China OEM Factory Direct Injection Mold Molding Part Plastic for Small Molded Parts

Product Description

Introduction

As a leading plastic injection molding company, Moldor Plastic has achieved rich experiences of design, engineering, and manufacturing value-added plastic mold and supplying molded products to customers all over the world. Equipped with state of the art machines and skilled workers, we provide you the high-quality products at very competitive price.

Our CHINAMFG are widely used in Auto Accessories, Electronics, Household appliances, Medical Devices, Game Players, Mechanical devices and other fields.

QUALITY FIRST & SERVICE FIRST & CUSTMER FIRST is our aim,MAKE EVERY PROJECT A SUCCESS is  our mission.We sincerely hope to be your trustworthy partner for long-termcooperation.

Product Details

 

Mold Shaping Customized Plastic Injection Molding
Plastic Material PP, PC, PS, POM, PE, ABS, etc. as per customers’ requierment
Surface Finish Mirror Polish, Texture, Sandblast, Mate, Spray Paint, Silk screen and etc.
Plastic Material PP, PC, PS, POM, PE, ABS, etc. as per customers’ requierment
Delivery Time 5-8 days after samples confirmed
Color Provide Pantone Color Code or sample
Packaging Standard Export Carton

 

Custom Your Own CHINAMFG in CHINAMFG !

According to your drawings or samples, we can provide one-stop solutions service from designing, prototyping, molds 
making, processing, spraying, assembling, inspecting, packaging to delivering, everything will be managed to the 
smallest detail. 

If you have products or ideas that require injection mold & molding, CHINAMFG would like to serve you. Our knowledgeable engineers and designers will offer suggestions on how to manufacture your product to allow for a professional 
look as well as for ease of manufacturing.

Please kindly email us your inquiry,  and our professional team is committed to providing personal service at the 
lowest possible prices to you.Your any inquiry is welcomed and will be replied soon.
 

Related Products

MOLDOR PLASTIC Advantage:

In-house mold design and building capabilities to improve work efficiency.
 

NDA agreement can be signed to protect customers’ idea 

and design.

Professional sales team. Good communication skills and 

after service.

Professional design team, mold maker engineer. OEM/

ODM service.

Professional QC and R&D teams to assure high quality.

Delivery on time.

 

We can do more than you expected…
 

 

 

1. Manufacturing experience for over 15 years.
2. Customized designs and services are accepted.
    Professional design team and engineering team offer 
    technical support.
3. Manufacturing process control. 
4. Small volume production or mass production is available.

                    5. Trained workers and professional QC team to assure the 
                         product quality.
                    6. Inspection report and material test certificates are 
                        available CHINAMFG requests.
                    7. Standard: HASCO or as customer’s requirement.
……

Factory Capability

 

Our Service

Step 1: Product Design: We provide product design service as customers’ request.
Step 2: Mold Design: We communicate & exchange the detail information with our customers to make a good mold design.
Step 3: Mold Making: Manufacturing in-house, we send the mold processing photos and videos to customers.
Step 4: Mass Production: We start plastic injection parts production after customers confirm samples.
Step 5: Assembly: We can supply assembly service as customers’ requests.
Step 6: Value added Service: Available, such as screen printing, plating, custom packaging and etc.

Packaging & Shipping

FAQ

Q1:Are you a trading company or factory?
A1:We are factory.

Q2:What type of information is required for quoting a molding project?
A2:Please send your drawings or sample to us.

Q3:How long do you take to build a mold?
A3:The production timeline depends on your specific needs, normally the lead time is 25-45days.

Q4:How small or large of a plastic part will you produce?
A4:Our machine capabilities cover a range from 60-ton to 500-ton clamping forces.

Q5:What kind of steel do you use for plastic moldings?
A5:We can use any type of steel appointed by customer or popular in the market.Such as P20,718,8407,NAK80,H13,S136,

DIN 1.2738,DIN 1.2344,etc.

Q6:What types of materials can be molded by your injection products?
A6:Polystyrene,ABS,PET,TPR,TPU,PVC,Nylon,Acetal,Polypropylene,Polyethylene, Polycarbonates and etc.

Q7:Do you offer secondary service such as assembly, packaging or painting?
A7:Yes,such as assembly, painting, tapping, ultrasonic welding, trimming, sorting, customized packaging and etc.

Q8:If I have an existing tooling, could you use it to mold my project?
A8:Most certainly, if existing tooling is available, we can use them.

Q9:Can you mold around inserts or metal components?
A9:We can do insert molding with just about any metal and non-metal components.
 

Contact Us

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Plastic Type: Thermoplast
Plastic Form: Granule
Molding Method: Injection Molding
Plastic Color: Black, Red, Yellow, White, or Others
Mold Runner: Cold or Hot Runner
Surface Finish: Polish, Texture, Matt, Smooth, Can Be Customized
Customization:
Available

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What are the typical tolerances and quality standards for injection molded parts?

When it comes to injection molded parts, the tolerances and quality standards can vary depending on several factors, including the specific application, industry requirements, and the capabilities of the injection molding process. Here are some general considerations regarding tolerances and quality standards:

Tolerances:

The tolerances for injection molded parts typically refer to the allowable deviation from the intended design dimensions. These tolerances are influenced by various factors, including the part geometry, material properties, mold design, and process capabilities. It’s important to note that achieving tighter tolerances often requires more precise tooling, tighter process control, and additional post-processing steps. Here are some common types of tolerances found in injection molding:

1. Dimensional Tolerances:

Dimensional tolerances define the acceptable range of variation for linear dimensions, such as length, width, height, and diameter. The specific tolerances depend on the part’s critical dimensions and functional requirements. Typical dimensional tolerances for injection molded parts can range from +/- 0.05 mm to +/- 0.5 mm or even tighter, depending on the complexity of the part and the process capabilities.

2. Geometric Tolerances:

Geometric tolerances specify the allowable variation in shape, form, and orientation of features on the part. These tolerances are often expressed using symbols and control the relationships between various geometric elements. Common geometric tolerances include flatness, straightness, circularity, concentricity, perpendicularity, and angularity. The specific geometric tolerances depend on the part’s design requirements and the manufacturing capabilities.

3. Surface Finish Tolerances:

Surface finish tolerances define the acceptable variation in the texture, roughness, and appearance of the part’s surfaces. The surface finish requirements are typically specified using roughness parameters, such as Ra (arithmetical average roughness) or Rz (maximum height of the roughness profile). The specific surface finish tolerances depend on the part’s aesthetic requirements, functional needs, and the material being used.

Quality Standards:

In addition to tolerances, injection molded parts are subject to various quality standards that ensure their performance, reliability, and consistency. These standards may be industry-specific or based on international standards organizations. Here are some commonly referenced quality standards for injection molded parts:

1. ISO 9001:

The ISO 9001 standard is a widely recognized quality management system that establishes criteria for the overall quality control and management of an organization. Injection molding companies often seek ISO 9001 certification to demonstrate their commitment to quality and adherence to standardized processes for design, production, and customer satisfaction.

2. ISO 13485:

ISO 13485 is a specific quality management system standard for medical devices. Injection molded parts used in the medical industry must adhere to this standard to ensure they meet the stringent quality requirements for safety, efficacy, and regulatory compliance.

3. Automotive Industry Standards:

The automotive industry has its own set of quality standards, such as ISO/TS 16949 (now IATF 16949), which focuses on the quality management system for automotive suppliers. These standards encompass requirements for product design, development, production, installation, and servicing, ensuring the quality and reliability of injection molded parts used in automobiles.

4. Industry-Specific Standards:

Various industries may have specific quality standards or guidelines that pertain to injection molded parts. For example, the aerospace industry may reference standards like AS9100, while the electronics industry may adhere to standards such as IPC-A-610 for acceptability of electronic assemblies.

It’s important to note that the specific tolerances and quality standards for injection molded parts can vary significantly depending on the application and industry requirements. Design engineers and manufacturers work together to define the appropriate tolerances and quality standards based on the functional requirements, cost considerations, and the capabilities of the injection molding process.

Can you provide guidance on the selection of injection molded materials based on application requirements?

Yes, I can provide guidance on the selection of injection molded materials based on application requirements. The choice of material for injection molding plays a critical role in determining the performance, durability, and functionality of the molded parts. Here’s a detailed explanation of the factors to consider and the guidance for selecting the appropriate material:

1. Mechanical Properties:

Consider the mechanical properties required for the application, such as strength, stiffness, impact resistance, and wear resistance. Different materials have varying mechanical characteristics, and selecting a material with suitable properties is crucial. For example, engineering thermoplastics like ABS, PC, or nylon offer high strength and impact resistance, while materials like PEEK or ULTEM provide exceptional mechanical performance at elevated temperatures.

2. Chemical Resistance:

If the part will be exposed to chemicals, consider the chemical resistance of the material. Some materials, like PVC or PTFE, exhibit excellent resistance to a wide range of chemicals, while others may be susceptible to degradation or swelling. Ensure that the selected material can withstand the specific chemicals it will encounter in the application environment.

3. Thermal Properties:

Evaluate the operating temperature range of the application and choose a material with suitable thermal properties. Materials like PPS, PEEK, or LCP offer excellent heat resistance, while others may have limited temperature capabilities. Consider factors such as the maximum temperature, thermal stability, coefficient of thermal expansion, and heat transfer requirements of the part.

4. Electrical Properties:

For electrical or electronic applications, consider the electrical properties of the material. Materials like PBT or PPS offer good electrical insulation properties, while others may have conductive or dissipative characteristics. Determine the required dielectric strength, electrical conductivity, surface resistivity, and other relevant electrical properties for the application.

5. Environmental Conditions:

Assess the environmental conditions the part will be exposed to, such as humidity, UV exposure, outdoor weathering, or extreme temperatures. Some materials, like ASA or HDPE, have excellent weatherability and UV resistance, while others may degrade or become brittle under harsh conditions. Choose a material that can withstand the specific environmental factors to ensure long-term performance and durability.

6. Regulatory Compliance:

Consider any regulatory requirements or industry standards that the material must meet. Certain applications, such as those in the medical or food industries, may require materials that are FDA-approved or comply with specific certifications. Ensure that the selected material meets the necessary regulatory and safety standards for the intended application.

7. Cost Considerations:

Evaluate the cost implications associated with the material selection. Different materials have varying costs, and the material choice should align with the project budget. Consider not only the material cost per unit but also factors like tooling expenses, production efficiency, and the overall lifecycle cost of the part.

8. Material Availability and Processing:

Check the availability of the material and consider its processability in injection molding. Ensure that the material is readily available from suppliers and suitable for the specific injection molding process parameters, such as melt flow rate, moldability, and compatibility with the chosen molding equipment.

9. Material Testing and Validation:

Perform material testing and validation to ensure that the selected material meets the required specifications and performance criteria. Conduct mechanical, thermal, chemical, and electrical tests to verify the material’s properties and behavior under application-specific conditions.

Consider consulting with material suppliers, engineers, or experts in injection molding to get further guidance and recommendations based on the specific application requirements. They can provide valuable insights into material selection based on their expertise and knowledge of industry standards and best practices.

By carefully considering these factors and guidance, you can select the most appropriate material for injection molding that meets the specific application requirements, ensuring optimal performance, durability, and functionality of the molded parts.

Are there different types of injection molded parts, such as automotive components or medical devices?

Yes, there are various types of injection molded parts that are specifically designed for different industries and applications. Injection molding is a versatile manufacturing process capable of producing complex and precise parts with high efficiency and repeatability. Here are some examples of different types of injection molded parts:

1. Automotive Components:

Injection molding plays a critical role in the automotive industry, where it is used to manufacture a wide range of components. Some common injection molded automotive parts include:

  • Interior components: Dashboard panels, door handles, trim pieces, instrument clusters, and center consoles.
  • Exterior components: Bumpers, grilles, body panels, mirror housings, and wheel covers.
  • Under-the-hood components: Engine covers, air intake manifolds, cooling system parts, and battery housings.
  • Electrical components: Connectors, switches, sensor housings, and wiring harnesses.
  • Seating components: Seat frames, headrests, armrests, and seatbelt components.

2. Medical Devices:

The medical industry relies on injection molding for the production of a wide range of medical devices and components. These parts often require high precision, biocompatibility, and sterilizability. Examples of injection molded medical devices include:

  • Syringes and injection pens
  • Implantable devices: Catheters, pacemaker components, orthopedic implants, and surgical instruments.
  • Diagnostic equipment: Test tubes, specimen containers, and laboratory consumables.
  • Disposable medical products: IV components, respiratory masks, blood collection tubes, and wound care products.

3. Consumer Products:

Injection molding is widely used in the production of consumer products due to its ability to mass-produce parts with high efficiency. Examples of injection molded consumer products include:

  • Household appliances: Television and audio equipment components, refrigerator parts, and vacuum cleaner components.
  • Electronics: Mobile phone cases, computer keyboard and mouse, camera components, and power adapters.
  • Toys and games: Action figures, building blocks, puzzles, and board game components.
  • Personal care products: Toothbrushes, razor handles, cosmetic containers, and hairdryer components.
  • Home improvement products: Light switch covers, door handles, power tool housings, and storage containers.

4. Packaging:

Injection molding is widely used in the packaging industry to produce a wide variety of plastic containers, caps, closures, and packaging components. Some examples include:

  • Bottles and containers for food, beverages, personal care products, and household chemicals.
  • Caps and closures for bottles and jars.
  • Thin-walled packaging for food products such as trays, cups, and lids.
  • Blister packs and clamshell packaging for retail products.
  • Packaging inserts and protective foam components.

5. Electronics and Electrical Components:

Injection molding is widely used in the electronics industry for the production of various components and enclosures. Examples include:

  • Connectors and housings for electrical and electronic devices.
  • Switches, buttons, and control panels.
  • PCB (Printed Circuit Board) components and enclosures.
  • LED (Light-Emitting Diode) components and light fixtures.
  • Power adapters and chargers.

These are just a few examples of the different types of injection molded parts. The versatility of injection molding allows for the production of parts in various industries, ranging from automotive and medical to consumer products, packaging, electronics, and more. The specific design requirements and performance characteristics of each part determine the choice of materials, tooling, and manufacturing processes for injection molding.

China OEM Factory Direct Injection Mold Molding Part Plastic for Small Molded Parts  China OEM Factory Direct Injection Mold Molding Part Plastic for Small Molded Parts
editor by CX 2024-01-24