Produkty dla rury (36)

Rury ze stali nierdzewnej stop 316Ti - precyzyjne cienkościenne rury, rury precyzyjne, rury ze stali nierdzewnej

Rury ze stali nierdzewnej stop 316Ti - precyzyjne cienkościenne rury, rury precyzyjne, rury ze stali nierdzewnej

316Ti (UNS S31635) is a titanium stabilised version of 316 molybdenum-bearing austenitic stainless steel. The 316 alloys are more resistant to general corrosion and pitting/crevice corrosion than the conventional chromium-nickel austenitic stainless steels such as 304. They also offer higher creep, stress-rupture and tensile strength at elevated temperature. High carbon Alloy 316 stainless steel can be susceptible to sensitisation, the formation of grain boundary chromium carbides at temperatures between approximately 900 and 1500°F (425 to 815°C) which can result in intergranular corrosion. Resistance to sensitisation is achieved in Alloy 316Ti with titanium additions to stabilise the structure against chromium carbide precipitation, which is the source of sensitisation. This stabilisation is achieved by an intermediate temperature heat treatment, during which the titanium reacts with carbon to form titanium carbides. Please note that we have a minimum order value of £10,000. Specific Heat (0-100°C):500 J/kg/°K Thermal conductivity:14.6 W/m/°K Thermal Expansion:16.5 μm/μm/°C Modulus Elasticity:193 Gpa Electrical Resistivity:7.4 μohm/cm Density:7.99 g/cm3
Rury ze stali nierdzewnej stop 21-6-9 - rury ze stali nierdzewnej, bezszwowe stopy stali nierdzewnej, stopy stali nierdzewnej

Rury ze stali nierdzewnej stop 21-6-9 - rury ze stali nierdzewnej, bezszwowe stopy stali nierdzewnej, stopy stali nierdzewnej

21Cr-6Ni-9Mn is a high manganese nitrogen strengthened, austenitic stainless steel. It combines high strength in the annealed condition, excellent resistance to oxidation at high temperatures as well as good resistance to lead oxide and a high level of corrosion resistance at ambient temperatures. The alloy can be fabricated and formed much the same as type 304 and 316, and is readily wieldable. It remains nonmagnetic after severe cold work. Please note that we have a minimum order value of £10,000. Specific Heat (0-100°C):500 J/kg/°K Thermal conductivity:14 W/m/°K Thermal Expansion:16.7 μm/μm/°C Modulus Elasticity:19.6 Gpa Electrical Resistivity:73 μohm/cm Density:7.83 g/cm3
Rury ze stali nierdzewnej duplex - stal nierdzewna duplex, rury duplex, superduplex

Rury ze stali nierdzewnej duplex - stal nierdzewna duplex, rury duplex, superduplex

Duplex UNS S31803/1.4462 is a duplex stainless steel with approximately 50% ferrite and 50% austenite. This grade has good mechanical strength at room temperature, resistant to corrosive attack, including pitting and is resistant to stress corrosion cracking. The grade is a successful alternative to the normal 300 series austenitic stainless steels, where its higher strength and resistance to stress corrosion cracking is required in critical applications. Please note that we have a minimum order value of £10,000. Specific Heat (0-100°C):500 J/kg/°K Thermal conductivity:15 W/m/°K Thermal Expansion:13 μm/μm/°C Modulus Elasticity:200 Gpa Electrical Resistivity:8.5 μohm/cm Density:7.8 g/cm3
Rury Super Duplex - stal nierdzewna, super duplex, rury super duplex

Rury Super Duplex - stal nierdzewna, super duplex, rury super duplex

Our NORSOK-approved Super Duplex alloy 2507 tubes (UNS 32750) are custom-engineered for the most aggressive subsea and downhole oil and gas applications. Advantages include: NORSOK-approval Made to order in specialist non-standard sizes Superior strength and corrosion resistance Short lead times Small batch sizes With 80 years engineering expertise, we specialise in manufacturing corrosion resistant Super Duplex tubes for the increasing hostile temperature and operating environments. Greater Corrosion Resistance Than Standard Duplex Grades Super Duplex stainless like S32750, is a mixed microstructure of austenite and ferrite (50/50) which has improved strength over ferritic and austenitic steel grades. The main difference is that Super Duplex has a higher molybdenum and chromium content which gives the material greater corrosion resistance than standard duplex grades. Please note that we have a minimum order value of £10,000. Specific Heat (0-100°C):500 J/kg/°K Thermal conductivity:15 W/m/°K Thermal Expansion:11 μm/μm/°C Modulus Elasticity:200 Gpa Electrical Resistivity:8.12 μohm/cm Density:7.8 g/cm3
Rury Spawane - rury spawane, procesy spawania, rury precyzyjne

Rury Spawane - rury spawane, procesy spawania, rury precyzyjne

The welding process is one of the core ways in which we manufacture precision tubes. Our high-quality tubing starts off as a flat strip of metal. The strip is formed into a tube through a series of rollers and the join, also called the seam, is then welded together. Welded Processes Special non-destructive testing methods – including eddy current, ultrasonic and pressure testing - are used to ensure a consistent weld. Just like with seamless manufacturing, welded tubes can be drawn down by plug drawing or sinking. This method can be used to create very long lengths of coiled tube, these can also be measured during coiling using a laser measurement. The main welded tube manufacturing processes used are strip welding and cold drawing, but other important processes in between, or at the end of the drawing process, include Please note that we have a minimum order value of £10,000.
Rury ze stali nierdzewnej stop 347 - rury cienkościenne, producent rur precyzyjnych, rury ze stali nierdzewnej

Rury ze stali nierdzewnej stop 347 - rury cienkościenne, producent rur precyzyjnych, rury ze stali nierdzewnej

347 (UNS S34700/1.4550) is a fully austenitic niobium stabilised stainless steel. The addition of Niobium reduces the creation of carbide precipitation in service between 430 to 900 degrees C and during welding processes and increases the mechanical strength of the material. This grade has good resistance to oxidation and corrosion along with good creep strength and can be used at temperatures where carbide precipitation may occur in non-stabilised grades e.g., 304. It is used principally in aerospace exhaust manifolds and engine components, chemical processing equipment running at high temperatures and in nuclear processing piping. Please note that we have a minimum order value of £10,000. Specific Heat (0-100°C):500 J/kg/°K Thermal conductivity:16 W/m/°K Thermal Expansion:16.6 μm/μm/°C Modulus Elasticity:195 Gpa Electrical Resistivity:28.7 μohm/cm Density:7.93 g/cm3
Rury ze stali nierdzewnej stop 316L - precyzyjne rury ze stali nierdzewnej, rury ze stali nierdzewnej, rura odporna na korozję

Rury ze stali nierdzewnej stop 316L - precyzyjne rury ze stali nierdzewnej, rury ze stali nierdzewnej, rura odporna na korozję

Grade 316 is the standard molybdenum-bearing grade, second in overall volume production to 304 amongst the austenitic stainless steels. The molybdenum gives 316 better overall corrosion resistant properties than Grade 304, particularly higher resistance to pitting and crevice corrosion in chloride environments. Grade 316L, the low carbon version of 316 and has very high immunity from sensitization (grain boundary carbide precipitation). It is extensively used in the oil and gas and chemical industries for its cost effective corrosion resistance and ease of fabrication. There is commonly no appreciable price difference between 316 and 316L stainless steel. The austenitic structure also gives these grades excellent toughness, even down to cryogenic temperatures. Compared to chromium-nickel austenitic stainless steels, 316L stainless steel offers higher creep, stress to rupture and tensile strength at elevated temperatures. Please note that we have a minimum order value of £10,000. Specific Heat (0-100°C):500 J/kg/°K Thermal conductivity:16.3 W/m/°K Thermal Expansion:15.9 μm/μm/°C Modulus Elasticity:193 Gpa Electrical Resistivity:7.4 μohm/cm Density:7.99 g/cm3
Rury ze stali nierdzewnej stop 316 i 316L - rury ze stali nierdzewnej, precyzyjne cienkościenne rury, stopy stali nierdzewnej

Rury ze stali nierdzewnej stop 316 i 316L - rury ze stali nierdzewnej, precyzyjne cienkościenne rury, stopy stali nierdzewnej

Grade 316 is the standard molybdenum-bearing grade, second inoverall volume production to 304 amongst the austenitic stainless steels. The molybdenum gives 316 better overall corrosion resistant properties than Grade 304, particularly higher resistance to pitting and crevice corrosion in chloride environments. Grade 316L, the low carbon version of 316 and has very high immunity from sensitization (grain boundary carbide precipitation). It is extensivly used in the oil and gas and chemical industries for its cost effective corrosion resistance and ease of fabrication. There is commonly no appreciable price difference between 316 and 316L stainless steel. The austenitic structure also gives these grades excellent toughness, even down to cryogenic temperatures. Compared to chromium-nickel austenitic stainless steels, 316L stainless steel offers higher creep, stress to rupture and tensile strength at elevated temperatures. Please note that we have a minimum order value of £10,000. Specific Heat (0-100°C):500 J/kg/°K Thermal conductivity:16.3 W/m/°K Thermal Expansion:15.9 μm/μm/°C Modulus Elasticity:193 Gpa Electrical Resistivity:7.4 μohm/cm Density:7.99 g/cm3
Spawane i Przerysowane Rury - Spawane i Przerysowane Rury, produkcja rur spawanych i przerysowanych, spawana i przerysowana rura

Spawane i Przerysowane Rury - Spawane i Przerysowane Rury, produkcja rur spawanych i przerysowanych, spawana i przerysowana rura

Welded and redrawn tube manufacturing employs elements of both the welded and seamless processes. A welded and redrawn tube is welded in a conventional manner but then transferred to our seamless mill, located in the same factory. Here the product is redrawn to achieve a welded and redrawn finish. The objective of redrawing is to achieve homogenisation of the weld following annealing by cold working. This refines the structure of the weld resulting in improvements that include: Better corrosion resistance Improved fatigue life Higher mechanical integrity Please note that we have a minimum order value of £10,000.
Rury ze stali nierdzewnej stop 209 - rury ze stali nierdzewnej, rury cienkościenne, rury ze stali nierdzewnej bez szwu

Rury ze stali nierdzewnej stop 209 - rury ze stali nierdzewnej, rury cienkościenne, rury ze stali nierdzewnej bez szwu

Alloy 209 is a fully austenitic nitrogen strengthened stainless steel, having twice the yield strength and superior corrosion resistance at room temperature when compared to 316/316L or 317/317L stainless steels. This grade does not become magnetic when cooled to sub-zero temperatures or to a cold working process and has high resistance to sulphide stress corrosion cracking in both annealed and cold worked/ cold worked & aged form up to 30 HRc hardness. Please note that we have a minimum order value of £10,000. Specific Heat (0-100°C):134 J/kg/°K Thermal conductivity:15.6 W/m/°K Thermal Expansion:16.2 μm/μm/°C Modulus Elasticity:199 Gpa Electrical Resistivity:82 μohm/cm Density:7.88 g/cm3
Rury ze stali nierdzewnej stop 304 i 304L - Rury ze stali nierdzewnej bez szwu

Rury ze stali nierdzewnej stop 304 i 304L - Rury ze stali nierdzewnej bez szwu

Alloys 304 (S30400) and 304L (S30403) stainless steels are variations of the 18 percent chromium – 8 percent nickel austenitic alloy, the most familiar and most frequently used alloy in the stainless steel family. High strength, excellent corrosion resistance and minimized carbon content make Alloy 304 and 304L Stainless Steels useful for applications where welding is required. Uses include architectural mouldings and trim, welded components of chemical, textile, paper, pharmaceutical and chemical industry processing equipment. Other advantages are its resistance to oxidation, excellent formability, ease of fabrication and cleaning, excellent strength to weight ratio and good toughness at cryogenic temperatures. For severely corrosive environments,the lower content of Type 304L is preferred because of its greater immunity to intergranular corrosion. Please note that we have a minimum order value of £10,000. Specific Heat (0-100°C):500 J/kg/°K Thermal conductivity:16.2 W/m/°K Thermal Expansion:17.2 μm/μm/°C Modulus Elasticity:19.3 Gpa Electrical Resistivity:7.23 μohm/cm Density:8.0 g/cm3
Rury średniego i wysokiego ciśnienia - rury o wysokiej wytrzymałości, rury naftowe i gazowe, rury akredytowane przez norsok

Rury średniego i wysokiego ciśnienia - rury o wysokiej wytrzymałości, rury naftowe i gazowe, rury akredytowane przez norsok

Fine Tubes manufacturers medium and high-pressure tubing for a range of critical applications in several industries. Our products are crucial in oil and gas extraction projects, as well as in commercial and military aerospace programmes. Operating conditions can require our products to be rated up to 60,000psi operating pressure and with tensile strengths greater than 220ksi (1,515MPa). Oil and Gas Applications Our medium and high-pressure tubing is used in the most hostile downhole conditions including deepwater and sour oil well projects. Applications include precision instrumentation, chemical injection, and monitoring applications for downhole tools. Please note that we have a minimum order value of £10,000.
Rury ze stali nierdzewnej stop 316LN - rury precyzyjne, rury cienkościenne, precyzyjne rury ze stali nierdzewnej

Rury ze stali nierdzewnej stop 316LN - rury precyzyjne, rury cienkościenne, precyzyjne rury ze stali nierdzewnej

316LN (UNS S31653) is a low-carbon, nitrogen-enhanced version of Type 316 molybdenum-bearing austenitic stainless steel. The Type 316 alloys are more resistant to general corrosion and pitting/crevice corrosion than the conventional chromium-nickel austenitic stainless steels such as Type 304. They also offer higher creep, stress-rupture and tensile strength at elevated temperature. The nitrogen in Type 316LN adds additional resistance to sensitization in some circumstances. The nitrogen content of Type 316LN stainless steel also provides some solid solution hardening, raising its minimum specified yield strength compared to Type 316L stainless steel. Like Types 316 and 316L, the Type 316LN alloy also offers good resistance to general corrosion and pitting/crevice corrosion. Please note that we have a minimum order value of £10,000. Specific Heat (0-100°C):485 J/kg/°K Thermal conductivity:16.3 W/m/°K Thermal Expansion:16.5 μm/μm/°C Modulus Elasticity:200 Gpa Electrical Resistivity:7.4 μohm/cm Density:7.99 g/cm3
Rury Duplex ze Stali Nierdzewnej - Rury Duplex ze Stali Nierdzewnej, rury o wysokiej precyzji, produkty duplex

Rury Duplex ze Stali Nierdzewnej - Rury Duplex ze Stali Nierdzewnej, rury o wysokiej precyzji, produkty duplex

The microstructures inside duplex stainless steels are approximately 50 per cent austenite and 50 per cent ferrite, and consequently duplex products share the physical properties of both ferritic and austenitic grades. Duplex stainless steels are resistant to the cracking caused by chloride stress corrosion in austenitic grades, and have improved resistance to localised corrosion. This family of stainless steels has roughly twice the yield strength of their counterpart austenitic grades . Higher hardness values provide better wear resistance for high precision tubes. Duplex stainless steel tubes have high hardness and wear resistance propertiesDuplex steels are easily welded and formed, similar to austenitic grades. Depending on chromium, nickel and molybdenum content, duplex stainless steels are divided into four main categories: lean duplex, duplex, super duplex and hyper duplex. Please note that we have a minimum order value of £10,000.
Rury ze stali nierdzewnej stop 904L - rury bezszwowe, producent rur precyzyjnych, rury cienkościenne

Rury ze stali nierdzewnej stop 904L - rury bezszwowe, producent rur precyzyjnych, rury cienkościenne

UNS NO8904, commonly known as 904L, is a low carbon high alloy austenitic stainless steel which is widely used in applications where the corrosion properties of AISI 316L and AISI 317L are not adequate. The addition of copper to this grade gives it corrosion resistant properties superior to the conventional chrome nickel stainless steels, in particular to sulphuric, phosphoric and acetic acids. However, there is limited use with hydrochloric acids. It also has a high resistance to pitting in chloride solutions, a high resistance to both crevice and stress corrosion cracking. Alloy 904L performs better than other austenitic stainless steels due to the higher alloying of nickel and molybdenum. The grade is non-magnetic in all conditions and has excellent formability and weldability. The austenitic structure also gives this grade excellent toughness, even down to cryogenic temperatures. Please note that we have a minimum order value of £10,000. Specific Heat (0-100°C):450 J/kg/°K Thermal conductivity:11.5 W/m/°K Thermal Expansion:15.8 μm/μm/°C Modulus Elasticity:190 Gpa Electrical Resistivity:9.52 μohm/cm Density:7.95 g/cm3
Rury Bezszwowe - rury bezszwowe o wysokiej precyzji, ekstruzje rur bezszwowych, produkcja rur bezszwowych

Rury Bezszwowe - rury bezszwowe o wysokiej precyzji, ekstruzje rur bezszwowych, produkcja rur bezszwowych

The high precision seamless tubes manufactured at Fine Tubes begin their journey as seamless tube extrusions, in a range of different sizes. This material is reduced in size several times until it gradually reaches the exact specifications our customers require. Each time we perform a reduction process, the tube needs to be cut, cleaned and heat treated before the next one can commence. Please note that we have a minimum order value of £10,000.
Czysty Komercyjnie (CP) Tytan - Rury Klasy 2

Czysty Komercyjnie (CP) Tytan - Rury Klasy 2

Commercially Pure (CP) titanium, titanium grade tubes, precision titanium tubes - Commercially Pure (CP) titanium is an unalloyed titanium grade with a close-packed hexagonal (CPH) crystal structure at room temperature known as alpha phase structure. It has good formability, weldability, ductility, and corrosion resistance combined with moderate strength. Grade 2 titanium has slightly increased higher mechanical properties when compared to Grade 1. It is used principally in aerospace, automotive, chemical plants, marine environments, architecture structures & medical applications. Please note that we have a minimum order value of £10,000.
Rury Systemów Napędu Kosmicznego - rury wysokiej jakości, rury do przestrzeni, wysoko inżynieryjne rury

Rury Systemów Napędu Kosmicznego - rury wysokiej jakości, rury do przestrzeni, wysoko inżynieryjne rury

Fine Tubes has a long and proud heritage of manufacturing tubes that operate in hostile environments - where performance is everything and maintenance is impossible. High-Quality Tubes For The Solar Orbiter Our precision seamless titanium tubes were selected to operate in the Chemical Propulsion System for the Solar Orbiter mission. The highly engineered tubes exceeded the demands for quality and cleanliness specified for this mission-critical application. Please note that we have a minimum order value of £10,000.
Rury Instrumentacyjne - rury instrumentacyjne, rury proste, rury spiralne

Rury Instrumentacyjne - rury instrumentacyjne, rury proste, rury spiralne

Major players in both the aerospace and nuclear power industries rely on Superior Tube for precision tubing to protect their control systems and instrumentation. Meanwhile, control and measuring devices critical to the safe functioning of nuclear reactors also require our high quality tubes. Within reactor cores, our instrumentation and control tubing encases equipment for monitoring various factors such as pressure, temperature, density differences and fuel burn up rates. It’s an extremely demanding environment where durability and reliability are absolutely critical. Superior Tube supplies instrumentation tubing in straight and coiled tube forms. The most common materials used are special grades of stainless steel and nickel alloys. Superior currently produces instrumentation tubing from up to 1.5” in outside diameter down to less than .020” OD. Please note that we have a minimum order value of £10,000.
Rury Chłodzące i Specjalistyczne - Rury Instrumentacyjne, rury specjalistyczne, rury o wysokiej specyfikacji

Rury Chłodzące i Specjalistyczne - Rury Instrumentacyjne, rury specjalistyczne, rury o wysokiej specyfikacji

Fine Tubes is a leading supplier of high-quality cooling and heat exchanger tubing across a range of industries. Nuclear Cooling Tubes Our high-quality seamless cooling tubes are trusted by the world’s major nuclear reactor suppliers for range of technologies. Typical alloys include stainless steel alloys 690, 304, and 825. Nuclear island applications include: Passive residual heat removal heat exchangers regenerative Non-regenerative heat exchangers Turbine island nuclear applications include condenser tubes, stator bars for water and hydrogen cooling in generators, and cryogenic heat exchanger tubes. Please note that we have a minimum order value of £10,000.
Rury z stopu tytanu klasy 9 Ti 3AI/2.5V - precyzyjne rury tytanowe, tytan komercyjnie czysty, rury odporne na korozję

Rury z stopu tytanu klasy 9 Ti 3AI/2.5V - precyzyjne rury tytanowe, tytan komercyjnie czysty, rury odporne na korozję

Ti 3AI/2.5V (Titanium Grade 9) alloy is a near alpha, alpha-beta alloy, sometimes referred to as “half-6-4.” It offers 20 to 50% higher tensile strength than the commercially pure titanium at room and elevated temperatures. It is much more amenable to cold working than Ti 6AI/4V alloy and can be cold worked 75 to 85% to result in moderately high strength and good ductility. Furthermore, it is weldable as the commercially pure grades and has excellent resistance to torsion and corrosion.Ti 6Al/4V is significantly stronger than commercially pure titanium while having the same stiffness and thermal properties excluding thermal conductivity, which is about 60% lower in Grade 5 Ti than in CP Ti. Amongst its many advantages, it is heat treatable. Please note that we have a minimum order value of £10,000. Specific Heat (0-100°C):427 J/kg/°K Thermal conductivity:7.6 W/m/°K Thermal Expansion:7.9 μm/μm/°C Modulus Elasticity:107 Gpa Electrical Resistivity:12.6 μohm/cm Density:4.48 g/cm3
Rury ze stali nierdzewnej stop 22-13-5 - stal nierdzewna austenityczna, właściwości mechaniczne, stale nierdzewne austenityczne

Rury ze stali nierdzewnej stop 22-13-5 - stal nierdzewna austenityczna, właściwości mechaniczne, stale nierdzewne austenityczne

S20910 stainless steel provides a combination of good corrosion resistance and strength not found in any other commercial material available in its price range. This austenitic stainless steel has corrosion resistance greater than that provided by types 316 and 316L, plus approximately twice the yield strength at room temperature in the annealed condition. In addition S20910 stainless steel has very good mechanical properties at both elevated and sub-zero temperatures a well as outstanding cryogenic properties. And, unlike many austenitic stainless steels, 22-13-5 stainless steel can be heavily cold worked to enhance its yield strength and remain non-magnetic. Please note that we have a minimum order value of £10,000. Specific Heat (0-100°C):475 J/kg/°K Thermal conductivity:13.3 W/m/°K Thermal Expansion:16.2 μm/μm/°C Modulus Elasticity:200 Gpa Electrical Resistivity:82 μohm/cm Density:7.88 g/cm3
Rury Tytanowe - rury precyzyjne, rury tytanowe, produkty rur wysokiej jakości

Rury Tytanowe - rury precyzyjne, rury tytanowe, produkty rur wysokiej jakości

Because of its strength, unique density and corrosion resistance, titanium has found applications in many industries. For high quality tubing products, it’s often a better substance to use than competing materials like stainless steels or super alloys. Titanium tubes are light weight and exceptionally corrosion and heat resistantThe density of titanium is about 60 per cent of that of steel- or nickel-based alloys giving significant weight savings in aerospace structures. The tensile strength is better than that of austenitic or ferritic stainless steels. Titanium is exceptionally corrosion resistant and exceeds the resistance of stainless steels in most environments. The metal is non-magnetic too, and has good heat transfer properties, with a melting point higher than steel alloys. Titanium is easily worked. Please note that we have a minimum order value of £10,000.
Rury z tytanu klasy 5 Ti 6Al/4V - precyzyjne rury tytanowe, producent rur tytanowych, stopy tytanu

Rury z tytanu klasy 5 Ti 6Al/4V - precyzyjne rury tytanowe, producent rur tytanowych, stopy tytanu

Ti 6Al/4V (Titanium Grade 5) is the most widely used of all the alpha-beta titanium alloys accounting for more than 50% of total titanium usuage. It is typically used in the annealed condition, at service temperatures through 400°C (750°F). Ti 6Al/4V is welded with matching or with ELI filler wire. Ti 6Al/4V is significantly stronger than commercially pure titanium while having the same stiffness and thermal properties excluding thermal conductivity, which is about 60% lower in Grade 5 Ti than in CP Ti. Amongst its many advantages, it is heat treatable. This grade is an excellent combination of strength, corrosion resistance, weld and fabricability. In consequence, its uses are numerous such as for military aircraft or turbines. It is also used in surgical implants. Generally, it is used in applications up to 400°C to improve ductility and toughness in cold-worked condition. Please note that we have a minimum order value of £10,000. Specific Heat (0-100°C):565 J/kg/°K Thermal conductivity:6.7 W/m/°K Thermal Expansion:8.6 μm/μm/°C Modulus Elasticity:120 Gpa Electrical Resistivity:17.1 μohm/cm Density:4.43 g/cm3
Rury Linii Kontrolnych - Linie kontrolne, Rury naftowe i gazowe, rury o wysokiej wydajności

Rury Linii Kontrolnych - Linie kontrolne, Rury naftowe i gazowe, rury o wysokiej wydajności

Superior Tube supplies a whole range of products to the oil and gas sector, and it’s one of our most important markets. You’ll find our high performance tubes successfully used in some of the most aggressive subsea and downhole conditions thanks to our proven track record in meeting the strict quality requirements of the oil, gas and geothermal energy industries. Improving technology has extended the range of ways in which oil and gas fields can be exploited, and increasingly projects require the use of long, continuous lengths of stainless steel control lines. These are employed in a variety of applications including hydraulic controls, instrumentation, chemical injection, umbilicals and flowline control. Fine Tubes supplies products for all of these applications, and more, lowering operating costs and improved recovery methods for our customers. Please note that we have a minimum order value of £10,000.
Rury Silników Lotniczych - rury lotnicze, rury odporne na ciepło, silniki lotnicze

Rury Silników Lotniczych - rury lotnicze, rury odporne na ciepło, silniki lotnicze

We deliver precision tubes specially engineered for aerospace engines that perform in the most extreme pressures and temperatures. Trusted by Major Engine OEMs Our aerospace engine tubes are trusted by major OEMs to operate in a variety of critical aircraft engine systems including fuel delivery, fire suppression, thrust reverser, drain lines, and bleed air systems. Please note that we have a minimum order value of £10,000.
Rury HPLC - precyzyjne rury cienkościenne, rury odporne na korozję, rury chemiczne

Rury HPLC - precyzyjne rury cienkościenne, rury odporne na korozję, rury chemiczne

Superior Tube Co. supplies above industry standard quality high performance used in the manufacturing of liquid and gas chromatography. High Performance Liquid Chromatography High performance liquid chromatography (HPLC) is used to analyze chemicals in both research and industrial processing. It’s an application that requires precision tubing, which is resistant to high temperatures, pressures and corrosion. For many years, Superior Tube has supplied tubes made from corrosion resistant austenitic, stainless steel and nickel alloys for a range of HPLC equipment. The tubing is used for the manufacturing of the columns in chromatography machines. This application requires exceptional inside diameter condition and overall tube strength to withstand the pressure involved when pumping liquids or gases through the column in order to extract samples for chemical analysis. Please note that we have a minimum order value of £10,000.
Rury skraplacza - rury skraplacza, rury bezszwowe, precyzyjne cienkościenne rury

Rury skraplacza - rury skraplacza, rury bezszwowe, precyzyjne cienkościenne rury

Durability and corrosive resistance are key criteria when it comes to precision thin wall tubing for industrial condensers. The tube mill at Superior Tube more than meets that requirement, and we supply products to a range of leading engineering companies. In the energy sector, our high quality stainless steel and nickel alloy condenser tubes are used for the cooling, heating or re-heating of fluids or gases within steam turbines that generate electricity. Condenser tubing products can be purchased from Superior Tube as seamless, welded or welded drawn tubes in a multitude of sizes ranging from 0.010” OD to 1.500” OD with wall thickness as light as .003” Please note that we have a minimum order value of £10,000.
Rury implantatów chirurgicznych ze stali nierdzewnej 316L - rury cienkościenne, producent rur precyzyjnych, precyzyjne rury ze stali nierdzewnej

Rury implantatów chirurgicznych ze stali nierdzewnej 316L - rury cienkościenne, producent rur precyzyjnych, precyzyjne rury ze stali nierdzewnej

Surgical Implant 316L is a double melted stainless steel, regarded as a medical grade, this stainless steel is melted to achieve high levels of purity and cleanliness. It has excellent resistance to both general and intergranular corrosion, and pitting and crevice corrosion. The double melting allows for superior surface finish. Surgical implant 316L Stainless Steel is our most commonly sold medical stainless steel. Beyond removing impurities, this process, in combination with the unique nickel and chromium content of 316, tends to facilitate the formation of the surface chromium oxide layer that makes stainless steel corrosion resistant. There is some belief that surgical implant 316L forms a more substantial surface layer, and that this plays a strong role in protecting the host body from reactions to the nickel content of the material. Please note that we have a minimum order value of £10,000. Specific Heat (0-100°C):485 J/kg/°K Thermal conductivity:16.3 W/m/°K Thermal Expansion:16.5 μm/μm/°C Modulus Elasticity:200 Gpa Electrical Resistivity:7.4 μohm/cm Density:7.99 g/cm3
Rury ze stali nierdzewnej stop 6Mo - rury ze stali nierdzewnej, precyzyjne cienkościenne rury, stopy stali nierdzewnej

Rury ze stali nierdzewnej stop 6Mo - rury ze stali nierdzewnej, precyzyjne cienkościenne rury, stopy stali nierdzewnej

6 Mo (UNS S31254) is a super austenitic stainless steel with a high level of molybdenum and nitrogen, providing high resistance to pitting and crevice corrosion as well as high strength compared with conventional austenitic stainless steels such as 316L. The alloy can provide excellent resistance to stress corrosion cracking allowing tube cold formingand may be used without the necessity to re-anneal at testing up to 120°C. Please note that we have a minimum order value of £10,000. Specific Heat (0-100°C):500 J/kg/°K Thermal conductivity:14 W/m/°K Thermal Expansion:16.5 μm/μm/°C Modulus Elasticity:196 Gpa Electrical Resistivity:8.5 μohm/cm Density:8.0 g/cm3