Product Description
Dimension
1/2″ to 4″(DN15~DN100);
Range(Wall Thickness);:;
3000LB to 9000LB
XS,; Sch80,; Sch160,; XXS.;
Standard
ASME/ANSI B16.;11
MSS SP-79,; MSS SP-83,; MSS SP-114
JIS B2316,; JIS B2302 etc.;
Material:;
General Stainless steel,; Super Stainless Steel,; Duplex Stainless Steel (Ferritic-Austenitic Stainless Steel);,; Austenitic Stainless Steel,; Martensitic Stainless Steel,; Ferritic Stainless Steel.; etc.;
Material Grade(Only lists part);:;
| TYPE | ASTM | EN/DIN | JIS |
| General Stainless Steel | A182:; F304,; F304L,; F304H,; F304N,; F304LN F310,; F310H,; F310MoLN F316,; F316L,; F316H,; F316N,; F316LN,; F316Ti F317,; F317L F321,; F321H F347,; F347H,; F347LN F304/F304L,; F316/F316L,; F317/F317L,; F321/F321H.; F6a,; F6b,; F429,; F430 S31727,; S32053 F20,; F44,; F45,; F46 F47,; F48,; F49,; F56 F58,; F62,; F63,; F64,; F70 |
1.;4301(X5CrNi1810); 1.;4306(X2CrNi1911); 1.;4301H(X5CrNBi1810H); 1.;4311(X2CrNiN1810); 1.;4845(X12CrNi2521); 1.;4401(X5CrNiMo17122); 1.;4404(X2CrNiMo171321); 1.;4919(X6CrNiMo1713); 1.;4406(X2CrNiMoN17122); 1.;4571(X6CrNiMoTi17122); 1.;4438(X2CrNIMo18164); 1.;4449(X5CrNiMo1713); 1.;4541(X6CrNiTi1810); 1.;4541H(X6CrNiTi1810H); 1.;4550(X6CrNiNb1810); |
SUS304 SUS304H SUS304L SUS310 SUS310S SUS316 SUS316H SUS316L SUS316Ti SUS317 SUS317L SUS321 SUS321H SUS347 SUS347H |
| Duplex Steel | A182:; F51(UNS S31803); F53(UNS S32750); F55(UNS S32760); F60(UNS S32205); F50,; F52,; F54,; F57 F59,; F61,; F65,; F66 F67,; F68,; F69,; F71 |
1.;4462(X2CrNiMoN22-5-3);,; 1.;4410(X2CrNiMoN25-7-4); 1.;4501(X2CrNiMoCuWN25-7-4); |
SUS329J3L SUS329J3LTB SUS329J3LTP |
| Super Stainless Steel | A182:; F904L(UNS N5714); F44(UNS S31254 or 254SMO); |
1.;4539(X2NiCrMoCu25-20-5);,; 1.;4547(X2NiCrMoCu20-18-7); |
SUS890L |
| Wall Thickness: | All Thickness |
|---|---|
| Delivery Detai: | One Week Quick Push Fit Fitting |
| Color: | Customized |
| Technics: | Forged |
| Transport Package: | Wooden and Acc. to Customer′s Requirements. |
| Specification: | CE, ASME, API, AD2000, BV, ABS, ISO9001 |
| Samples: |
US$ 20/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
What Is a Coupling?
A coupling is a device that connects two shafts together. It transmits power from one to the other and is used to join rotating equipment. It can also allow for some degree of misalignment and end movement. It is used in mechanical engineering and manufacturing. To learn more about couplings, read this article.
Mechanical connection between two objectsThe present invention relates to a method and assembly for forming a mechanical connection between two objects. The methods of this invention are suitable for connecting both solid and hollow objects. For example, the method can be used to make mechanical connections between two cylinders. This method is particularly useful for connecting two cylinders that are positioned near each other.
Absorbs vibration
A coupling insert is a part of a vehicle’s drivetrain that absorbs vibrations. These inserts are designed to prevent couplings from moving out of phase. However, the coupling inserts themselves can wear out and need to be replaced. Universal joints are an alternative if the coupling is out of phase by more than one degree. In addition, internal bearings in the coupling need to be lubricated and replaced when they begin to show signs of wear.
Another embodiment of the invention includes a flexible coupling 25 that includes rearwardly-extending lugs that extend toward the coupling member 23. These lugs interdigitate with corresponding lugs on the coupling member 23. They are spaced circumferentially. A first elastic member 28 is interposed between lugs 26 and 27, and is adapted to yield in a counterclockwise direction. As a result, it absorbs torsional vibrations.
Blocks heat transfer
Thermal coupling occurs when a solid block is thermally coupled to the air or fluid passing through it. The amount of heat transferred through a solid block depends on the heat transfer coefficients of the materials. This paper presents a numerical model to understand how heat transfers through different block materials. This work also describes the thermal resistance network for a one-dimensional block.
In some cases, thermal coupling increases the heat transfer mechanism. As illustrated in FIG. 1D, a heatpipe coupler 112 couples two heatpipes 110-1 and 110-2. This configuration allows the pipes to be coupled to the heat source and to the condenser. In addition, the heat pipe couplers may have bellows at the ends to help facilitate linear motion.
Thermal coupling is achieved by ensuring that at least one block is made of a material with a lower thermal expansion coefficient than the annulus. Ideally, the block’s mean thermal expansion coefficient is at least twenty percent lower than the annulus’s mean thermal expansion coefficient. This ensures that the thermal coupling between the two parts is as efficient as possible.
Another type of thermal coupling is achieved by using flexible elements. These are often washers or springs. These components allow the blocks to maintain physical contact with the post 55, which means that the heat transfer is more efficient even at higher temperatures. The flexibility of these elements also makes it possible to choose an element that will not impede assembly.
Protects rotating equipment
A reliable, long-lasting coupling system can reduce the risk of damage to rotating equipment. Designed to protect against torque overload and wear, Voith torque-limiting couplings provide outstanding safety and reliability. As a result, they can deliver maximum performance and minimize equipment downtime. In addition to their long-term benefits, these solutions are ideal for applications where safety and reliability are of paramount importance.
A good coupling provides many advantages, including the ability to transmit power, compensate for axial movement, and absorb shock. It is essential to choose the proper coupling for your application based on the basic conditions of your rotating equipment. For example, if you have two shafts with parallel rotation axes, you should choose a parallel coupling. Otherwise, you should use an angular coupling.
Torque-limiting couplings can also provide protection for rotating equipment by disengaging at a specific torque level. This protects the drive shaft from undergoing catastrophic failure. Torque limiters are particularly helpful for high-value equipment. By preventing catastrophic failure, you can avoid expensive repairs and minimize equipment downtime.
Coupling guards are easy to install and provide effective protection for rotating equipment. These covers are made of sheet metal bent to fit over the shaft. They are durable and easy to remove when necessary. This type of guard can prevent employees from catching their hands, tools, or loose clothing on motor coupling components.
editor by CX 2023-04-25