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Rubber&Fabric: Shape/Equal

Specifications

China National Standards Drafting Unit of Rubber Joint

Qualified Joint Supplier in Nuclear Power Plant

Product characteristics

This product takes advantages of high flexibility and high air impermeability and medium resistance of rubber as well as compliance and heat resistance of glass— Fabric and is prepared at both ends with metal spool and flange in connection with wind machine and air duct, which can compensate the thermal expansion by the operation of air duct and multidirections displacement. For better compliance of rubber and fabric and good sound absorption and vibration isolation, the noise and vibration passage can be reduced effectively in the operation of boiler, wind machine and air current. Because the main materials are rubber or fabric and fiber heat preservation materials of light weight without thrust in reverse and in no need of pipe supporting seat, a lot of materials are used so it has good heat resistance and corrosion resistance. In addition, rubber has better air impermeability absolutely without leakage and with lower price than metal compensator and import products.

The character of rectangular expansion joints and round expansion joints have big section part, low pressure, high temperature, optimization convolution profiles which are used on transportation gas, pipe with dust gas and export of draft fan, to absorb displacement or shock absorption.

Rectangular metal expansion joints have a variety of applications in the power, petrochemical, refining, chemical, and steel industries. Since there are no standard duct sizes, and due to the wide range of pressure and temperature combinations, each rectangular metal expansion joint is custom-engineered to provide the most economical design that will absorb the thermal movements of the system in which it is installed. Like circular expansion joints, rectangular expansion joints absorb three types of movement: Axial, lateral and angular. For the purpose of designing rectangular bellows, it is critical to know in which direction the lateral and angular movements will occur, i. E. Parallel to the long and/or short side of the bellows.
Type
(a,b: mm)
Duct section area
a × b (a,b: m)(m2)
Flange thickness b(mm) Outside flange size A1 x B1(a,b:m)
(mm2)
Inside flange size a1 x b1 ( a,b:m )( mm2 ) Position of flange bolt hole(mm) Diameter of bolt
(mm)
XBJa×b 0<axb≤0.7 10 (a+100)x(b+100) (a+3)x(b+3) 17.5 12
XBJa×b 0.7<axb≤1.6 12 (a+120)x(b+120) (a+3)x(b+3) 20 14
XBJa×b 1.6<axb≤2.8 14 (a+120)x(b+120) (a+3)x(b+3) 20 18
XBJa×b 2.8<axb≤6.0 16 (a+140)x(b+140) (a+3)x(b+3) 25 20
XBJa×b 6.0<axb≤10.0 18 (a+160)x(b+160) (a+3)x(b+3) 30 22
XBJa×b 10.0<axb≤15.0 20 (a+180)x(b+180) (a+3)x(b+3) 35 24
XBJa×b 15.0<axb≤20.0 24 (a+200)x(b+200) (a+3)x(b+3) 35 28