China Hot selling Advance HC400 Series Marine Main Propulsion Propeller Reduction Gearbox with Great quality

Product Description

Advance HC400 series marine main propulsion propeller reduction gearbox,; with Advance gearbox list as:;

Model Max Power Input
(hp/rpm);
Speed Rang
(rpm);
Reduction Ration Weight Suitable Engines
06 12.;5/2100 1000-2100 2.;52/3.;05/3.;50 58kg Yanmar TS130/TS155 Hatz E786
16A 33/2000 1000-2000 2.;07/2.;48/2.;95/3.;35/3.;83 84kg MWM D226-2,; Hatz 3M31
MA100A 37/3000 1500-3000 1.;6/2/2.;55/3.;11/3.;59/3.;88 75 Isuzu UM02AB1,; CHINAMFG ME125
MA125 82/3000 1500-3000 2.;03/2.;46/3.;04/3.;57/4.;05
/4.;39/4.;7
115 Isuzu UM02AB1,; CHINAMFG ME125
MA142 102/2500 1500-3000 1.;97/2.;52/3.;03/3.;54/3.;95/4.;5 140 Cummins 4BTA3.;9-M MWM D226-4
40A 82/2000 750-2000 2.;07/2.;96/3.;44 225 Yanmar ME400L,; Baudouin 4D
MB170 132/2500 1000-2500 1.;97/2.;52/3.;04/3.;96/4.;5/5.;06
/5.;47/5.;88
240 MWM D226-6,; CHINAMFG ME400L
HC65 163/2500 1000-2500 1.;53/2.;03/2.;5/2.;96 130 6BT5.;9-M
120B   750-1800 2.;03/2.;81/3.;73 400  
120C 340/2500 1000-2500 1.;48/1.;94/2.;45/2.;96/3.;35 225 Cummins NT855-M240,; CAT 3208TA
MV100 408/3000 1500-3000 1.;23/1.;62/2.;07/2.;52/2.;87 220 NT855-M240,; MWM D234 V8
135A 272/2000 1000-2000 2.;03/2.;59/3.;04/3.;62/4.;11/4.;65
/5.;06/5.;47/5.;81
470 NT855-M240,; CAT 3406
HCQ138 390/2600 1000-2600 1.;03/1.;5/2.;03/2.;48/2.;95 200 NT855-M240,; CAT 3406
HC138 375/2500 1000-2500 2/2.;52/3/3.;57/4.;05/4.;45 360 6135Ca,; NT855-M240
HCD138 375/2500 1000-2500 5.;05/5.;63/6.;06/6.;47 415 6135Ca,; NT855-M240
HCA138 390/2600 1000-2600 1.;095/1.;28/1.;5/2.;03/2.;52/3 200 NT855-M240,; MWM D234 V8
MB242 350/2500 1000-2500 3.;04/3.;52/3.;95/4.;53/5.;12
/5.;56/5.;88
385 NT855-M240,; CAT 3406
HC200 440/2200 1000-2200 1.;48/2/2.;28 280 NT855-M240,; CAT 3406TA
HC201 500/2500 1000-2500 2.;46/2.;955/3.;526 350 6135ZLCa,; CHINAMFG NTA855-M400
MB270A 500/2500 1000-2500 4.;05/4.;53/5.;12/5.;5/5.;95/6.;39/6.;82 675 NTA855-M400,; CAT 3406TA
HCQ300 782/2300 1000-2300 1.;05/1.;46/2.;05/2.;38 350 KTA19-M600,; 3412T,; TBD234 V12
300 805/2300 1000-2300 2.;04/2.;54/3/3.;53/4.;1/4.;61/4.;94
/5.;44
740 KTA19-M600,; TBD234 V12
D300 805/2300 1000-2300 4/4.;48/5.;05/5.;52/5.;9/6.;56/7.;06
/7.;63
940 KTA19-M600,; TBD234 V12
T300 759/2300 1000-2300 4.;95/6.;03/6.;65/7.;04/7.;54/8.;02
/8.;47
1120 KTA19-M600,; 3412T,; TBD234 V12
T300/1 611/2300 1000-2300 8.;94/9.;45 1120 KTA19-M600,; 3412T
HCA300 850/2500 1000-2500 1.;5/2/2.;57/2.;95 370 KTA19-M600,; 3412T,; TBD234 V12
M300 850/2300 1000-2300 1.;45/2/2.;52/3.;05/3.;45/3.;94 700 KTA19-M600,; TBD234 V12
MD300 850/2300 1000-2300 3.;96/4.;48/4.;96/5.;52/5.;9 940 KTA19-M600,; TBD234 V12
HCQ400 810/1800 1000-2300 1.;5/2.;04/2.;5/3/3.;42/3.;77/4.;06
/4.;61/4.;94
1100 KT38-M800,; TBD604BL6,; 3412TA
HC400 810/1800 1000-2300 1.;5/2.;04/2.;5/3/3.;42/3.;77/4.;06
/4.;61/4.;94
820 3412TA,; TBD604BL6
HCD400A 810/1800 1000-1800 3.;96/4.;33/4.;43/4.;476/4.;7/5/5.;53
/5.;7/5.;89
1100 KT38-M800,; TBD604BL6
HCT400A 945/2100 1000-2100 6.;09/6.;49/6.;93/7.;42/7.;95/8.;4
/9/9.;47
1450 KT38-M800,; 6BD604BL6
HCT400A/1 945/2100 1000-2100 8.;15/8.;69/9.;27/10.;6/11.;46/12 1500 KTA38-M800,; 3412TA,; TBD604BL6
HCQ501 1265/2300 1000-2300 1.;03/1.;46/2/2.;45 560 KTA38-M940,; 3508B,; TBD234 V16
HCQ502 1265/2300 1000-2300 2.;95 700 KTA38-M940,; 3508TA,; TBD234 V16
HC600A 1365/2100 1000-2100 2/2.;48/3/3.;58/3.;89 1300 KTA38-M1045,; 3508B,; TBD604B V8
HCD600A 1365/2100 1000-2100 4.;18/4.;43/4.;7/5/5.;44/5.;71 1550 KTA38-M1045,; 3508B,; TBD604B V8
HCT600A 1260/2100 1000-2100 6.;06/6.;49/6.;97/7.;51/8.;04/8.;66/9.;35 1600 KTA38-M940,; 3508TA,; TBD234 V16
HCT600A/1 1260/2100 1000-2100 7.;69/8.;23/8.;82/9.;47/10.;1/10.;8
/11.;65/12.;57/14.;44
1700 KTA38-M940,; TBD234 V16
HCD800 1530/1800 1000-1800 3.;429/3.;96/4.;391/4.;905/5.;474/5.;889 1900 6190Z1CZ,; CW6200,; KTA38-M1
HCT800 1530/1800 800-1800 4.;95/5.;57/5.;68/5.;93/6.;43/6.;86
/7.;33/7.;84
2000 KTA38-M
HCT800-1   800-1800 6.;91/7.;28/7.;69/8.;12/8.;6/9.;12
/9.;68/10.;3/10.;98/11.;76/12.;43
/13.;17/13.;97/14.;85/15.;82/16.;58
3200  
HC900 1440/1600 600-1600 1.;46/2.;04/2.;47/3/3.;6/4.;08/4.;63/4.;95 1600 12V190DC,; M200
HCT1100 1841/1600 700-1600 5.;6/5.;98/6.;39/6.;85/7.;35/7.;9 3000 CW6200
HC1200   600-1900 2.;03/2.;5/2.;96/3.;55/3.;79/4.;05/4.;2/4.;47 2000  
HC1250 1654/1800 400-1800 2.;03/2.;48/3.;04/3.;48/3.;96 2200 CW8200ZC,; 6210ZL,; Z12V190
HC701 1286/2400 1200-2400 1.;93/2.;58/2.;9/3.;26/3.;91/4.;6/5.;17
/6.;18/7/7.;47
2000 KTA38-M2

manufactured by 1 of the biggest gearbox manufacturer in China,; with technologies
introduced from Bosch,; Twindisc,; Eaton,; etc.;
Besides gearbox,; we mainly sell diesel/petrol engines and related spare parts,; with brands
including:; Cummins,; Deutz,; CAT,;Isuzu,; VM,; Toyota,; Mitsubishi,; Suzuki,; Yuchai,;
Weichai,; Changchai,; etc,; for various applications,; such as automobile,; bus,; coach,; van,; truck,;
bulldozer,; forklift,; excavator,; road roller,; wheel loader,; hoister,; generator,; water pump,;
fire pump,; marine main propulsion,; marine auxiliary,; etc.;

Application: Marine, Marine
Hardness: Hardened
Type: Circular Gear
Typical Engines: Cat 3412ta, Mwm Tbd604bl6
Material: Stainless Steel
Overall Dimension: 641*890*980mm

plastic gear

Can plastic gears be used in food and beverage processing machinery?

Plastic gears can be used in food and beverage processing machinery in certain applications. Here’s a detailed explanation of their suitability:

Plastic gears offer several advantages that make them a viable choice for certain food and beverage processing machinery applications:

  • Corrosion Resistance: Many plastic materials, such as certain types of polypropylene (PP) or polyethylene (PE), exhibit excellent resistance to corrosion and chemical attack. This makes them suitable for use in food and beverage processing environments where exposure to acidic or alkaline substances, cleaning agents, or food ingredients is common.
  • Hygienic Properties: Plastic gears can be designed to have smooth surfaces without any cracks, crevices, or pores, which can harbor bacteria or contaminants. This makes them easier to clean and sterilize, promoting hygienic conditions in food and beverage processing machinery.
  • Lightweight: Plastic gears are generally lighter than metal gears, which can be advantageous in applications where weight reduction is desired. The reduced weight can simplify machinery design, reduce energy consumption, and ease handling during maintenance or equipment assembly.
  • Noise Reduction: Plastic gears, with their inherent damping characteristics, can help reduce noise levels in food and beverage processing machinery. This is particularly beneficial in settings where noise control is crucial for maintaining a comfortable working environment.
  • Non-Toxicity: Food-grade plastic materials, such as certain types of polyethylene terephthalate (PET) or polytetrafluoroethylene (PTFE), are approved for contact with food and beverages. These materials comply with regulatory standards for food safety and do not leach harmful substances into the processed products.
  • Design Flexibility: Plastic gears offer greater design flexibility compared to metal gears. They can be molded into complex shapes and incorporate features such as self-lubrication, noise reduction, or specific gear profiles to optimize performance for food and beverage processing applications.

However, it’s important to note that there are certain considerations and limitations when using plastic gears in food and beverage processing machinery:

  • Operating Conditions: Plastic gears have temperature limitations and may not be suitable for applications involving high temperatures or extreme temperature fluctuations. It’s essential to select plastic materials that can withstand the specific temperature range of the processing environment.
  • Load Requirements: Plastic gears typically have lower load-bearing capacities compared to metal gears. They may not be suitable for heavy-duty applications that require withstanding high torque or significant forces. Careful consideration should be given to the torque and load requirements of the specific machinery application.
  • Application-Specific Requirements: Some food and beverage processing machinery applications may have unique requirements, such as high-speed operation, abrasive ingredients, or frequent cleaning cycles. It’s crucial to assess whether plastic gears can meet these specific requirements and evaluate the need for additional reinforcements or modifications.

Overall, plastic gears can be successfully used in food and beverage processing machinery for suitable applications, offering benefits such as corrosion resistance, hygienic properties, lightweight design, noise reduction, and compliance with food safety standards. However, proper material selection, design considerations, and a thorough understanding of the application’s requirements are important to ensure the reliable and safe operation of the machinery.

plastic gear

How do plastic gears handle lubrication and wear?

Plastic gears handle lubrication and wear differently compared to metal gears. Here’s a detailed explanation of their behavior:

1. Lubrication in Plastic Gears: Lubrication plays a crucial role in the performance and longevity of plastic gears. While metal gears often require continuous lubrication, plastic gears have different lubrication requirements due to their inherent properties. Here are some key considerations:

  • Self-Lubrication: Some plastic materials, such as certain formulations of polyoxymethylene (POM), have inherent self-lubricating properties. These materials have a low coefficient of friction and can operate with minimal lubrication or even dry. Self-lubricating plastic gears can be advantageous in applications where the use of external lubricants is impractical or undesirable.
  • Lubricant Compatibility: When external lubrication is necessary, it’s important to choose lubricants that are compatible with the specific plastic material used in the gears. Certain lubricants may degrade or adversely affect the mechanical properties of certain plastics. Consultation with lubricant manufacturers or experts can help identify suitable lubricants that won’t cause degradation or wear issues.
  • Reduced Lubricant Requirements: Plastic gears generally have lower friction coefficients compared to metal gears. This reduced friction results in lower heat generation and less wear, which in turn reduces the demand for lubrication. Plastic gears may require less frequent lubricant replenishment or lower lubricant volumes, reducing maintenance requirements.
  • Appropriate Lubricant Application: When applying lubricant to plastic gears, care should be taken to avoid excessive amounts that could lead to contamination or leakage. Lubricants should be applied in a controlled manner, ensuring they reach the critical contact points without excessive buildup or excess spreading beyond the gear surfaces.

2. Wear in Plastic Gears: Plastic gears exhibit different wear characteristics compared to metal gears. While metal gears typically experience gradual wear due to surface interactions, plastic gears may undergo different types of wear mechanisms, including:

  • Adhesive Wear: Adhesive wear can occur in plastic gears when high loads or speeds cause localized melting or deformation at the gear teeth contact points. This can result in material transfer between gear surfaces and increased wear. Proper material selection, gear design optimization, and lubrication can help minimize adhesive wear in plastic gears.
  • Abrasive Wear: Abrasive wear in plastic gears can be caused by the presence of abrasive particles or contaminants in the operating environment. These particles can act as abrasive agents, gradually wearing down the gear surfaces. Implementing effective filtration or sealing mechanisms, along with proper maintenance practices, can help reduce abrasive wear in plastic gears.
  • Fatigue Wear: Plastic materials can exhibit fatigue wear under cyclic loading conditions. Repeated stress and deformation cycles can lead to crack initiation and propagation, ultimately resulting in gear failure. Proper gear design, material selection, and avoiding excessive loads or stress concentrations can help mitigate fatigue wear in plastic gears.

3. Gear Material Selection: The choice of plastic material for gears can significantly impact their lubrication and wear characteristics. Different plastic materials have varying coefficients of friction, wear resistance, and compatibility with lubricants. It’s important to select materials that offer suitable lubrication and wear properties for the specific application requirements.

4. Operational Considerations: Proper operating conditions and practices can also contribute to the effective handling of lubrication and wear in plastic gears. Avoiding excessive loads, controlling operating temperatures within the material’s limits, implementing effective maintenance procedures, and monitoring gear performance are essential for ensuring optimal gear operation and minimizing wear.

In summary, plastic gears can handle lubrication and wear differently compared to metal gears. They may exhibit self-lubricating properties, reduced lubricant requirements, and require careful consideration of lubricant compatibility. Plastic gears can experience different types of wear, including adhesive wear, abrasive wear, and fatigue wear. Proper material selection, gear design, lubrication practices, and operational considerations are crucial for ensuring efficient lubrication and minimizing wear in plastic gears.

plastic gear

What are plastic gears and how are they used?

Plastic gears are gear components made from various types of polymers or plastic materials. They offer unique properties and advantages compared to traditional metal gears. Here’s a detailed explanation of plastic gears and their applications:

  • Types of Plastic Materials: Plastic gears can be manufactured from different types of polymers, including thermoplastics such as acetal (polyoxymethylene – POM), nylon (polyamide – PA), polycarbonate (PC), and polyethylene (PE), as well as thermosetting plastics like phenolic resins. Each material has its own specific characteristics, such as strength, wear resistance, and temperature resistance, which make them suitable for different applications.
  • Advantages of Plastic Gears: Plastic gears offer several advantages over metal gears, including:
    • Lightweight: Plastic gears are lighter in weight compared to metal gears, which can be beneficial in applications where weight reduction is important.
    • Low Noise and Vibration: Plastic gears can provide quieter operation due to their inherent damping properties that reduce noise and vibration levels.
    • Corrosion Resistance: Certain plastic materials used in gear manufacturing exhibit excellent resistance to corrosion and chemicals, making them suitable for applications in corrosive environments.
    • Self-Lubrication: Some plastic materials have self-lubricating properties, reducing the need for external lubrication and simplifying maintenance.
    • Cost-Effective: Plastic gears can be more cost-effective compared to metal gears, especially in large-scale production, due to the lower material and manufacturing costs.
  • Applications of Plastic Gears: Plastic gears find applications in various industries and systems, including:
    • Automotive: Plastic gears are used in automotive systems such as windshield wipers, HVAC systems, seat adjusters, and electric power steering systems.
    • Consumer Electronics: Plastic gears are commonly found in consumer electronics like printers, scanners, cameras, and home appliances.
    • Medical Devices: Plastic gears are used in medical equipment and devices where weight reduction, low noise, and corrosion resistance are desired.
    • Toy Manufacturing: Plastic gears are extensively used in the production of toys, including mechanical toys, hobby models, and educational kits.
    • Office Equipment: Plastic gears are employed in office equipment like printers, copiers, and scanners, where quiet operation and cost-effectiveness are important.
    • Industrial Machinery: Plastic gears can be utilized in various industrial machinery applications, such as conveyor systems, packaging equipment, and textile machinery.

It’s important to note that while plastic gears offer unique advantages, they also have limitations. They may not be suitable for applications requiring extremely high torque, high temperatures, or where precise positioning is critical. The selection of plastic gears should consider the specific requirements of the application and the mechanical properties of the chosen plastic material.

China Hot selling Advance HC400 Series Marine Main Propulsion Propeller Reduction Gearbox with Great qualityChina Hot selling Advance HC400 Series Marine Main Propulsion Propeller Reduction Gearbox with Great quality
editor by CX 2023-10-18