熱交換器の管
高圧ボイラー用 20G 非合金シームレス鋼製オメガチューブ(冷間引抜加工)
高圧用途向けの 20G ボイラーグレードのシームレスオメガチューブ。正確な寸法を実現するために冷間引抜きされており、GB/T 5310 (ASTM A192/A210 に相当) に認定されています。厳しい公差でカスタム長さ 1 ~ 12m に対応します。熱伝達効率と圧力の完全性を考慮して設計されています。
SA179 ST35.8 交換熱管
SA179 ST35.8 Mild Seamless Steel Round Pipe Thick Wall Pipe Boiler Chemcial Fertilizer Material: Low Carbon Steel Production: Seamless Cold Drawn Size range: O.D.:3.2-76.2mm W.T.:1-15mm L: according to customer requirement. Steel Grade and Chemical Compositions: C 0.06-0.18 Mn 0.27-0.63 P ≤0.035 S ≤0.035 Mechanical Properties Tensile Streghth: min ksi[Mpa] 47[325] Yield Point: min ksi[Mpa] 26[180] Elongation: ≥35% Hardness: ≤72HRB Heat Treatment: Tubes are heat treated after
ASTMの179の炭素鋼の熱交換器の管はひれ付き管メートル最高ひれの18突き出ました
Fin Tube Type and Material No. Fin Type Fin Material Tube Material 1 Extruded Fin Fin Tube SB209 - B209 Aluminium Alloy 1050 or 1060 SB75 - B75 Copper SA179 - A179 Carbon Steel SA213 - A213 Stainless Steel SB75 - B75 Copper SB111 - B111 Copper Alloy 2 G Fin Fin Tube / Embeded Fin Tube EN573-3 Aluminium Alloy 1050 or 1060 SB152 - B152 Copper 3 L Fin Fin Tube 4 LL Fin Fin Tube 5 KL Fin Fin Tube Fin Tube Details Tube O.D 8-51mm Wall Thickness Please advice Length Usually ≤12mtr
ボイラー管のために溶接される精密低炭素鋼鉄熱交換器の管ASTM A178
TORICH Low carbon steel Precision ASTM A178 Welded and Drawn Boiler Tubes 1. Available Size Range: OD Thickness mm inch mm SCH 88.9~1422 3'~ 56' 2.11~140 ≥SCH10 *If the steel grades and size you are looking for are not listed above, please contact us for further information . 2. Application Power plant; Chemical Fertilizer; Petrochemicals; Offshore Oils; Gas Productions; Refineries and etc. 3. Standards ASTM A106 ——Standard Specification for Seamless Carbon Steel Pipe for
油圧/流動管のための継ぎ目が無い炭素鋼の熱交換器の管
4130 Seamless Steel tube/pipe for Hydraulic Pipe Fluid Pipe Product Seamless Steel Tube Material Carbon Steel/ Alloy Steel Section Shape Round Grade 10#(St37.4,St35,St37,E235),20#(St45,St44,E255),45#(Ck45),16Mn(St52) and other special material. Standard DIN2391,EN10305-1,GB/T3639 Certification ISO9001 Technique Cold rolled & Cold drawn Application Widely used in automobiles, motorcycles, gas springs, hydraulic machinery, construction machinery and refrigeration industry.
ASME SA213 グレード T12 内糸無縫低合金熱交換管 Cr-Mo 設計と 30-325 mm OD
ASME SA213 Grade T12 Internal Thread Tube — Seamless Low-Alloy Tube for Heat Exchangers Material Overview ASME SA213 Grade T12 (UNS K11562) is a seamless chromium–molybdenum (Cr-Mo) low-alloy steel tube widely specified for boiler, superheater, and heat-exchanger service where elevated-temperature strength and pressure integrity are required. The ASME SA-213 specification is the Code adoption of ASTM A213/A213M for these seamless alloy-steel tubing applications. Specification
ASTM A213 合金鋼のシームレスパイプ 大直径厚壁ボイラーチューブ 交換器用
ASTM A213 Alloy Steel Seamless Pipe (Tube) — Large Diameter, Thick-Wall for Boiler Service Material ASTM A213/A213M covers seamless ferritic and austenitic alloy-steel tubes intended for boilers, superheaters, and heat exchangers . Tubes are supplied as hot-finished or cold-finished , and can be specified with the heat-treatment condition required for high-temperature pressure parts. (Reference: ASTM A213/A213M) Specifications Manufacturing : Seamless; hot-finished or cold
冷たいローリング ASTM B862 グレード2 チタン式熱交換管 - 縫い目のない耐腐食性 UNS R50400
ASTM B862 Grade 2 Cold Rolled Titanium Heat Exchanger Seamless Tube ASTM B862 Grade 2 titanium tube is a commercially pure titanium tubular product designed for corrosion-resistant heat-transfer service, particularly in environments where seawater, chlorides, brine, wet chlorine, organic acids, or oxidizing media make stainless steel or copper-nickel unreliable. Grade 2 / UNS R50400 provides an optimal balance of corrosion resistance, formability, weldability, and moderate
G Type Finned Tubes Embedded Fin Tube Stainless Steel Pipe with 1mm-40mm Thickness 6-630mm Outer Diameter 6-12m Length
G Type Finned Tubes — Embedded Fin Tube on Stainless Steel Pipe for Heat Exchangers Material G-type (embedded) finned tubes are stainless-steel base tubes with a helical groove machined on the outer wall. An aluminum, copper, carbon steel, or stainless steel fin strip is wound into the groove under tension, and the displaced base-metal is rolled back to mechanically lock the fin—forming a tight, gap-free metal-to-metal interface ideal for high vibration and cyclic thermal