Product Description
Product Description
| PLASTIC INJECTION PART BASIC INFORMATION | |
| Product Name | medical plastic injection molding parts |
| Surface Requirement | Texture EDM SPI Chrome Coating |
| Plastic Part Resin | thermoplastic/Thermosetting |
| Tolerance Request | UP to (±0.005mm) |
| Production Quantity | Up to 1 miliion |
| Part Size Range | Up to 1500mm |
| Multi Injection | Single/Double/multi color |
| Design Software | Data exchange: UG, PRO/E, SOLIDWORKS, CAITA, CAD, STP, X_T, IGS, PRT, DWG, DXF |
| Quality Assurance | Design Control, Steel Hardness Inspection Report, Steel Dimension Control Report, Mold Core and Cavity Dimension Inspection Report |
| PLASTIC INJECTION MOULD BASIC DESCRIPTION | |
| Injection System | Hot runner /Cold Runner |
| Cavitation | Single /Mutil Cavites |
| Ejector System | Pin/air Valve/Stripper plate |
| Steel Standard | ASSAB/FINKL/BOHLER/ Groditz/Buderus |
| Cooling | Baffles/Sprin Piple/3D printing water line |
| Standard Delivery | 40 days or 5 weeks |
| Standard Parts/Cylinders | DME/HASCO/PROGRESSIVE/MISUMI/Parker/HP/Merkle |
| Design Capability | DFM,Mould flow analysis,Product optimization, Full 2D & 3D mould design,Reverse engineering,Collaborative design with customer’s idea |
| Documents / Reports Provided | Fully drawing,Weekly Processing Report, Steel Dimension report, Processing Report,Sample Dimension Report. |
Medical product and Cosmetics
Industrial designers typically focus on function, appearance, and ergonomics. ACE’s design engineers add a vital
Criteria; designing for manufacturability. By using different Medical and Cosmetics tools and concepts such as
Mold flow analysis, prototyping, scientific molding analysis and automation consideration, ACE engineers can
Eliminate inefficiency or potential problems resulting in significant down-the-line savings for OEMs in the
Ramp up process. Our design and engineering staff are ready to make your medical product concepts a reality or
Re-engineer existing Products for improved quality and cost.
ACE is well CHINAMFG in many manufacturing technologies critical to the Medical goods industry such as precision
Mold making and molding, high gloss molding, co-injection molding, and different surface finishing including pad
Printing and electroplating.
Our Services
ACE Molding Group is a privately owned company specializing in the design and manufacture of high-quality plastic injection molds and injection molded parts for the international market and Have been engaged in the manufacturing sector since our inception.Is an OEM/ODM factory, customized your products to meet your needs is our advantage, We are managed by a group of professionals with many years of experience in mold design, molding technology and Quality control. We have developed an excellent understanding of the technical and quality requirements needed. We build tools to fit your expectations and match your quality standards.Our team of CAD designers will ensure that your imagination is incorporated into the actual product!If you want to create prototype or mass-produce in a very specific project, we can help you achieve your vision!Our products include :
*Custom Plastic Injection Parts
*Multi-cavity plastic parts
*High Precision Molds
*Insert & over molding
*Double Short Molding
*Unscrewing Molding
*Gas-assisted Molding
*Die Casting Molding
*Prototype CHINAMFG and Low cycle CHINAMFG molding
*Gas Assist molding
*Elastomeric molding
*IML & IMD part production
*Thin wall plastic molding
*High temperature molding
*Foam Injection molding
Why Choose Us
1. We have our own design and development team and factory, with more than 14 years of product production experience. Familiar with and good at developing business with overseas market.
2. We can provide OEM/ODM services for all kinds of customers, and our professional support team will provide services for customers 24 hours a day.
3. We have a very strong quality control system to ensure the best quality of our products, the best service and competitive price.
4. Samples are always available for quality inspection and can be sent to you very quickly.
5. Design ability: design according to customer requirements.
6. We deliver goods on time and cooperate with customers sincerely.
Inspection Method
We will provide fully dimension checking before mold test.
Make sure all components and mold dimension under correct tolerance.
if customer needed, we can provide all these documentation for their reference.
How To Order
Kindly contact or email us your inquiries or RFQs. One of our sales team would contact you asap and offer professional consultation on all your plastic molding needs and provide the best price that is suitable to your requirements.
Company Profile
We are managed by a group of professionals with many years of experience in mould design, molding technology and quality control. Our clients are able to communicate with us freely in English, Japanese ,German and US, Since we build exclusively for the international market, mainly Europe, Japan North & South America, we have developed an excellent understanding of the technical and quality requirements needed.
Capability – Equipment list
Capacity* More than 350 sets/year
* Maximum mold weight: 20 tons
* Maximum mold size: 1600mm*900mm*900mm
Tolerance* Mold: 0.01mm
* Plastic part: 0.015m
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ACE MOULDING EQUIPMENT & PRESS LIST 2571 |
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Department |
Major Equipment |
Name |
Specification |
Unit |
Total |
|
Mold Department |
CNC Machining Center |
ROEDERS RFM-800 Precision Centre Made in Germany |
36000/min |
2 |
14 |
|
CNC Machining Center |
ROEDERS RXP-500 Precision Centre with Renishaw online inspection Made in Germany |
50000/min |
2 |
||
|
CNC Machining Center |
ROEDERS RFM-600 Precision Centre with Renishaw online inspection Made in Germany |
42000/min |
2 |
||
|
CNC Machining Center |
ROEDERS RFM-600 Precision Centre Made in Germany |
42000/min |
2 |
||
|
CNC Machining Center |
KT-600II Precision Centre |
24000/min |
4 |
||
|
CNC Machining Center |
Shenghong ZheJiang |
8500 |
2 |
||
|
Electric Discharge Machine(EDM) |
SODICK EDM Machine |
AD30L |
4 |
11 |
|
|
SANDY EDM Machine |
ED3 |
2 |
|||
|
Wintop |
350 |
3 |
|||
|
Wintop |
DE -650 |
2 |
|||
|
Milling Machine |
Milling machine |
16SS |
8 |
9 |
|
|
Mazak |
Milling machine |
QTN150 |
1 |
||
|
Cutting Machine |
Cutting machine |
MV1200S |
3 |
3 |
|
|
Drill Press Machine |
Drill Press machine |
Z3032X10 |
1 |
1 |
|
|
Molding Department |
Plastic injection machine |
Injection machine |
Kiaming 58T |
1 |
24 |
|
Kiaming 98T |
1 |
||||
|
Kaiming128T |
4 |
||||
|
Kaiming 168 T |
2 |
||||
|
HaiTian 200T |
8 |
||||
|
ZheJiang 250T |
1 |
||||
|
CHINAMFG 220T |
1 |
||||
|
Kaiming 400T |
2 |
||||
|
Kaiming 450T |
1 |
||||
|
HaiTian 650T |
2 |
||||
|
HaiTian 1300T |
1 |
||||
|
Quality Department |
Inspection machine |
2.5D Video Measuring System |
VMS-2015F |
1 |
2 |
|
Alberlink CMM |
HR-150A |
2 |
2 |
||
organlzation
Currently possess a strong team with 140 people, including
*32 Design & Engineers ( ≥ 10 years’ experience)
*12 CNC programmers
*8 project engineers
*6 Sales people
*5 full-time quality inspection personnel
*4 people in logistic team
*60 tool makers
*13 Office worker
Workshop / Packaging &Shipping
Our factory is under ISO standards & certification.This insures productivity and total control on quality.
Our standard packaging for plastic injection parts we use PP bag plus cardboard boxes or as per customer requirements. Our standard packaging for plastic injection mold is wooden pallets or wooden cases.
Other Products
Our website lists some of our successful products, but please note that this is just 1 example on behalf of our products and services, so if you can’t see the products you want, please contact us immediately.
We warmly welcome customers all over the world and are looking CHINAMFG to establishing a steady and long-term business relationship with you .
F A Q
Q: What services do you provide?
A: We manufacture plastic injection molds and produce plastic injection parts for sampling and bulk production.We also provide mold design services.
Q: How can I contact you?
A: You can send us an inquiry via email, Alibaba,Alibaba TradeManager, WhatsApp, Skype or Wechat. We will reply to you within 24 hours.
Q: How can I get a quotation?
A:After receving your RFQ, we will reply to you within 2 hours. In your RFQ, please provide the following information and data in order for us to send you competitive pricing based on your requirements.a) 2D part drawings in PDF or JPG format & 3D part drawings in UG, PRO/E, SOLIDWORKS, CATIA, CAD, STP, X_T, IGS, PRT, DWG, or DXFb) Resin information (Datasheet)c) Annual quantity requirement for parts
Q: What shall we do if we don’t have part drawings?
A: You can send us your plastic part samples or photos with dimensions and we could provide you our technical solutions. We will create .
Q: Can we get some samples before mass production?
A: Yes, we will send you samples for confirmation before start of mass production.
Q: Due to time difference with China and overseas, how can I get information about my order progress?
A: Every week we send weekly production progress report with digital pictures and videos that shows the production progress.
Q: What is your leadtime?
A: Our standard leadtime for mold production is 4 weeks.For CHINAMFG is 15-20 days depending on the quantity.
Q: What is your payment term?
A: 50% as payment deposit, 50% balance will be paid before shipping. For small amount, we accept Paypal, Paypal commission will be added to the order. For big amount, T/T is preferred .
Q: How do you deliver the goods?
A: We have our own logistics department that could provide shipping costs via Sea or Air freight, Incoterms EXW, FOB, DDP, DDU etc. Or we can work with your appointed shipping forwarder.
Q: How can I guarantee our quality?
A: During mold making, we do material and part inspection. During part production, we do 100% full quality inspection
before packaging and reject every parts that is not according to our quality standard or the quality approved by our client.
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| Plastic Type: | Thermosetting Plastic |
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| Plastic Form: | Granule |
| Molding Method: | Injection Molding |
| Samples: |
US$ 1/Piece
1 Piece(Min.Order) | Order Sample |
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| Customization: |
Available
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.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
| Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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What is the impact of material selection on the performance and durability of injection molded parts?
The material selection for injection molded parts has a significant impact on their performance and durability. The choice of material influences various key factors, including mechanical properties, chemical resistance, thermal stability, dimensional stability, and overall part functionality. Here’s a detailed explanation of the impact of material selection on the performance and durability of injection molded parts:
Mechanical Properties:
The mechanical properties of the material directly affect the part’s strength, stiffness, impact resistance, and fatigue life. Different materials exhibit varying levels of tensile strength, flexural strength, modulus of elasticity, and elongation at break. The selection of a material with appropriate mechanical properties ensures that the injection molded part can withstand the applied forces, vibrations, and operational stresses without failure or deformation.
Chemical Resistance:
The material’s resistance to chemicals and solvents is crucial in applications where the part comes into contact with aggressive substances. Certain materials, such as engineering thermoplastics like ABS (Acrylonitrile Butadiene Styrene) or PEEK (Polyether Ether Ketone), exhibit excellent chemical resistance. Choosing a material with the appropriate chemical resistance ensures that the injection molded part maintains its integrity and functionality when exposed to specific chemicals or environments.
Thermal Stability:
The thermal stability of the material is essential in applications that involve exposure to high temperatures or thermal cycling. Different materials have varying melting points, glass transition temperatures, and heat deflection temperatures. Selecting a material with suitable thermal stability ensures that the injection molded part can withstand the anticipated temperature variations without dimensional changes, warping, or degradation of mechanical properties.
Dimensional Stability:
The dimensional stability of the material is critical in applications where precise tolerances and dimensional accuracy are required. Some materials, such as engineering thermoplastics or filled polymers, exhibit lower coefficients of thermal expansion, minimizing the part’s dimensional changes with temperature variations. Choosing a material with good dimensional stability helps ensure that the injection molded part maintains its shape, size, and critical dimensions over a wide range of operating temperatures.
Part Functionality:
The material selection directly impacts the functionality and performance of the injection molded part. Different materials offer unique properties that can be tailored to meet specific application requirements. For example, materials like polycarbonate (PC) or polypropylene (PP) offer excellent transparency, making them suitable for applications requiring optical clarity, while materials like polyamide (PA) or polyoxymethylene (POM) provide low friction and wear resistance, making them suitable for moving or sliding parts.
Cycle Time and Processability:
The material selection can also affect the cycle time and processability of injection molding. Different materials have different melt viscosities and flow characteristics, which influence the filling and cooling times during the molding process. Materials with good flow properties can fill complex mold geometries more easily, reducing the cycle time and improving productivity. It’s important to select a material that can be effectively processed using the available injection molding equipment and techniques.
Cost Considerations:
The material selection also impacts the overall cost of the injection molded part. Different materials have varying costs, and selecting the most suitable material involves considering factors such as material availability, tooling requirements, processing conditions, and the desired performance characteristics. Balancing the performance requirements with cost considerations is crucial in achieving an optimal material selection that meets the performance and durability requirements within the budget constraints.
Overall, material selection plays a critical role in determining the performance, durability, and functionality of injection molded parts. Careful consideration of mechanical properties, chemical resistance, thermal stability, dimensional stability, part functionality, cycle time, processability, and cost factors helps ensure that the chosen material meets the specific application requirements and delivers the desired performance and durability over the part’s intended service life.
Can you describe the various post-molding processes, such as assembly or secondary operations, for injection molded parts?
Post-molding processes play a crucial role in the production of injection molded parts. These processes include assembly and secondary operations that are performed after the initial molding stage. Here’s a detailed explanation of the various post-molding processes for injection molded parts:
1. Assembly:
Assembly involves joining multiple injection molded parts together to create a finished product or sub-assembly. The assembly process can include various techniques such as mechanical fastening (screws, clips, or snaps), adhesive bonding, ultrasonic welding, heat staking, or solvent welding. Assembly ensures that the individual molded parts are securely combined to achieve the desired functionality and structural integrity of the final product.
2. Surface Finishing:
Surface finishing processes are performed to enhance the appearance, texture, and functionality of injection molded parts. Common surface finishing techniques include painting, printing (such as pad printing or screen printing), hot stamping, laser etching, or applying specialized coatings. These processes can add decorative features, branding elements, or improve the surface properties of the parts, such as scratch resistance or UV protection.
3. Machining or Trimming:
In some cases, injection molded parts may require additional machining or trimming to achieve the desired final dimensions or remove excess material. This can involve processes such as CNC milling, drilling, reaming, or turning. Machining or trimming is often necessary when tight tolerances, specific geometries, or critical functional features cannot be achieved solely through the injection molding process.
4. Welding or Joining:
Welding or joining processes are used to fuse or bond injection molded parts together. Common welding techniques for plastic parts include ultrasonic welding, hot plate welding, vibration welding, or laser welding. These processes create strong and reliable joints between the molded parts, ensuring structural integrity and functionality in the final product.
5. Insertion of Inserts:
Insertion involves placing metal or plastic inserts into the mold cavity before the injection molding process. These inserts can provide additional strength, reinforce threaded connections, or serve as mounting points for other components. Inserts can be placed manually or using automated equipment, and they become permanently embedded in the molded parts during the molding process.
6. Overmolding or Two-Shot Molding:
Overmolding or two-shot molding processes allow for the creation of injection molded parts with multiple layers or materials. In overmolding, a second material is molded over a pre-existing substrate, providing enhanced functionality, aesthetics, or grip. Two-shot molding involves injecting two different materials into different sections of the mold to create a single part with multiple colors or materials. These processes enable the integration of multiple materials or components into a single injection molded part.
7. Deflashing or Deburring:
Deflashing or deburring processes involve removing excess flash or burrs that may be present on the molded parts after the injection molding process. Flash refers to the excess material that extends beyond the parting line of the mold, while burrs are small protrusions or rough edges caused by the mold features. Deflashing or deburring ensures that the molded parts have smooth edges and surfaces, improving their appearance, functionality, and safety.
8. Inspection and Quality Control:
Inspection and quality control processes are performed to ensure that the injection molded parts meet the required specifications and quality standards. This can involve visual inspection, dimensional measurement, functional testing, or other specialized testing methods. Inspection and quality control processes help identify any defects, inconsistencies, or deviations that may require rework or rejection of the parts, ensuring that only high-quality parts are used in the final product or assembly.
9. Packaging and Labeling:
Once the post-molding processes are complete, the injection molded parts are typically packaged and labeled for storage, transportation, or distribution. Packaging can include individual part packaging, bulk packaging, or custom packaging based on specific requirements. Labeling may involve adding product identification, barcodes, or instructions for proper handling or usage.
These post-molding processes are vital in achieving the desired functionality, appearance, and quality of injection molded parts. They enable the integration of multiple components, surface finishing, dimensional accuracy, and assembly of the final products or sub-assemblies.
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.
editor by CX 2024-04-09