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Explosion bonded Multilayed Zirconium Tantalum Clad Plate Ta1 / SB265 Gr.1 / Q345R for Condensers

Place of Origin: Zhejiang

Company Profile

Location: Nanjing, Jiangsu, China (Mainland)
Business Type: Manufacturer
Main Products: Shell Tube Heat Exchanger, Double Tube Sheet Heat Exchanger, Floating Head Heat Exchanger

Product Detail

Model No.: E0051

Product Description

Explosion bonded Multilayed Tantalum Clad Tubesheet Ta1/SB265 Gr.1/Q345R for Condensers

 

Quick Product Details:

 

Cladding metal:Ta1

Base metal:Q345R

Size: (2.5+3+16)*985*1952mm

Production code:ASTM B898, ASME SB898

Packing: Seaworthy packing

 

Product advantage: 

-Clad plates provide an economical solution for chemical processing;

- Acids corrosion resistance;

- Completely immune to attack by aggressive aqua regia below 150 °C;

- High melting point of 3017 °C.

 

 

Table for available type of Zirconium clad plates:

 

Product Names:

Tantalum Clad Plate/Sheet, Stainless steel Clad Tube Sheet/ Tube Plate

Production Codes:

ASTM B898, ASME SB898

Tantalum Grades:

Ta1, Ta2

Form

Description

Base Layer

Base Layer Grade

Maximum Size

Clad Plate

Tantalum / Copper/ Stainless Steel (Duplex) Clad

Copper

C10100, C10200,  C11000, C26200, C28000, C46400, C70600, C71500, etc.

(1.5~14)/(1~5)/(6~200) x W(max W 4110) x L(max L 7000)

Duplex, Stainless Steel & their forgings

304L,316L, 316Ti, 321, 317L, 310S, 410S, 904L, 1805, 2205, 2507, Al6XN, 254sMo,etc.

Tantalum / Titanium/  Stainless Steel (Duplex) Clad

Titanium

ASTM/ASME B265 Gr1, Gr2, Gr.3, Gr.5, Gr7, Gr.9, Gr12

(1.5~40)/(1-5)/(6~200) x W(max W 1000) x L(max L 1000)

Duplex, Stainless Steel & their forgings

304L,316L, 316Ti, 321, 317L, 310S, 410S, 904L, 1805, 2205, 2507, Al6XN, 254sMo,etc.

Tantalum/Zirconium /Titanium/Carbon Steel Clad

Zirconium

R060702

1.2/2/2/(6~200) x W(max W 2000) x L(max L 3000)

Titanium

Gr.2

Carbon Steel

SA516 Gr.60(N),Gr.70(N),SA387 Gr.11, Gr.22, SA266, SA350, etc.

 

 

Description:

 

Explosion welding is a solid state joining process in which explosive energy is used to propel the component metal parts together to form a metallurgical bond. At the point of impact of the two components, a thin layer is stripped from both colliding surfaces and is ejected as a molten metal jet. This jet contains the surface contaminants and oxides that would otherwise prevent bonding. The two surfaces are in intimate contact under extreme pressure enabling the bond to be formed.

 

Applications:
Petro-chemical, Vacuum Salt Industry, Chlor-alkali, Metallurgical, Food, Light Industry, Medicine, Auto Industry, Electrolytic Aluminum, Fertilizer, Power Industry, Building Materials, Electrolysis Industry, Hydrometallurgy etc.

 

 

 

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