and applications on this page are listed solely as a guide and do not reflect the limit of our supply, or the uses of said materials. If you have a specific application for which you need particular materials, please do not hesitate to contact us . Aluminium in the Aeronautical Industry Uses Airframe structures Wings Fuselage Aerospace housings Fittings Turboprop engine components Aircraft Forgings Aircraft Castings Characteristics Lightweight High strength in certain grades Straightforward to extrude into complex shapes Good corrosion resistance Easy to join via riveting or bonding High modulus of elasticity Large range of alloys and tempers to meet a broad range of needs Grades 1085 2014, 2017, 2018, 2024, 2050, 2090, 2124, 2219, 2424, 2818, L93, L102, & L168 5251 6013, 6061, 6073, 6082, & 6262 7010, 7012, 7049, 7050, 7075, 7099, 7149, 7150, 7175, 7249, & 7475 Enquire Now Contact us now for more info and pricing Back to Top Aeronautical Aluminium Uses Turbine Blades Turbine Nozzles Combustors Turbine wheels Characteristics Excellent creep resistance High yield strength High thermal fatigue resistance Good hot corrosion resistance Low coefficient of expansion High specific strength meaning that relatively thin walled tubes and sheets can be used, maintaining properties whilst saving weight Stable, thick Cr₂O₃ film layer, strengthened when heated, giving excellent corrosion resistance. Reliable strength over wide temperature range Grades X-750 601 & 625 702 & 718 Enquire Now Contact us now for more info and pricing Back to Top Nickel in the Aeronautical Industry Aeronautical Nickel Steel in the Aeronautical Industry Uses Air frames Wings Fuselage Turboprop engine components Landing Gear Wheels Turbine Wheels Compressor blades Combustors Characteristics Excellent creep resistance from specific Austenitic and Ferritic alloys High yield strength High thermal fatigue resistance Good hot corrosion resistance Broad range of grades to meet manifold requirements Grades C200, C250, C350 321, 321H, & 347 Enquire Now Contact us now for more info and pricing Back to Top Aeronautical Steel Titanium in the Aeronautical Industry Uses Airframes Structural components Ducting Hydraulic tubing Jet engine components Gas turbine components Landing gear Fasteners Helicopter rotor head Heat shields Characteristics Excellent creep resistance High yield strength High thermal fatigue resistance Good hot corrosion resistance Good cold formability Good fabricability Good high temperature microstructure stability Good strength on large sectional components Relatively lightweight - half that of Steel Grades Grade1, Grade 2, Grade 3, Grade 4 Grade 8, Grade 9, Ti-6Al-2Sn-4Zr-2Mo Grade 5, Grade 29, Ti-6Al-6V-2Sn, Ti-6Al-2Sn-4Zr-6Mo, Ti-4Al-4Mo-2Sn,Ti-7Al-4Mo, Grade 38 Ti-10V-2Fe-3Al, Grade 21, Ti-15V-3Cr-3Sn-3Al, Ti-13V-11Cr-3Al Enquire Now Contact us now for more info and pricing Back to Top Aeronautical Titanium carbon fibre in the Aeronautical Industry Uses Fuselage Wing Sections Tail sections Turbine blades Jet engine cowls Brake pads Characteristics Very l ightweight High tensile strength Readily formed into complex shapes High corrosion resistance Excellent stiffness Good resistance to heat Good creep resistance High strength over large areas Grades 3K 6K 12K Hybrid Enquire Now Contact us now for more info and pricing Back to Top Aeronautical Carbon Fibre aramids in the Aeronautical Industry Uses Puncture protection in tyres and fuel tanks Helicopter rotor blades Brake linings Fire prevention barriers and structures Fireproof suits for pilots Electrical insulation Leading edges of wings Characteristics Very l ightweight High tensile strength Readily formed into complex shapes High corrosion resistance Excellent resistance to heat Excellent abrasion resistance Good electrical insulation Great puncture resistance Grades Kevlar® Nomex® Enquire Now Contact us now for more info and pricing Back to Top Aeronautical Aramids

Home > Materials > Steel > Alloy Alloy Steel Alloy Steels have additional alloying elements such as vanadium, chromium, and nickel, which are in quantities greater than other accepted resident interstitial elements. These may be formulated for greater strength, better toughness, higher hardenability, or any combination of these. ​ They are usually employed in demanding, high-wear roles that also require greater strength, such as driveshafts, axles, crankshafts, and gearsets. ​ Integ Metals supplies 28 different grades of alloy steel, so please contact us to place an order with your specific requirements, or read on for more information. Alloy Steel Supplied Shapes Round Bar 535A99 (EN31) Int'l Equivalents SAE Werkstoff ISO 52100 1.3505 100Cr6 Characteristics A high-carbon alloy through hardened steel Supplied in the spherodised annealed condition Excellent external hardness of 711HB, with a hardened zone deeper than that of case hardened steels Enquire Now Supplied Shapes Round Bar Square Bar Hexagonal Bar Flat Bar 605M36/T (EN16/T) Int'l Equivalents SAE Werkstoff ISO - - - Characteristics A low-alloy manganese molybdenum through-hardened steel High tensile strength - up to 930N/mm² in smaller diameters Excellent ductility and good resistance to shock Readily machineable Enquire Now Supplied Shapes Round Bar Square Bar 655M13 (EN36B) Int'l Equivalents SAE Werkstoff ISO 3415 1.5752 15NiCr13 Characteristics A nickel-chromium case hardened steel Hard, wear-resistant case with excellent toughness and a core strength of 850 - 1230N/mm² Used for heavy duty components subject to high-stress Enquire Now Supplied Shapes Round Bar 665M17 (EN34) Int'l Equivalents SAE Werkstoff ISO 4615 - - Characteristics A 2% nickel-molybdenum medium case-hardened steel alloy Hard, wear-resistant case with excellent shock resistance and fatigue strength and a core strength of 770N/mm² Enquire Now Supplied Shapes Round Bar 708M40 (EN19A) Int'l Equivalents SAE Werkstoff ISO 4140 1.7225 42CrMo4 Characteristics A 3/4% nickel-chromium case-hardening steel Hard, wear resistant case with a core strength of 770N/mm² May be used as an alternative to 655M17 Enquire Now Supplied Shapes Round Bar Square Bar Hex Bar Flat Bar Sheet 709M40 (EN19) Int'l Equivalents SAE Werkstoff ISO 4140 1.7225 42CrMo4 Characteristics A nickel-chromium case hardened steel Hard, wear-resistant case with excellent toughness and a core strength of 850 - 1230N/mm² Used for heavy duty components subject to high-stress Enquire Now Supplied Shapes Round Bar Flat Bar 722M24 (EN40B/T) Int'l Equivalents SAE Werkstoff ISO - 1.7361 32CrMo12 Characteristics A nitrided, chromium-molybdenum steel Hard, wear-resistant case with excellent toughness Nitriding occurs at relatively low temperatures, leaving a scale-free surface with minimal distortion Enquire Now Supplied Shapes Round Bar 817M40 (EN24) Int'l Equivalents SAE Werkstoff ISO 4340 1.6565/1.6582 - Characteristics A 2% nickel-molybdenum medium case-hardened steel alloy Hard, wear-resistant case with excellent shock resistance and fatigue strength and a core strength of 770N/mm² Enquire Now Supplied Shapes Round Bar Square Bar 826M40 (EN26) Int'l Equivalents SAE Werkstoff ISO - 1.6745 40CrNiMo6 Characteristics A low-alloy case-hardened steel Hard, wear-resistant case with as-quenched surface hardness of 341 - 375HB Exhibits high hardenability and good weldability Enquire Now Supplied Shapes Round Bar 835M30 (EN30B) Int'l Equivalents SAE Werkstoff ISO 9315 1.6657 14NiCrMo13-4 Characteristics A nickel-chromium case-hardened steel Hard, tough, shock resistant case with a core strength of 850 - 1230N/mm² Used to make components subject to high stress, heavy duty applications Enquire Now Supplied Shapes Round Bar Square Bar 8620 (EN362) Int'l Equivalents SAE Werkstoff ISO 8620 1.6523 20NiCrMo2-2 Characteristics A low-alloy case-hardened steel Hard, wear-resistant case with as-quenched surface hardness of 341 - 375HB Exhibits high hardenability and good weldability Enquire Now Supplied Shapes Round Bar 945M38 (EN100) Int'l Equivalents SAE Werkstoff ISO - 1.6723 15NiCrMo16-5 Characteristics A 4.5% nickel-chromium-molybdenum case-hardened steel Hard, wear-resistant case with a core strength of 1310N/mm² Case-hardened qualities may be exhibited over a large section Enquire Now Contact us now for more info and pricing Back to Top Our Other Steel Categories Carbon/Engineering Weathering Steel Precipitation Hardening Case Hardening Austenitic Maraging Through Hardening Martensitic Nitriding Ferritic Structural Steel Duplex