DéTAILS DES PRODUITS

Maison > Produits >

Plates and Gaskets for Plate Heat Exchangers

Produits

Pompes de recirculation de l'eau

Pompe à eau d'agriculture

Pompes d'approvisionnement en eau

pompe de circulation de grundfos

Pompe à eau d'égout

système de lutte contre l'incendie

système d'air frais

Pompe centrifuge

Pompes de gavage

commandes d'abb

Centre de meulage vertical

Pompes de renforcement en ligne

Échangeur de chaleur à plaque

Échangeur de chaleur

Pompe à dossier

Contactez-nous

Contact maintenant

Plates and Gaskets for Plate Heat Exchangers

MOQ:	1
Prix:	Négociable
Emballage Standard:	boîte en bois
Période De Livraison:	5-8 jours ouvrables
Méthode De Paiement:	LC, D/A, D/P, T/T, Western Union
Capacité D'approvisionnement:	100

Les informations détaillées

Description de produit

Les informations détaillées

Lieu d'origine

Chine

Nom de marque

Botai

Numéro de modèle

TS6-L

Délai de livraison:

10 jours ouvrables

Origine:

Tian Jin, Chine

Capacité de production:

100000 pièces/an

Pression de conception:

2,2 m/PA

Type de matériau:

SS304 / SS316L

Mettre en évidence:

plate heat exchanger gaskets

heat exchanger replacement plates

industrial heat exchanger plates

Description de produit

Plates and Gaskets for Plate Heat Exchangers

TS6-L plates and gaskets are essential components of plate heat exchangers, working together to ensure stable operation through two core functions:

Medium Isolation

Physical separation of plates combined with precise gasket sealing prevents cross-flow between hot and cold media, eliminating equipment failures and process contamination.

Efficient Heat Exchange

Special structural design enhances heat transfer efficiency, enabling precise temperature regulation by cooling hot media and heating cold media.

Plate Specifications and Characteristics

Composition and Structure

Each TS6-L plate consists of metal plate and sealing gasket components with complementary functions:

Component	Structural Design	Core Functions and Advantages
Metal Plate	Thin metal sheets with corrugations, sealing grooves, and corner holes via mold stamping	Heat Transfer Enhancement: Corrugated structure expands contact area and improves heat transfer coefficient Structural Reinforcement: Increases rigidity and pressure-bearing capacity Self-Cleaning: Turbulent flow reduces sediment accumulation Flow Channel Distribution: Corner holes and sealing grooves create dedicated fluid paths
Sealing Gasket	Custom-sized polymer gasket installed in plate groove	Sealing and Leakage Prevention: Fills plate gaps to prevent fluid leakage Flow Channel Partitioning: Seals corner holes to eliminate cross-flow risk

Material Selection for Plates

TS6-L metal plates are available in various corrosion-resistant materials for different industrial applications:

Stainless Steel Series

304/304L: General-purpose corrosion resistance for neutral media like water and air
316/316L: Superior acid and alkali resistance for chemical and food processing
254SMO: High-corrosion resistance for salt solutions and acidic wastewater

Special Alloy Series

Titanium: Excellent corrosion resistance for seawater desalination and marine engineering
Nickel: High-temperature and alkali resistance for caustic soda solutions
Titanium-Palladium Alloy: Superior corrosion resistance for high-concentration strong acids
Hastelloy: Resistant to extreme corrosive media for demanding industrial applications

Plate Manufacturing Process

TS6-L plates utilize one-time mold stamping forming with significant advantages:

Ensures dimensional accuracy and structural consistency across all plates
Enables uniform metal point contact for improved sealing stability
Provides stable operation under high pressure and pressure shock conditions

Sealing Gasket Technical Parameters

Gasket Composition

TS6-L sealing gaskets are complex polymer composite systems with optimized components:

Component Type	Core Function	Performance Impact
Rubber Polymer	Base gasket material	Determines basic elasticity, temperature resistance, and corrosion resistance
Vulcanizing Agent	Crosslinks rubber molecules	Enhances strength, hardness, and anti-aging properties
Filler	Optimizes physical properties	Improves wear resistance and pressure resistance while reducing costs
Anti-Aging Agent	Slows aging rate	Extends service life and reduces oxidation degradation
Processing Aid	Improves manufacturing process	Optimizes mixing, extrusion, and molding processes
Diluent	Adjusts rubber compound viscosity	Facilitates precise gasket forming and plate groove matching

Rubber Material Performance Comparison

Rubber Type	Chemical Composition	Core Performance Advantages	Applicable Scenarios
Natural Rubber	Extracted from Hevea brasiliensis latex	Excellent elasticity, high mechanical strength, good wear resistance	Normal temperature, low pressure, neutral media (civil HVAC systems)
Isoprene Rubber	Polymerized from isoprene	Performance similar to natural rubber with stable supply	General conditions requiring stable supply and natural rubber performance
Styrene-Butadiene Rubber (SBR)	Copolymer of butadiene and styrene	Good aging resistance, better wear resistance, low cost	General industrial sealing for non-strongly corrosive media
cis-Polybutadiene Rubber (BR)	Polymerized from butadiene	Excellent cold resistance, wear resistance, elasticity, and aging resistance	Low-temperature environments and high dynamic load conditions

Recommended Application Scenarios

TS6-L plates and gaskets adapt to various industrial heat exchange requirements:

Chemical Industry

Temperature regulation of acid-alkali solutions and chemical raw materials. Recommended: 316L, titanium alloy, or Hastelloy plates with corrosion-resistant gaskets.

Food and Beverage Industry

Sterilization, cooling, and preheating processes. Recommended: 304 stainless steel plates with food-grade rubber gaskets.

Water Treatment Industry

Seawater desalination and industrial wastewater treatment. Recommended: Titanium or 254SMO plates resistant to seawater/sewage corrosion.

HVAC Industry

Building heating and central air conditioning systems. Recommended: 304 stainless steel plates with standard temperature-resistant gaskets.

Low-Temperature Industrial

Heat exchange of chilled water and low-temperature fluids. Recommended: cis-polybutadiene rubber gaskets for low-temperature elasticity.

Étiquettes:

Échangeur de chaleur à plaques à coefficient de transfert thermique élevé,

Échangeur de chaleur à structure compacte,

Large gamme d'applications Échangeur de chaleur industriel

Produits recommandés

Échangeurs de chaleur à plaque et en coque à haut rendement

Contact maintenant

Condenseurs à plaques à haute efficacité Solutions de condensation personnalisées

Contact maintenant

évaporateur à plaques démontables pour l'industrie alimentaire et des boissons et l'industrie légère

Contact maintenant

échangeur de chaleur à plaques Joint

Contact maintenant

Échangeur de chaleur à plaques jointées Évaporateur à plaques

Contact maintenant

Removable Plate Heat Exchangers Are Suitable for Industrial Cold and Hot Fluid

Contact maintenant

Fully Welded Plate & Shell Heat Exchanger

Contact maintenant

DéTAILS DES PRODUITS

Produits

Pompes de recirculation de l'eau

Pompe à eau d'agriculture

Pompes d'approvisionnement en eau

pompe de circulation de grundfos

Pompe à eau d'égout

système de lutte contre l'incendie

système d'air frais

Pompe centrifuge

Pompes de gavage

commandes d'abb

Centre de meulage vertical

Pompes de renforcement en ligne

Échangeur de chaleur à plaque

Échangeur de chaleur

Pompe à dossier

Plates and Gaskets for Plate Heat Exchangers

MOQ:	1
Prix:	Négociable
Emballage Standard:	boîte en bois
Période De Livraison:	5-8 jours ouvrables
Méthode De Paiement:	LC, D/A, D/P, T/T, Western Union
Capacité D'approvisionnement:	100

Les informations détaillées

Description de produit

Les informations détaillées

Lieu d'origine

Chine

Nom de marque

Botai

Numéro de modèle

TS6-L

Délai de livraison:

10 jours ouvrables

Origine:

Tian Jin, Chine

Capacité de production:

100000 pièces/an

Pression de conception:

2,2 m/PA

Type de matériau:

SS304 / SS316L

Quantité de commande min:

Prix:

Négociable

Détails d'emballage:

boîte en bois

Délai de livraison:

5-8 jours ouvrables

Conditions de paiement:

LC, D/A, D/P, T/T, Western Union

Capacité d'approvisionnement:

100

Mettre en évidence

plate heat exchanger gaskets

heat exchanger replacement plates

industrial heat exchanger plates

Description de produit

Plates and Gaskets for Plate Heat Exchangers

TS6-L plates and gaskets are essential components of plate heat exchangers, working together to ensure stable operation through two core functions:

Medium Isolation

Physical separation of plates combined with precise gasket sealing prevents cross-flow between hot and cold media, eliminating equipment failures and process contamination.

Efficient Heat Exchange

Special structural design enhances heat transfer efficiency, enabling precise temperature regulation by cooling hot media and heating cold media.

Plate Specifications and Characteristics

Composition and Structure

Each TS6-L plate consists of metal plate and sealing gasket components with complementary functions:

Component	Structural Design	Core Functions and Advantages
Metal Plate	Thin metal sheets with corrugations, sealing grooves, and corner holes via mold stamping	Heat Transfer Enhancement: Corrugated structure expands contact area and improves heat transfer coefficient Structural Reinforcement: Increases rigidity and pressure-bearing capacity Self-Cleaning: Turbulent flow reduces sediment accumulation Flow Channel Distribution: Corner holes and sealing grooves create dedicated fluid paths
Sealing Gasket	Custom-sized polymer gasket installed in plate groove	Sealing and Leakage Prevention: Fills plate gaps to prevent fluid leakage Flow Channel Partitioning: Seals corner holes to eliminate cross-flow risk

Material Selection for Plates

TS6-L metal plates are available in various corrosion-resistant materials for different industrial applications:

Stainless Steel Series

304/304L: General-purpose corrosion resistance for neutral media like water and air
316/316L: Superior acid and alkali resistance for chemical and food processing
254SMO: High-corrosion resistance for salt solutions and acidic wastewater

Special Alloy Series

Titanium: Excellent corrosion resistance for seawater desalination and marine engineering
Nickel: High-temperature and alkali resistance for caustic soda solutions
Titanium-Palladium Alloy: Superior corrosion resistance for high-concentration strong acids
Hastelloy: Resistant to extreme corrosive media for demanding industrial applications

Plate Manufacturing Process

TS6-L plates utilize one-time mold stamping forming with significant advantages:

Ensures dimensional accuracy and structural consistency across all plates
Enables uniform metal point contact for improved sealing stability
Provides stable operation under high pressure and pressure shock conditions

Sealing Gasket Technical Parameters

Gasket Composition

TS6-L sealing gaskets are complex polymer composite systems with optimized components:

Component Type	Core Function	Performance Impact
Rubber Polymer	Base gasket material	Determines basic elasticity, temperature resistance, and corrosion resistance
Vulcanizing Agent	Crosslinks rubber molecules	Enhances strength, hardness, and anti-aging properties
Filler	Optimizes physical properties	Improves wear resistance and pressure resistance while reducing costs
Anti-Aging Agent	Slows aging rate	Extends service life and reduces oxidation degradation
Processing Aid	Improves manufacturing process	Optimizes mixing, extrusion, and molding processes
Diluent	Adjusts rubber compound viscosity	Facilitates precise gasket forming and plate groove matching

Rubber Material Performance Comparison

Rubber Type	Chemical Composition	Core Performance Advantages	Applicable Scenarios
Natural Rubber	Extracted from Hevea brasiliensis latex	Excellent elasticity, high mechanical strength, good wear resistance	Normal temperature, low pressure, neutral media (civil HVAC systems)
Isoprene Rubber	Polymerized from isoprene	Performance similar to natural rubber with stable supply	General conditions requiring stable supply and natural rubber performance
Styrene-Butadiene Rubber (SBR)	Copolymer of butadiene and styrene	Good aging resistance, better wear resistance, low cost	General industrial sealing for non-strongly corrosive media
cis-Polybutadiene Rubber (BR)	Polymerized from butadiene	Excellent cold resistance, wear resistance, elasticity, and aging resistance	Low-temperature environments and high dynamic load conditions

Recommended Application Scenarios

TS6-L plates and gaskets adapt to various industrial heat exchange requirements:

Chemical Industry

Temperature regulation of acid-alkali solutions and chemical raw materials. Recommended: 316L, titanium alloy, or Hastelloy plates with corrosion-resistant gaskets.

Food and Beverage Industry

Sterilization, cooling, and preheating processes. Recommended: 304 stainless steel plates with food-grade rubber gaskets.

Water Treatment Industry

Seawater desalination and industrial wastewater treatment. Recommended: Titanium or 254SMO plates resistant to seawater/sewage corrosion.

HVAC Industry

Building heating and central air conditioning systems. Recommended: 304 stainless steel plates with standard temperature-resistant gaskets.

Low-Temperature Industrial

Heat exchange of chilled water and low-temperature fluids. Recommended: cis-polybutadiene rubber gaskets for low-temperature elasticity.

Étiquettes: