stainless steel heat exchanger tubing
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316L 904L Ατσάλινα σωλήνες ανταλλάκτη θερμότητας
Σωλήνωση εναλλάκτη θερμότητας από ανοξείδωτο χάλυβα υψηλής απόδοσης για επιθετικά διαβρωτικά περιβάλλοντα. Διατίθεται σε 316/316L, 317L, 904L, Duplex 2205, Super Duplex 2507, Alloy 625 & C-276. Ιδανικό για χημική επεξεργασία, πετρέλαιο και φυσικό αέριο, θαλάσσιες, αφαλάτωση και φαρμακευτικές εφαρμογές. Προσαρμοσμένα μεγέθη με πλήρη πιστοποίηση MTR.
ASTM A213 Ατσάλινο σωλήνα ανταλλακτήρα θερμότητας ανθεκτικό στη διάβρωση
U-bend stainless steel heat exchanger tubes are seamless or welded tubes precision-formed into a U-shape, designed specifically for shell and tube heat exchangers. This U-configuration allows the tube bundle to expand and contract freely under thermal stress while eliminating the need for a second tube sheet, making the entire heat exchanger more compact, cost-effective, and easier to maintain. Manufactured from high-quality austenitic stainless steel grades such as 304, 304L
Χωρίς συγκόλληση ατσάλινο σωλήνα ανταλλάκτη θερμότητας συγκολλημένο ανθεκτικό στη διάβρωση
Stainless heat exchanger tubes are high-performance seamless or welded tubes designed for shell-and-tube heat exchangers, condensers, evaporators, and boilers. Manufactured from high-quality austenitic stainless steel, they offer excellent corrosion resistance, high-temperature strength, and efficient heat transfer. Key Advantages: Excellent resistance to pitting, crevice corrosion, and SCC Maintains mechanical properties at elevated temperatures Smooth inner/outer surface
ASME SA213 Χάλυβα από ανοξείδωτο χάλυβα
ASME SA213 seamless ferritic and austenitic alloy steel tubes are specifically designed for heat exchangers, condensers, and boilers operating under high temperature and high pressure. These tubes offer excellent oxidation resistance, corrosion resistance, and stable mechanical properties, making them widely used in power generation, petrochemical, marine, and nuclear power industries. 2. Product Specifications Parameter Details Standard ASME SA213 / SA213M Grades T5, T9, T11
316L Ατσάλινο Χάλυβα Ανθεκτικός στη διάβρωση
U-Tube heat exchanger tubes are stainless steel tubes bent into a U-shape for use in shell and tube heat exchangers. This design allows for thermal expansion compensation, easy tube bundle removal, and efficient heat transfer. Manufactured from seamless or welded stainless steel, these tubes offer excellent corrosion resistance and high reliability in demanding thermal applications.Key Features:Precision U-bending with consistent radiusAllows free thermal expansion – no
Στρογγυλός σωλήνας χωρίς ραφές από ανοξείδωτο χάλυβα, γυαλισμένος ανοπτημένος υψηλής αντοχής στη διάβρωση
Our stainless steel seamless round tubes are manufactured through precision cold drawing or hot rolling processes, resulting in a uniform wall thickness, smooth surface finish, and complete absence of weld seams. These tubes offer excellent corrosion resistance, high-temperature performance, and reliable mechanical strength. They are widely used in fluid transport, structural support, and machinery manufacturing. Various surface finishes (annealed, pickled, polished, bright
ASTM A789 2205 Duplex σωλήνας ακριβείας από ανοξείδωτο χάλυβα Ανθεκτικό στη διάβρωση
ASTM A789 2205 Duplex Seamless Tube ανθεκτικό στη διάβρωση για γραμμές υδραυλικής διεργασίας
Επεξεργασία τετράγωνου 304 ζυγισμένου σωλήνα από ανοξείδωτο χάλυβα
304 stainless steel welded pipe is manufactured by roll-forming stainless steel coil or plate into a tubular shape followed by longitudinal welding. As an austenitic stainless steel grade, it offers excellent corrosion resistance, high dimensional accuracy, and a bright surface finish. The production process is efficient, cost-effective, and available in a wide range of sizes and specifications. Products are available as longitudinally welded pipe or spiral welded pipe. 304
Στρογγυλό σωλήνα από ανοξείδωτο χάλυβα ASTM A269 Σωλήνες από ανοξείδωτο χάλυβα υψηλής πίεσης
Cold drawn stainless steel round pipe is manufactured through a multi-stage drawing process that pulls a hot-rolled or extruded tube through a die at room temperature. This cold working process produces a pipe with superior dimensional accuracy, smoother surface finish, enhanced mechanical properties, and tighter wall thickness tolerances compared to hot finished alternatives. The cold drawing process work-hardens the material, increasing tensile and yield strength while