China supplier All Kinds of Color T40 – T210 Sbt Elastic Spider, Sbt Polyurethane Couplingfor Jaw Coupling

Product Description

All Kinds of Color T40 – T210 Sbt Elastic Spider, Sbt Polyurethane Couplingfor Jaw Coupling

Advabtages:
1. Extremely resistant to wear, oil, CHINAMFG and ageing. Also resistant to hydrolysis (ideal for tropical climates)
2. Protect the drive against dynamic overload.
3. Good physical properties.
4. Easy installation .
5. OEM
 
Technical Data
Operating conditions
Temperature: -40~+100°C
Torque:  22.4-2500NM
 
Material
Material: NBR, CPU/TPU
Hardness: 70, 90, 95, 98 Shore A
 
 

Specifications:
product advantage	1. Widely used in all kinds of water pumps
	2. Easy installation
Material composition	TPU, NBR
Working Temperature	-30ºC~+100ºC
Product hardness(shore A)	TPU:90, 95, 98+-2shore A, NBR:70+/-5shore A
Torque	22.4-2500NM
Size	any regular size or based on customer request
Color	black or natural
Logo	Yierka or customer logo is available
working midea	water, oil
OEM&ODM	welcome
Sample lead time	Within 7 days
Production lead time	15 days or as per customers’ order quantity
Ship menthods	by ocean/air or express is okay
Delivery port	HangZhou, ZheJiang or ZheJiang
Payment terms	1.T/T 2. L/C 3. Western Union
Our Advantage:	1.nearly 10 years manufacturing experience
	skilled workers, technology are abuntant.
	2.In 1991,we cooperate with Chinese Academy of Science conducting the cooperation for seal technology applying in the mine, hydraulic and pneumatic system and engineering system.

 

Normal Size part number ID(mm) OD(mm) H(mm) SBT-40 18 40 10 SBT-45 20 45 10 SBT-56 27 56 15 SBT-62 30 62 15 SBT-65 30 65 15 SBT-75 35 75 15 SBT-79 40 79 15 SBT-90 45 90 18 SBT-94 45 94 18 SBT-104 55 104 23 SBT-108 55 108 24 SBT-126 60 126 28 SBT-133 60 133 25 SBT-154 79 154 27 SBT-170 80 170 28 SBT-175 85 175 30 SBT-180 90 180 30 SBT-200 100 200 36

 
 
 
standard size for polyurethane coupling: 
GR14, GR19, GR24, GR28, GR38, GR42, GR48, GR55, GR65, GR75, GR90, GR100, GR110, GR125, GR140, GR160, GR180
GS14, GS19, GS24, GS28, GS38, GS42, GS48, GS55, GS65, GS75, GS90, GS100, GS110, GS125, GS140, GS160, GS180
MT1, MT2, MT3, MT4, MT5, MT6, MT7, MT8, MT9, MT10, MT11, MT12, MT13
ML1, ML2, ML3, ML4, ML5, ML6, ML7, ML8, ML9, ML10, ML11, ML12, ML13
MH45, MH55, MH65, MH80, MH90, MH115, MH130, MH145, MH175, MH200
HRC70, HRC90, HRC110, HRC130, HRC150, HRC180, HRC230, HRC280
L35, L50, L70, L75, L90/95, L99/100, L110, L150, L190, L225, L276
FALK-R 10R, 20R, 30R, 40R, 50R, 60R, 70R, 80R
T40, T45, T50, T55, T60, T65, T70, T75, T80, T85, T90, T95, T100, T105, T108, T110, T115, T120, T125, T130, T135, T140, T145, T150, T154, T170, T185, T190, T210
standard size for rubber coupling:
Hb80, Hb95, Hb110, Hb125, Hb140, Hb160, Hb180, Hb200, Hb240, Hb280, Hb315
HRC70, HRC90, HRC110, HRC130, HRC150, HRC180, HRC230, HRC280
L35, L50, L70, L75, L90/95, L99/100, L110, L150, L190, L225
NM50, NM67, NM82, NM97, NM112, NM128, NM148, NM168, NM194, NM214, NM240, NM265
Gear 3J, 4J, 5J, 6J, 7J, 8J, 9J, 10J, 11J
special size build molding according to the buyer’s drawings
standard size for nylon coupling:
NL1, NL2, NL3, NL4, NL5, NL6, NL7, NL8, NL9, NL10
special size build molding according to the buyer’s drawings
***when you enquiry, pls confirm product’s number and quantity***

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Torque and Speed Ratings for Different Sizes of Jaw Couplings

The torque and speed ratings for jaw couplings vary depending on their size and design. Manufacturers typically provide specifications for different sizes of jaw couplings, and it’s essential to select the appropriate coupling based on the specific requirements of the application. Here’s how torque and speed ratings are determined for jaw couplings:

• Torque Rating: The torque rating of a jaw coupling is the maximum amount of torque it can transmit without causing failure. It is typically specified in Newton-meters (Nm) or inch-pounds (in-lb). Larger jaw couplings generally have higher torque ratings than smaller ones, as they can accommodate more substantial loads.
• Speed Rating: The speed rating of a jaw coupling refers to the maximum rotational speed at which it can operate efficiently and reliably. It is usually specified in revolutions per minute (RPM). Higher-speed applications may require jaw couplings designed to handle increased rotational velocities.

It’s essential to carefully match the torque and speed requirements of the application with the appropriate jaw coupling size. Undersized couplings may result in premature failure, while oversized couplings might lead to reduced flexibility and increased wear. Manufacturers’ catalogs or product datasheets provide detailed information on the torque and speed ratings for each coupling size, helping engineers and designers make informed decisions when selecting the right coupling for their specific needs.

What are the factors influencing the thermal performance of a jaw coupling?

The thermal performance of a jaw coupling is influenced by several factors that affect its ability to dissipate heat and handle temperature fluctuations during operation. Here are the key factors that can impact the thermal performance of a jaw coupling:

• Material Selection: The choice of materials used in the construction of the jaw coupling plays a significant role in its thermal performance. High-quality materials with good thermal conductivity can efficiently dissipate heat, reducing the risk of overheating and premature wear. Common materials used in jaw couplings include steel, aluminum, and various elastomers.
• Elastomer Spider: The elastomer spider in the jaw coupling is a crucial component that can influence thermal performance. The type of elastomer and its specific characteristics, such as hardness and thermal conductivity, can affect the coupling’s ability to absorb and dissipate heat generated during operation.
• Operating Speed: The rotational speed of the coupling impacts its thermal performance. Higher operating speeds can generate more heat due to increased friction and stress on the coupling components. It is essential to ensure that the jaw coupling is rated for the specific operating speed of the application to prevent overheating and premature failure.
• Torque and Load: The torque and load applied to the jaw coupling can also influence its thermal performance. Higher torque and load levels can result in increased heat generation. Properly sizing the coupling based on the application’s torque and load requirements is essential to prevent excessive heat buildup.
• Operating Environment: The environment in which the jaw coupling operates can impact its thermal performance. For example, if the coupling is located in an area with limited airflow or high ambient temperatures, it may experience reduced heat dissipation capabilities. On the other hand, an environment with good ventilation can help in maintaining the coupling’s thermal performance.
• Lubrication: Some jaw couplings may require lubrication to reduce friction and heat generation. Proper lubrication can enhance the coupling’s thermal performance and extend its service life. It is essential to follow the manufacturer’s guidelines regarding the type and frequency of lubrication to ensure optimal performance.
• Continuous vs. Intermittent Operation: The thermal performance of a jaw coupling can also be influenced by the nature of its operation—continuous or intermittent. Intermittent operation allows the coupling to cool down between cycles, reducing the overall heat buildup compared to continuous operation, which may lead to higher operating temperatures.

Overall, careful consideration of these factors is crucial in ensuring the efficient thermal performance of a jaw coupling. Proper selection, installation, and maintenance of the coupling based on the specific application requirements can help prevent overheating, reduce wear, and prolong the coupling’s lifespan.

Limitations and Disadvantages of Using Jaw Couplings

While jaw couplings offer several advantages, they also have some limitations and disadvantages that should be considered when selecting them for specific applications:

• Angular Misalignment: Jaw couplings are sensitive to angular misalignment, and excessive misalignment can lead to increased wear and reduced service life.
• Radial Misalignment: Similar to angular misalignment, radial misalignment should be kept within acceptable limits to prevent premature wear.
• Temperature Limitations: The operating temperature range of jaw couplings may be limited by the material used. For high-temperature applications, other coupling types may be more suitable.
• Shock Load Absorption: While jaw couplings can handle moderate shock loads, they may not be ideal for applications with severe shock loads, which can lead to increased stress and failure.
• Torsional Stiffness: Jaw couplings have a certain level of torsional stiffness, which means they may not provide the same level of vibration isolation as other coupling types.
• Backlash: Jaw couplings can have some degree of backlash due to their elastomeric element, which may not be desirable in precision positioning applications.
• Speed Limitations: High-speed applications may require careful consideration of the jaw coupling’s design and material selection to avoid issues related to centrifugal forces.

Despite these limitations, jaw couplings remain a popular choice in many applications due to their ease of installation, simple design, and cost-effectiveness. Proper selection, installation, and maintenance can help mitigate some of these limitations and ensure optimal performance and reliability of the jaw coupling.

editor by CX 2024-04-29