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Rapid Prototyping Service
Get your innovative ideas off the ground with our rapid prototyping service. We specialize in custom metal and plastic parts manufacturing, providing high-quality prototypes that match your exact specifications.
- Lead time: 1~3 days
- Size range: Min 1mm, Max 800 mm
- Prototyping Methods: CNC machining, Rapid Molding, 3D Printing
Send us your designs and specifications for a free quotation
- Plastic injection mold
Neway Prototyping Service Processing
We offer cost-effective prototyping solutions for your custom metal and plastic parts. Our expertise in manufacturing and prototyping ensures that your project stays within your budget without sacrificing quality.
Neway Rapid Prototyping
Need a reliable and rapid prototyping service? We offer quick turnaround times for your metal and plastic parts, with precision and accuracy that meet the highest standards of quality.
- Expertise: We have a team of skilled technicians and engineers with years of experience in prototyping and custom manufacturing. This allows us to offer our clients the highest level of expertise and knowledge in the field.
- Quality: We pride ourselves on producing high-quality prototypes that meet the exact specifications of our clients. We use the latest technologies and equipment to ensure that our metal and plastic parts are of the highest standard.
- Flexibility: Our prototyping service is flexible and can accommodate both small and large-scale projects. We work closely with our clients to ensure that their specific needs are met.
- Speed: We understand that time is of the essence when it comes to prototyping. Our fast turnaround times ensure that our clients receive their prototypes quickly and efficiently.
- Cost-effectiveness: Our prototyping service is cost-effective and offers our clients a competitive price point. We strive to provide affordable options without sacrificing quality.
- Communication: We believe that communication is key to a successful prototyping project. We work closely with our clients throughout the process to ensure that their needs are met and their questions are answered
CNC Machining Prototyping Service
CNC machining is a highly versatile and precise prototyping process that offers a wide range of material options, precision, surface finish, and complexity capabilities. While it may be more expensive and have longer lead times than other prototyping processes, CNC machining is an excellent choice for complex designs and high-quality prototypes.
Capability
Description
Material Options
CNC machining prototyping offers a wide range of material options, including metals (such as aluminum, steel, and titanium) and plastics (such as ABS, polycarbonate, and nylon). This allows for flexibility in choosing the most suitable material for the prototype.
Precision
CNC machining prototyping provides high precision and accuracy in the production of parts. The computer-controlled machines can achieve tight tolerances, resulting in precise and consistent prototypes.
Surface Finish
CNC machining can achieve various surface finishes, ranging from rough to smooth. By using different cutting tools and techniques, desired surface finishes can be obtained, including matte, polished, or textured finishes.
Complexity
CNC machining is capable of producing prototypes with complex geometries. It can create intricate designs, intricate internal features, and precise details, making it suitable for prototyping complex parts.
Quantity
CNC machining is suitable for both small and large quantity production runs.
Lead Time
The lead time for CNC machined prototypes can vary depending on the complexity of the design and the quantity required, but it is generally longer than 3D printing or rapid molding.
Cost
CNC machining can be more expensive than 3D printing or rapid molding, but it offers superior precision, surface finish, and material options.
Post-Processing
CNC machined prototypes may require additional post-processing, such as sanding, polishing, or coating, to achieve the desired finish.
Rapid Molding Prototyping Capabilities
Capability
Description
Material Options
CNC machining prototyping offers a wide range of material options, including metals (such as aluminum, steel, and titanium) and plastics (such as ABS, polycarbonate, and nylon). This allows for flexibility in choosing the most suitable material for the prototype.
Precision
CNC machining prototyping provides high precision and accuracy in the production of parts. The computer-controlled machines can achieve tight tolerances, resulting in precise and consistent prototypes.
Surface Finish
CNC machining can achieve various surface finishes, ranging from rough to smooth. By using different cutting tools and techniques, desired surface finishes can be obtained, including matte, polished, or textured finishes.
Complexity
CNC machining is capable of producing prototypes with complex geometries. It can create intricate designs, intricate internal features, and precise details, making it suitable for prototyping complex parts.
Quantity
CNC machining is suitable for both small and large quantity production runs.
Lead Time
The lead time for CNC machined prototypes can vary depending on the complexity of the design and the quantity required, but it is generally longer than 3D printing or rapid molding.
Cost
CNC machining can be more expensive than 3D printing or rapid molding, but it offers superior precision, surface finish, and material options.
Post-Processing
CNC machined prototypes may require additional post-processing, such as sanding, polishing, or coating, to achieve the desired finish.
3D Printing Prototyping Capabilities
3D printing is a highly versatile and cost-effective prototyping process that offers a wide range of material options and can produce complex designs with intricate details and 3D shapes. While it may not be as precise as CNC machining or offer as smooth a surface finish as rapid molding, 3D printing can produce prototypes with shorter lead times and at a lower cost. Additionally, post-processing can be used to achieve a smoother finish if required.
Capability
Description
Material Options
CNC machining prototyping offers a wide range of material options, including metals (such as aluminum, steel, and titanium) and plastics (such as ABS, polycarbonate, and nylon). This allows for flexibility in choosing the most suitable material for the prototype.
Precision
CNC machining prototyping provides high precision and accuracy in the production of parts. The computer-controlled machines can achieve tight tolerances, resulting in precise and consistent prototypes.
Surface Finish
CNC machining can achieve various surface finishes, ranging from rough to smooth. By using different cutting tools and techniques, desired surface finishes can be obtained, including matte, polished, or textured finishes.
Complexity
CNC machining is capable of producing prototypes with complex geometries. It can create intricate designs, intricate internal features, and precise details, making it suitable for prototyping complex parts.
Quantity
CNC machining is suitable for both small and large quantity production runs.
Lead Time
The lead time for CNC machined prototypes can vary depending on the complexity of the design and the quantity required, but it is generally longer than 3D printing or rapid molding.
Cost
CNC machining can be more expensive than 3D printing or rapid molding, but it offers superior precision, surface finish, and material options.
Post-Processing
CNC machined prototypes may require additional post-processing, such as sanding, polishing, or coating, to achieve the desired finish.
Custom Parts Gallery
At our custom parts gallery, we understand that every project is unique. That’s why we work closely with our customers to ensure that their custom parts are designed to meet their exact specifications. With our attention to detail and commitment to quality, you can trust that your custom parts will exceed your expectations.
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Why Our Prototyping Service Fast
Need a fast and reliable prototyping service? We offer quick turnaround times for your metal and plastic parts, with precision and accuracy that meet the highest standards of quality.
Prototyping Process Optimization
We have optimized our prototyping process to ensure maximum efficiency and speed. Our team is trained to identify any bottlenecks or inefficiencies in the process and make adjustments to improve turnaround times.
Skilled Technicians
Our team of skilled technicians has years of experience in prototyping and custom manufacturing. This expertise allows us to quickly and efficiently produce high-quality prototypes that meet our clients' exact specifications.
Communication
We understand that time is of the essence when it comes to prototyping. That's why we place a high emphasis on communication with our clients. We work closely with them throughout the process to ensure that their needs are met and that the prototyping process is completed as quickly as possible.
Advanced Technology
We use the latest technologies and equipment to produce metal and plastic parts. This allows us to streamline the prototyping process and produce parts at a faster rate without sacrificing quality.
Neway Prototyping Process Workflow
We understand the importance of quality and precision in prototyping. Our skilled technicians use the latest technologies and equipment to produce metal and plastic parts that meet your requirements.
1
Define the Project Requirements
The first step in the prototyping process is to define the project requirements. This includes identifying the product specifications, the intended use of the product, and any special features or requirements.
2
Conceptual Design
Once the project requirements are defined, the next step is to create a conceptual design. This involves brainstorming and sketching out various design options to meet the project requirements.
3
Detailed Design
After a conceptual design is chosen, the next step is to create a detailed design. This includes creating detailed drawings, 3D models, and specifications for the parts or product.
4
Prototyping
With the detailed design in hand, the next step is to create a prototype. This involves using various techniques, such as 3D printing or CNC machining, to produce a physical prototype of the product.
5
Testing and Validation
Once the prototype is produced, the next step is to test and validate it. This includes testing the product for functionality, durability, and safety.
6
Feedback and Iteration
Based on the results of the testing and validation, the design may need to be modified. This involves collecting feedback from stakeholders, analyzing the data, and making adjustments to the design.
7
Final Design
Once the design has been finalized, the next step is to create a final design. This includes creating detailed manufacturing instructions, specifications, and any necessary documentation.
8
Production
The final step in the prototyping process is to move into production. This involves manufacturing the product on a larger scale and delivering it to the customer.
How to Choose the Prototyping Processing
Prototyping is a crucial process in product development that enables businesses to test, validate, and optimize their designs before moving into full-scale production. The benefits of prototyping include cost reduction, faster time to market, design optimization, and testing for potential issues or flaws. By identifying and addressing design flaws early on, businesses can save on costly mistakes and ensure that the final product is optimized for performance and cost-effectiveness. Additionally, prototyping allows for the testing of different materials, configurations, and features to ensure the final product meets requirements and specifications. Ultimately, prototyping is an essential step towards successful product launches and long-term success for businesses.
Frequently Asked Questions
- 1. What Are the Most Widely Used Rapid Prototyping Services?
- 2. What Are Rapid Prototyping Services Used For?
- 3. What Materials Can Nway Work With for Rapid Prototyping Service?
- 4. How Does Neway Assist in Designing and Prototyping MIM Parts?
- 5. What Is Functional Prototype In Rapid Prototyping Manufacturing?