Product Description
Product Description
| Name | CNC machine plastic parts |
| Material | Nylon,PEEK,PI,PEI,PU,PA6,POM,PE,UPE,PTFE,ABS,PC,PP,PS,PMMA,PBT,PVC,PA66,PA66+30%GF,TPE. Etc. |
| Color | White, black, green, nature, blue, yellow, etc. |
| Condition | In stock/ Made to order |
| Style | Injection molding , Compression molding |
| Shape | As per your drawing |
| Physical Properties | Physical Properties of Common Engineering Plastics |
| Other Shape | Sheet, rod, tube, gear, rack, pulley, guide rail, plastics fittings, and so on |
| Packing | Plastic bags, Cartons, Wooden case, Pallet, Container, etc. |
| Other | Shipping status notification during delivery. Regular notification of new styles & hot selling styles. |
| Feature: | Good abrasion resistance |
| Application | Industry, medical and pharmaceutical, semiconductor, photovoltaic energy, chemical electronics, communications Etc. |
| Sample | General free sample ,Normally is USD 30~110 per Style If Special Design We Need Sample Charge, and we will Refund when You Have Official Bulk Order. |
| Sample time | General 3-7 days after got your drawing and payment |
| Delivery | By Air or Sea. If Choose by Air, it is Faster Like You Purchase from the Local Market. |
Detailed Photos
High Quality Customized High Hardness Cnc Nylon Plastic Gear
Company Profile
HangZhou CHINAMFG rubber & Plastic Products Co. , Ltd. was founded in 2015, formerly known as HangZhou Xihu (West Lake) Dis. Rubber Factory was founded in 1976, is a scientific research, production and sales of modern enterprises. The company is located in the outskirts of HangZhou, the ancient capital of the 6 dynasties, the emperor Ganlong praised as “Xihu (West Lake) Dis. Holy Land” of Xihu (West Lake) Dis. District, is the national professional industrial rubber plate production base.
The company’s main products are industrial rubber sheet, Special Industrial Rubber Sheet, non-slip Rubber Sheet, CHINAMFG Rubber Mat, insulating rubber sheet, waterproof rubber sheet, rubber lining, door and window sealing strip, CHINAMFG foam sponge strip, rubber mould products and moulds, PTFE and Nylon Plate, PTFE and Nylon Rod, PTFE and nylon accessories.
With strong Technical Force, a high-level professional research team, and with the relevant universities, scientific research institutes to maintain long-term cooperation and exchange, continue to develop new products to meet the needs of different users. And strictly in accordance with national standards and user requirements, combining enterprise ISO9 tons 1 year .
2.Is your company governmental or private?
It is a private company.
3. How many employees in your company?How many for production,and how many office people?
There are about 1000 employees. 900 for production, and 100 for office people.
4. How many tons can you produce each day?How many containers do you export every month?
We can produce 100 tons each day,and for exporting 500 containers around.
5. What’s your annual sales volume?
Around 35 millions US dollar.
6. How do you control your quality?
We inspect 3 steps:raw material inspection,during production inspection and before warehousing inspection.
7. How often do you inspect your products?
For physical testing,we test every batch,it’s about every 1 hundred meters.
For the surface and size,we check every roll after production and before warehousing.
8. Can you print our logo on the rubber sheet or package bags?
Yes,we can print the logo as customer’s design.
9. What’s your product guarantee period?
Under the condition in the warehouse,we can guarantee 2 years no cracks even on our lowest grade product.On used products,it should depend on the using condition.
10. What certificate have you passed?
Our factory has passed ISO9001.Our product has passed reach standard testing,and SGS certificate.
11. What about the payment ?
TT LC cash
12. Is OEM available ?
We can produce as customer ideas.
13. How to deal with the faulty products once we got ?
First ,find the reason ,it is the products problem or damaged by the transportation ,no matter what the reason is ,we will change a new part .
14.How to check the quality before shipment ?
You can come to check by yourself, your friend or the third checking institution. Also can by video.
15. Is sample available ?
We can arrange free sample , but the international courier charge is by your side .
Products application
High Quality Customized High Hardness Cnc Nylon Plastic Gear
Factory environment
some other products
High Quality Customized High Hardness Cnc Nylon Plastic Gear
High Quality Customized High Hardness Cnc Nylon Plastic Gear
Company other products :
1. Industrial Rubber sheet : SBR, NBR,CR, EPDM,Silicone, , Nature,Fireproof ,waterproof , ESD, insulation rubber sheet
2. Gym rubber floor : granular rubber tile , dog bone rubber tile , EPDM rubber rolls
3. OEM Rubber parts
4. door and window sealing strip
5. CNC plastic products
product-group/xohfkSQYvLWP/Plastic-productions-catalog-1.html
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| Plastic Type: | Thermosetting Plastic |
|---|---|
| Plastic Form: | Granule |
| Molding Method: | Compression Molding |
| Color: | White, Blue, Red, Green, Brown, Yellow, Nature |
| Material: | Nylon, PA, POM, PE, Upe, PTFE, PVC, ABS |
| Physical Properties: | Physical Properties of Common Engineering Plastics |
| Samples: |
US$ 0/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
How do you choose the right type of plastic material for specific applications?
Choosing the right type of plastic material for specific applications requires careful consideration of various factors. Here’s a detailed explanation of the process:
1. Identify Application Requirements: Begin by understanding the specific requirements of the application. Consider factors such as temperature range, chemical exposure, mechanical stress, electrical properties, dimensional stability, and regulatory compliance. This initial assessment will help narrow down the suitable plastic material options.
2. Research Plastic Material Properties: Conduct thorough research on different types of plastic materials and their properties. Consider factors such as mechanical strength, thermal stability, chemical resistance, electrical conductivity, impact resistance, UV stability, and food safety approvals. Plastic material datasheets and technical resources from manufacturers can provide valuable information.
3. Evaluate Material Compatibility: Assess the compatibility of the plastic material with the surrounding environment and other components in the system. Consider the potential for chemical reactions, galvanic corrosion, thermal expansion, and any specific requirements for mating surfaces or interfaces. Ensure the selected material is compatible with the intended operating conditions.
4. Consider Manufacturing Process: Evaluate the manufacturing process involved in producing the desired component or product. Different plastic materials may have specific requirements or limitations for processes such as injection molding, extrusion, blow molding, or machining. Ensure the chosen material is compatible with the selected manufacturing method and can meet the desired quality and production efficiency.
5. Assess Cost and Availability: Consider the cost and availability of the plastic material. Some specialty or high-performance plastics may be more expensive or have limited availability compared to more common materials. Evaluate the cost-effectiveness and feasibility of using the selected material within the project’s budget and timeline.
6. Consult with Material Experts: If necessary, consult with material experts, engineers, or suppliers who have expertise in plastic materials. They can provide valuable insights and recommendations based on their experience and knowledge of specific applications. Their input can help ensure the optimal material selection for the intended use.
7. Perform Prototype and Testing: Before finalizing the material selection, it’s advisable to produce prototypes or conduct testing using the chosen plastic material. This allows for verification of the material’s performance, dimensional accuracy, strength, durability, and other critical factors. Iterative testing and evaluation can help refine the material selection process if needed.
By following these steps and considering the application requirements, material properties, compatibility, manufacturing process, cost, and expert advice, it’s possible to choose the most appropriate plastic material for specific applications. Proper material selection is crucial for ensuring optimal performance, longevity, and safety in various industries and products.
Are there specific design considerations for using plastic gears?
Yes, there are specific design considerations that need to be taken into account when using plastic gears. Here’s a detailed explanation of these considerations:
1. Material Selection: Choosing the right plastic material for the gear application is crucial. Different plastic materials have varying mechanical properties, such as strength, stiffness, and wear resistance. Consider factors such as load-bearing requirements, operating temperatures, environmental conditions, and compatibility with lubricants. It’s important to select a plastic material that can withstand the specific demands of the application.
2. Gear Geometry: The design of plastic gears should consider factors such as tooth profile, module or pitch, pressure angle, and tooth thickness. The gear geometry should be optimized to ensure proper meshing, efficient power transmission, and minimal noise and vibration. The design should also take into account the limitations and capabilities of the plastic material, such as its ability to form precise tooth profiles and maintain dimensional stability.
3. Clearances and Tolerances: Plastic gears may require different clearances and tolerances compared to metal gears. The coefficient of thermal expansion, dimensional stability, and manufacturing processes of plastic materials can affect the gear clearances. It’s important to consider the thermal expansion characteristics of the specific plastic material and provide appropriate clearances to accommodate temperature variations. Tight tolerances may result in binding or increased friction, while excessive clearances can lead to backlash and reduced gear accuracy.
4. Load Distribution: Distributing the load evenly across the gear teeth is essential for preventing premature wear and failure. Consider gear design elements such as tooth profile, tooth width, and the number of teeth to optimize load distribution. Reinforcing the gear teeth with fillets or other strengthening features can help improve load-bearing capacity and reduce stress concentrations.
5. Stiffness and Deflection: Plastic gears generally have lower stiffness compared to metal gears. The design should consider the potential for deflection or deformation under load. It may be necessary to increase the gear size, modify the tooth geometry, or incorporate additional support structures to enhance stiffness and minimize deflection. Analytical tools and simulations can be employed to assess and optimize gear design for stiffness and deflection.
6. Lubrication and Wear: Proper lubrication is important for the performance and durability of plastic gears. Consider the lubrication requirements of the specific plastic material and design features that facilitate effective lubricant distribution. Pay attention to potential wear mechanisms, such as adhesive wear or abrasive wear, and incorporate measures to minimize wear, such as optimized tooth profiles, lubricant selection, and sealing mechanisms.
7. Environmental Factors: Plastic gears may be subjected to various environmental factors such as temperature extremes, humidity, chemicals, and UV exposure. Evaluate the potential impact of these factors on the gear material and design. Select plastic materials that offer resistance to environmental degradation and consider protective measures, such as coatings or encapsulation, to enhance the gear’s resistance to environmental conditions.
8. Manufacturability: Consider the manufacturability of plastic gears during the design phase. Different plastic materials may have specific requirements or limitations for manufacturing processes such as injection molding or machining. Design features that facilitate efficient and cost-effective production, such as draft angles, parting lines, and tooling considerations, should be taken into account.
By considering these specific design considerations, such as material selection, gear geometry, clearances, load distribution, stiffness, lubrication, environmental factors, and manufacturability, it’s possible to optimize the design and performance of plastic gears for various applications.
Can plastic gears replace metal gears in certain applications?
Yes, plastic gears can replace metal gears in certain applications. Here’s a detailed explanation:
Plastic gears offer a range of advantages that make them suitable alternatives to metal gears in specific scenarios. Some of the factors that determine whether plastic gears can replace metal gears include the application requirements, operating conditions, load capacity, and desired performance characteristics.
Advantages of Plastic Gears:
- Lightweight: Plastic gears are significantly lighter than metal gears, making them suitable for applications where weight reduction is important. This can lead to energy efficiency, reduced inertia, and lower wear on supporting components.
- Low Noise and Vibration: Plastic gears have inherent damping properties that help reduce noise and vibration levels during operation. This makes them suitable for applications where noise reduction is desired, such as in consumer electronics or office equipment.
- Corrosion Resistance: Certain plastic materials used in gear manufacturing exhibit excellent resistance to corrosion and chemicals. Plastic gears can be a suitable choice for applications in corrosive environments where metal gears may suffer from degradation.
- Self-Lubrication: Some plastic materials used for gear manufacturing have self-lubricating properties. This reduces friction and wear between gear teeth, eliminating the need for external lubrication and simplifying maintenance requirements.
- Cost-Effective: Plastic gears can be more cost-effective compared to metal gears, especially in large-scale production. Plastic materials are often less expensive than metals, and the manufacturing processes for plastic gears can be more efficient.
- Design Flexibility: Plastic gears offer greater design flexibility compared to metal gears. They can be molded into complex shapes, allowing for custom gear profiles and tooth geometries, resulting in optimized performance and efficiency for specific applications.
Limitations of Plastic Gears:
- High Torque and Load Capacity: Plastic gears may not have the same torque and load capacity as metal gears. In applications requiring high torque or heavy loads, metal gears may be more suitable due to their higher strength and durability.
- High Temperatures: Plastic gears have temperature limitations depending on the chosen material. In applications with high operating temperatures, metal gears that can withstand the heat may be necessary.
- Precision and Positioning: Plastic gears may not offer the same level of precision and positioning accuracy as metal gears. Applications that require tight tolerances and precise gear meshing may still require metal gears.
In summary, plastic gears can replace metal gears in certain applications where their advantages align with the specific requirements and operating conditions. It’s crucial to carefully evaluate the application needs, load capacity, temperature range, and other factors to determine if plastic gears are suitable replacements for metal gears.
editor by CX 2024-04-10