Product Description
Product Description
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Material |
304/316/316L/CF3/CF8/CF8M/1.4301/1.4408/1.4404/SCH22/SCS13/SCS14/17-4PH/WCB/GS45/HK | ||
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Standard |
DIN / JIS / ASTM / ASME / BS / GB / ISO |
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| Thread Ending | NPT / BSPT / BSP / DIN / ISO | ||
| Product weight | 0.005kg~45kg | ||
| Dimensional tolerance | Casting ISO8062 CT5~CT7 ; Machining ISO2768 | ||
| Manufacturing process | Precision casting, investment casting, precision machining NC/CNC | ||
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Application |
Stainless Steel Pipe System,water system, petrolum system etc.Medicine, food, chemical industry, etc |
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| Type | Tee, elbow, union, pair wire, quick connector, clamp connector, valve, valve body, pump, impeller, mechanical parts, food machinery, stainless steel customized parts |
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Service |
OEM |
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Delivery |
By Sea / By Air / By Express |
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| Shipping port | ZheJiang / QingDao / ZheJiang /BeiJin | ||
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Packing |
Carton Box / Plywood Case / Special Packaging CHINAMFG Customer Requirements |
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| Supply cycle | Samples are 25-35 days; the order can be adjusted according to the situation for 55 days of normal manufacturing period. | ||
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Payment Terms |
100% TT / 30%TT in advance, balance 70% before delivery |
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| Our advantage | We have more than 15 years of manufacturing management experience; we have professional technical engineers in investment casting, machining and quality inspection; we have long-term stable and continuous optimization of product quality and supply cycle management plHangZhou. |
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Product Show
FAQ
1,What are your strengths?
We have foundry workshop and machining workshop; We have an independent quality inspection team and production process management team; We can provide you with the drawing mapping, mold or product design and manufacturing, as well as the inspection and monitoring management of your products in China;
2,When can I get the price?
The quotation shall provide detailed and complete information within 24 hours after receiving the inquiry. And solutions.
3,How long can you finish the sample?
It is usually completed in 3-5 weeks; Different products adjust the cycle.
4,How long can you finish the order?
After receiving the sample confirmation information, the casting time is usually 6-7 weeks; The finished product was added for another 2-3 weeks;
We welcome your inquiry and cooperation!
HangZhou CHINAMFG Electric Technology Co., Ltd
Fluid Couplings in Marine Propulsion Systems
Yes, fluid couplings can be and are commonly used in marine propulsion systems. They offer several advantages that make them well-suited for such applications:
- Smooth Power Transmission: Fluid couplings provide smooth power transmission, which is beneficial for marine propulsion where abrupt changes in power delivery can be detrimental to the vessel’s stability and performance.
- Torque Limiting: In marine applications, fluid couplings can act as torque limiters, protecting the propulsion system and engine from sudden torque surges and overloads, which can occur during maneuvers or when encountering resistance in water.
- Impact Damping: The hydrodynamic principle of fluid couplings helps dampen impacts and shocks in the propulsion system, reducing wear and tear on the components and extending their lifespan.
- Load Sharing: In multi-engine marine setups, fluid couplings facilitate load sharing between engines, ensuring each engine contributes its share of power to achieve optimal propulsion efficiency.
- Start-up Performance: Fluid couplings enable controlled and gradual acceleration during start-up, which is crucial for large vessels and applications where sudden torque spikes could damage the drivetrain or disturb the vessel’s balance.
- Overload Protection: The fluid coupling’s ability to slip at high loads provides inherent overload protection to the marine propulsion system, safeguarding it against potential damage.
Fluid couplings used in marine applications are specially designed to withstand the harsh conditions of the marine environment, including exposure to saltwater, humidity, and vibration. They are available in various sizes and configurations to accommodate different marine vessel types and power requirements.
Overall, fluid couplings offer reliable and efficient power transmission solutions for marine propulsion systems, contributing to the safe and smooth operation of the vessel.
Fluid Couplings in High-Temperature Environments
Fluid couplings are versatile power transmission devices commonly used in various industrial applications. However, their suitability for high-temperature environments depends on several factors, including the design, materials, and the specific operating conditions.
Here are some key considerations regarding the use of fluid couplings in high-temperature environments:
- Fluid Type: The type of fluid used inside the coupling greatly influences its temperature capabilities. Some fluid couplings are designed to handle higher temperatures by using specially formulated high-temperature fluids that can withstand elevated heat levels without degradation.
- Materials: The materials used in the construction of the fluid coupling play a crucial role in determining its maximum temperature tolerance. High-quality materials with good heat resistance properties are required to ensure reliable performance in high-temperature conditions.
- Lubrication: Proper lubrication is essential to reduce friction and heat generation within the fluid coupling. In high-temperature environments, ensuring sufficient and appropriate lubrication is crucial to prevent excessive wear and potential damage.
- Cooling: Some fluid couplings come equipped with cooling systems, such as cooling fins or external cooling circuits, to dissipate excess heat generated during operation. These cooling mechanisms can enhance the coupling’s capacity to handle higher temperatures.
- Application Considerations: The specific application and load requirements must be taken into account. In some cases, high-temperature conditions may be intermittent or occasional, allowing the fluid coupling to cool down between cycles. However, continuous high-temperature operation may require a more robust and specialized fluid coupling.
It is important to consult with the fluid coupling manufacturer to understand the temperature limitations and performance capabilities of their products. Manufacturers can provide guidance on selecting the appropriate fluid coupling for specific high-temperature applications.
While fluid couplings can be suitable for moderate to high-temperature environments, it is essential to operate them within their specified temperature range to ensure optimal performance and longevity. Extreme temperatures beyond the coupling’s rated limits can lead to accelerated wear, reduced efficiency, and potential damage, ultimately affecting the reliability of the power transmission system.
In summary, fluid couplings can be used in high-temperature environments, provided that the coupling’s design, materials, and lubrication are suitable for the specific application and operating conditions. Regular maintenance and adherence to the manufacturer’s guidelines are essential to ensure reliable performance and durability in such environments.
Key Components of a Fluid Coupling and Their Functions
A fluid coupling consists of several essential components that work together to transfer torque and facilitate smooth power transmission. The key components and their functions are as follows:
- Impeller: The impeller is the primary input element of the fluid coupling. It is directly connected to the driving shaft and rotates with it. The impeller’s function is to churn and circulate the fluid inside the coupling, creating a flow that generates a hydrodynamic torque.
- Runner/Turbine: The runner, also known as the turbine, is the output element of the fluid coupling. It is connected to the driven shaft and rotates with it. As the fluid from the impeller flows onto the runner, it causes the runner to rotate and transmit torque to the driven load.
- Fluid: The fluid, typically hydraulic oil, is the medium that transmits torque from the impeller to the runner. It fills the space between the impeller and the runner and allows the torque transfer to take place through hydrodynamic action.
- Filler Plug: The filler plug is used to add or drain the fluid from the fluid coupling. It allows for the adjustment of fluid levels, which can influence the coupling’s performance characteristics.
- Seal Ring: The seal ring prevents the fluid from leaking out of the fluid coupling and ensures that the coupling operates with maximum efficiency and minimal losses.
- Bearing: The bearing provides support for the input and output shafts, allowing them to rotate smoothly. Bearings are critical for maintaining alignment and reducing friction within the fluid coupling.
These key components work together to create a hydrodynamic torque transfer, enabling the fluid coupling to smoothly transmit power and torque from the driving shaft to the driven shaft without any physical contact between the two shafts.
editor by CX 2023-10-11