Found 90 Products For:

"carbon steel boiler tube"

Qualità Tubi alettati di tipo H e doppio H per scambiatori di calore ad alta rigidità fabbrica

Tubi alettati di tipo H e doppio H per scambiatori di calore ad alta rigidità

H Type And Double H Type Finned Tubes For Heat Exchangers High Rigidity H-Finned Tube Structural features: The fins are arranged in parallel and symmetrical, and the cross-section is shaped like the letter "H". Usually, two longitudinal fins are fixed on both sides of the base tube by high-frequency welding or mechanical pressing. Typical parameters: fin height 15-30 mm, thickness 1.5-3 mm, spacing 20-50 mm. Core advantages: High rigidity: The H-shaped structure enhances anti
Qualità ASME SA335 P9 Tubo in acciaio per caldaie in acciaio legato per l'industria petrolchimica fabbrica

ASME SA335 P9 Tubo in acciaio per caldaie in acciaio legato per l'industria petrolchimica

ASMES A335 P9 Boiler Tube for Petrochemical Industry. Yuhong Group is one of the earliest group to export Chrome Moly Pipe in China, Till now around 20 years experience for Alloy Steel Pipe and tube, which according to : ASME SA335 / ASTM A335 P1, P11, P12, P22, P5, P9, P91, P92 ; ASME SA213 /ASTM A213 T1, T11, T12, T22, T5, T9, T91, T92 . And our alloy steel pipe and tube was width used in petrochemical , oil refinery , power plant , .... A335/SA335 P9 is a seamless ferritic
Qualità Tubo per scambiatori di calore in acciaio inossidabile ASTM A268 TP410, per l' industria petrolifera e del gas fabbrica

Tubo per scambiatori di calore in acciaio inossidabile ASTM A268 TP410, per l' industria petrolifera e del gas

ASTM A268 TP410 Seamless Stainless Steel Heat Exchanger Tube , For Oil and Gas Industry ASTM A268 specifies the standard for seamless and welded ferritic stainless steel tubes used for high-temperature service and other applications requiring corrosion resistance. Type TP410 is a martensitic grade stainless steel known for its excellent mechanical strength and resistance to heat, making it ideal for use in heat exchanger applications. Key Features of ASTM A268 TP410 Tube
Qualità Tubo senza saldatura per scambiatori di calore ASME SA213 TP316L 1.4404,X2CrNiMo17-12-2 fabbrica

Tubo senza saldatura per scambiatori di calore ASME SA213 TP316L 1.4404,X2CrNiMo17-12-2

ASME SA213 TP316L Heat Exchanger Seamless Tube 1.4404,X2CrNiMo17-12-2 ASME SA213 TP316L is the designated standard and grade for seamless stainless steel tubes used in high-end applications such as power plant boilers, petrochemical plants, and nuclear power plants, for manufacturing equipment such as heat exchangers, condensers, and superheaters. It typically employs cold rolling or cold drawing seamless processes to ensure dimensional accuracy and surface quality. The ASME
Qualità Tubo alettato a spirale seghettata saldato ad alta frequenza ASTM A335 P22 per scambiatori di calore e caldaie fabbrica

Tubo alettato a spirale seghettata saldato ad alta frequenza ASTM A335 P22 per scambiatori di calore e caldaie

ASTM A335 P22 High Frequency Welded Serrated Spiral Fin Tube This high-performance engineered component is designed for superior heat transfer in extreme operating environments. It integrates the excellent high-temperature mechanical properties of ASTM A335 Grade P22 alloy steel with an advanced finned design for enhanced heat exchange efficiency. Product Overview The base tube is manufactured from seamless ferritic alloy-steel pipe specifically intended for high-temperature
Qualità ASME SA213 TP316L Tubo per scambiatori di calore in acciaio inossidabile nella lavorazione petrolchimica fabbrica

ASME SA213 TP316L Tubo per scambiatori di calore in acciaio inossidabile nella lavorazione petrolchimica

I tubi per scambiatori di calore in acciaio inossidabile ASME SA213 TP316L offrono una resistenza alla corrosione superiore con un basso contenuto di carbonio e molibdeno, ideali per la lavorazione petrolchimica. Le caratteristiche includono tolleranze strette, superfici lisce e test NDT completi. Disponibili configurazioni personalizzate e conformità TEMA/ASME.
Qualità ASME B163 N04400 G Tipo di tubo a pinna Monel 400 con pinna in alluminio per aria condizionata fabbrica

ASME B163 N04400 G Tipo di tubo a pinna Monel 400 con pinna in alluminio per aria condizionata

ASME B163 N04400 G Type Fin Tube Monel 400 Tube with Aluminium FIN For Air Conditing ASME B16.3 N04400 G Type Fin Tube is a type of finned tube made from Monel 400 material with aluminum fins. Monel 400 is a nickel-copper alloy known for its excellent corrosion resistance in various environments, including seawater. The addition of aluminum fins to the tube increases the surface area, allowing for better heat transfer. This type of finned tube is commonly used in applications
Qualità ASTM A179/ASME SA179 Tipo G tubo a pinna incorporato con materiale di pinna di alluminio o rame per un miglior trasferimento di calore fabbrica

ASTM A179/ASME SA179 Tipo G tubo a pinna incorporato con materiale di pinna di alluminio o rame per un miglior trasferimento di calore

ASTM A179/ASME SA179 G Type Embedded Fin Tube Cold Drawn Killed ASTM A179/ASME SA179 + Aluminum Embedded-G Type Fin Tube Cold Drawn Killed Introduction to Embedded Fin Tubes Embedded fin tubes are highly efficient heat transfer solutions widely used in power generation, petrochemical, and HVAC systems. These tubes enhance heat exchange efficiency by increasing the surface area in contact with fluid, significantly improving thermal performance. YUHONG brings extensive
Qualità ASTM A240 SS304/304L Conchiglia e tubo scambiatore di calore tubo foglio tipo quadrato fabbrica

ASTM A240 SS304/304L Conchiglia e tubo scambiatore di calore tubo foglio tipo quadrato

ASTM A240 304 Square Tubesheet Shell And Tube Heat Exchangers ASTM A240 304 Square Tubesheet is a square tube sheet made of 304 stainless steel. It complies with the ASTM A240 standard and is designed for heat exchangers and pressure vessels. Its core function is to precisely support and seal the tube bundle. Its square structure is suitable for compact layouts (such as air-conditioning units and small reactors). The heat transfer uniformity is improved by optimizing the four