Product Description
COMPANY PROFILE | |||||
HangZhou HangZhoun Steel Co., Ltd is honored import and export rights by government. We are the professional manufacturer and exporter of special steel and steel solution provider. We worked in steel industry more than 15years, always to provide high quality, competitive price and good solution for customers. We owned good honors in domestic market and abroad market. Our products widely exported to EU,Asia, Middle east, Lati- america, Japan, Korea, Australia, and so on. |
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Our main products. Raw material in steel round bar, steel flat, steel plate, steel tube in carbon steel, alloy steel, tool steel, mould steel , bearing steel, stainless steel, super alloy, special alloy. And roller, shafts, cylinder, steel plank, steel rings, by casting, rolling, forged. Forgings according to drawings. We also provide steel machinery processing service, steel cut,steel milling, heat treatment, and mould base by CNC. Welcome to visit us and audit our factory. We insist on Quality First, Credit Frist. Hope we have chance to cooperate, and build long term business relations ! |
DESCRIPTION | |||||
Item | Shaft, Axle,Roller Ring | ||||
Application | Cranes, Railway way, mineral Machinery, hydraulic Machinery, Spare parts etc. | ||||
Design | Can be at the customer’ request, tailor-made, at customer’s design | ||||
Material | Stainless Steel or Carbon Steel, such as 45#, 65# SAE4140, SAE4150, SAE4160, 42CrMo, stainless steel 410, stainless steel 304, or other required steel | ||||
Size | Diameter 80mm to 2000mm. Length max.in 6000mm | ||||
Minimum order | 1Pcs |
product photo | |||||
Measurement | |||||
Factory | |||||
Packing and Shipping | |||||
Q&A |
Q:Can you send samples? |
A:A:We could send you the samples,sample cost is according to actual material cost and transport fee should be paid by you. |
Q:What product information do I need to provide? |
A:You need to provide the grade, width, thickness, coating and the number of tons you need to purchase. |
Q:What are the shipping ports? |
A:Under normal circumstances, we ship from ZheJiang , ZheJiang , HangZhou, HangZhou ports, you can choose other ports according to your needs. |
Q:How long does your delivery time take? |
A:In general, our delivery time is within 7-45 days, and may be delayed if the demand is extremely large or special circumstances occur. |
Q:Can I go to your factory to visit? |
A:Of course, we welcome customers from all over the world to visit our factory. |
Q:Does the product have quality inspection before loading? |
A:Of course, all our products are strictly tested for quality before packaging, and unqualified products will be destroyed. |
Q:Why choose us? |
A:Quality first is our faith,price is competitive,and we have worked in steel industrial more than 15 years,we have professional team and engineers can give technical support and service to meet your projects request.Welcome to visit us. |
Q:What is your terms of payment? |
A:We usually accept 30% T/T in advance.70% in the period of shipment.L/Cand other payment can negotiated. |
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Material: | Alloy Steel |
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Load: | Drive Shaft |
Stiffness & Flexibility: | Flexible Shaft |
Journal Diameter Dimensional Accuracy: | IT6-IT9 |
Axis Shape: | Straight Shaft |
Shaft Shape: | Stepped Shaft |
Samples: |
US$ 15000/Ton
1 Ton(Min.Order) | |
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Customization: |
Available
| Customized Request |
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Can you explain the impact of gear shaft misalignment on gear performance?
Gear shaft misalignment can have a significant impact on the performance of gears within a system. When gear shafts are not properly aligned, several issues can arise, affecting the overall functionality and reliability of the gears. Let’s explore the impact of gear shaft misalignment in detail:
- Reduced Efficiency:
Misalignment causes a loss of efficiency in gear systems. When gear shafts are misaligned, the teeth of the gears do not mesh correctly, leading to increased friction and energy losses. This results in reduced power transmission efficiency, as a portion of the input power is dissipated as heat instead of being effectively transferred through the gears.
- Increased Wear and Fatigue:
Misalignment can lead to uneven contact and loading between gear teeth. This uneven distribution of forces causes localized high-stress areas on the gear teeth, leading to accelerated wear and fatigue. The concentrated stress on specific areas of the teeth can result in pitting, wear, and even tooth breakage over time. Increased wear and fatigue significantly reduce the lifespan of gears and can lead to unexpected failures.
- Noise and Vibration:
Gear shaft misalignment often results in increased noise and vibration levels within the gear system. As the misaligned teeth engage, they generate excessive noise due to impact and increased friction. The vibrations caused by the misalignment can propagate through the gear assembly and the surrounding components, causing additional noise and potentially affecting the performance and lifespan of the entire system.
- Loss of Tooth Contact:
Misalignment can cause a loss of proper tooth contact between the gears. Insufficient tooth contact reduces the load-carrying capacity of the gears and compromises the transmission of torque. The reduced contact area also increases the likelihood of localized stress concentrations, leading to premature wear and failure.
- Overloading and Unbalanced Loads:
Gear shaft misalignment can result in overloading and unbalanced loads on the gears. Misalignment can cause uneven distribution of forces, with some teeth bearing a higher load than others. This can lead to excessive stress on specific gear teeth, potentially exceeding their load-carrying capacity. Over time, the overloading of certain teeth can result in accelerated wear, tooth breakage, and even catastrophic gear failure.
- Seal and Bearing Issues:
Misalignment can also affect the performance of seals and bearings within the gear system. Misaligned gear shafts can create additional radial or axial loads on the bearings, reducing their lifespan and causing premature failure. Seal integrity can also be compromised, leading to leaks and contamination of the gear system, further exacerbating the issues associated with misalignment.
In summary, gear shaft misalignment has a detrimental impact on gear performance. It reduces efficiency, increases wear and fatigue, generates noise and vibration, causes loss of tooth contact, leads to overloading and unbalanced loads, and affects the performance of seals and bearings. Proper alignment of gear shafts is crucial to ensure optimal gear performance, longevity, and reliable power transmission within the gear system.
How do you select the appropriate material for constructing a gear shaft?
Selecting the appropriate material for constructing a gear shaft is crucial for ensuring its durability, strength, and overall performance within a mechanical system. Several factors need to be considered when choosing the material for a gear shaft. Let’s explore the process of selecting the appropriate material:
- Load and Torque Requirements:
The first step in material selection is assessing the load and torque requirements of the gear shaft. Consider the maximum load the gear shaft will experience during operation, as well as the torque it needs to transmit. These factors determine the material’s strength and fatigue resistance needed to withstand the applied forces without deformation or failure.
- Wear Resistance:
Gears undergo constant contact and sliding motion, which can lead to wear over time. Therefore, it is important to consider the wear resistance of the material for the gear shaft. Materials with high hardness, such as hardened steels or specific alloys, are often preferred due to their ability to resist wear and withstand the repetitive contact between gear teeth.
- Fatigue Resistance:
Gear shafts are subjected to cyclic loading, which can cause fatigue failure if the material is not able to withstand these repeated stress cycles. It is essential to choose a material with good fatigue resistance to ensure that the gear shaft can withstand the expected number of load cycles without premature failure. Steels with appropriate alloying elements or specialized alloys like nickel-chromium-molybdenum alloys are commonly used for their high fatigue resistance.
- Torsional Strength:
Torsional strength refers to a material’s ability to resist twisting or torsional forces. Gear shafts transmit torque, and therefore, the selected material should have sufficient torsional strength to handle the applied torque without excessive deformation or failure. Steels, particularly those with high carbon content, are often chosen for their excellent torsional strength.
- Heat Treatment Capability:
The ability to heat treat the material is an important consideration in gear shaft selection. Heat treatment processes like quenching and tempering can significantly enhance the mechanical properties of certain materials, such as steels. Heat treatment can improve hardness, strength, and toughness, allowing the gear shaft to withstand higher loads and provide better performance.
- Corrosion Resistance:
In applications where the gear shaft may be exposed to corrosive environments, selecting a material with good corrosion resistance is essential. Stainless steels or corrosion-resistant alloys like bronze or brass are often used to prevent degradation due to moisture, chemicals, or other corrosive agents.
- Manufacturability and Cost:
Considerations of manufacturability and cost are also important in material selection. The chosen material should be readily available, easily machinable, and cost-effective for the specific application. Balancing the desired material properties with manufacturing feasibility and cost constraints is crucial to achieve an optimal solution.
In summary, selecting the appropriate material for constructing a gear shaft involves considering factors such as load and torque requirements, wear resistance, fatigue resistance, torsional strength, heat treatment capability, corrosion resistance, manufacturability, and cost. Evaluating these factors enables the identification of a material that can provide the necessary strength, durability, and overall performance for the gear shaft within the specific mechanical system.
What industries commonly use gear shafts in their applications?
Gear shafts find applications in various industries where the transmission of motion and power is necessary. They are widely utilized in numerous sectors that rely on machinery and mechanical systems. Here are some industries that commonly use gear shafts in their applications:
- Automotive Industry:
The automotive industry extensively uses gear shafts in vehicles. Gear shafts are present in the transmission systems, where they transmit power and torque between the engine and the wheels. They enable gear shifting, torque conversion, and speed control, contributing to the overall performance and drivability of automobiles.
- Industrial Manufacturing:
Industrial manufacturing sectors, such as machinery manufacturing, rely heavily on gear shafts. They are used in various types of machinery, including lathes, milling machines, conveyor systems, and assembly lines. Gear shafts enable power transmission, motion control, and torque conversion in these machines, facilitating the production and processing of goods.
- Aerospace and Defense:
In the aerospace and defense industries, gear shafts are crucial components in aircraft engines, helicopters, and military vehicles. They play a vital role in transmitting power and torque between the engines and propellers or rotors, providing the necessary thrust and control. Gear shafts in these applications must meet stringent performance and reliability requirements.
- Power Generation:
Gear shafts are utilized in power generation industries, including thermal power plants, hydroelectric plants, and wind turbines. They facilitate the transfer of rotational motion and torque from turbines or generators to power transmission systems. Gear shafts in these applications often handle high-power outputs and must be designed to withstand demanding operating conditions.
- Construction and Mining:
The construction and mining industries commonly employ gear shafts in heavy machinery and equipment. Gear shafts are found in excavators, bulldozers, cranes, and drilling rigs, among others. They enable power transmission and torque conversion, allowing these machines to perform tasks such as digging, lifting, and drilling with precision and efficiency.
- Marine and Shipbuilding:
Gear shafts are essential components in marine applications, including ships, boats, and marine propulsion systems. They are utilized in marine engines, propellers, and thrusters, enabling the transmission of power and torque for propulsion and maneuvering. Gear shafts in marine environments must be corrosion-resistant and capable of withstanding the harsh conditions of saltwater and vibrations.
- Renewable Energy:
In the renewable energy sector, gear shafts are used in wind turbines and solar tracking systems. They facilitate the transfer of rotational motion and torque from wind or solar power sources to generators or energy storage systems. Gear shafts play a vital role in converting and optimizing the energy generated from renewable sources.
These are just a few examples of industries that commonly use gear shafts in their applications. Gear shafts are versatile components that are integral to the functioning of machinery and mechanical systems across various sectors.
editor by CX 2024-01-04