Supply China components electronic for Electronics

$1.00 - $2.00
Min. Order
1 Piece
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Company Information

Hangzhou Haizhu MIM Products Co., Ltd.

CN Trading Company
Response Time
<24h
Response Rate:
97%
Transactions
US$ 2,000+
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Quick Details

Port: Chinese port
Payment Terms: L/C,D/P,T/T,Western Union
Supply Ability: 100000 Piece/Pieces per Month Supply China components electronic for Electronics
D/C: components electronic
Package: Box and Carton
Model Number: HZMIM
Type: MIM
Brand Name: HZMIM
Place of Origin: Zhejiang China
Product name: Supply China components electronic for Electronics
Surface: polishing, painting, sand blasting, passivation, plating
Technology: metal injection molding | casting | machining
Shape: Multi-level parts, Complex shapes
Raw material: chrome, copper, zinc, aluminum, stainless steel, alloy, or customized
Packing: Carton, pallet, box packing
Tolerances: +/-0.01-0.05mm
Weight: 200g max
Density: 72-78%
Application field: Hand tools, Medical parts, Automotive part, ect
Delivery Detail: Shipped in 30 days after payment
Packaging Detail: Neutral packing or according to your requirements for Supply China components electronic for Electronics

 Supply China components electronic for Electronics   

 to web choose us

 

Product Description

 

MIM (Metal Injection Molding) combines the technologies of thermoplastic injection molding and powder metallurgy to produce complex-shaped, high density, high performance metal parts.

 

1. Best applied to small parts (typically less than 100 grams)

2. Offers lower cost solution

3. Improved mechanical properties

 

MIM mainly materials

 

Material System

Material composition

Typical applications

Low alloy steel

Fe-2Ni, Fe-8Ni

Automobile, Machinery, ect

Stainless steel

316L, 17-4PH, 420, 440C

Medical equipment, Clocks, ect

Carbide

WC-Co

Various tools, Watches, ect

Ceramic

Al 2O3, ZrO2, SiO2

IT electronics, Daily necessities

Heavy Alloys

W-Ni-Fe, W-Ni-Cu, W-Cu

Arms industry, communications

Titanium

Ti, Ti-6Al-4V

Medical and military structural parts

Magnetic Materials

Fe, NdFeB, SmCo5, Fe-Si

Magnetic properties of various components

Tool steel

CrMo4, M2

Tools

 

 

 How MIM Works

The MIM process combines the design flexibility of plastic injection molding with the strength and integrity of wronght metals to offer cost effective solutions for highly complex part geometries.

The MIM process is typically explained as four unique processing steps (compounding, molding, debinding and sintering) to produce a final part that may or may not need final finishing operations

to web 2 process

  Comparison between MIM and Traditional Machining

to web 3 comparison 1ato web 3 comparison 1b

Comparison between MIM and Other Processes

Parameter

MIM

CONVENTIONAL PM

MACHINING

INVESTMENT CASTING

Density

98%

88%

100%

98%

Tensile Strength

High

Low

High

High

Elongation

High

Low

High

High

Hardness

High

Low

High

High

Min. Wall Thickness

0.5 mm

1 mm

0.5 mm

2 mm

Complexity

High

Low

High

Medium

Surface Finish

High

Medium

High

Medium

Production Volumes

High

High

Low

Medium

Range of Materials

High

High

High

Medium-High

Cost

Medium

Low

High

Medium

 

 

Applications:

HZMIM has been in the MIM industry for years and now our product line includes: Tools, Medical treatment, Hardware, Electronic appliance, Automotive, Consumer products, Spinning parts and so on.

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Post Treatment

HZMIM provides the following services.

 

Machining

* Full-automatic computerized numerical control (CNC) machining

* Electric discharge machining (EDM)

* Wire-electrode cutting, etc.

Surface Finish

* Polishing (normal and mirror)

* Brushing

* Painting

* Blasting

* Laser engraving

* Blackening

* Carburizing

Plating

* Cataphoresis

* Electroplating (zinc, nickel, chromium, copper, etc)

PVD

 Various colors, like: white, black, golden, brown, etc

Heat Treatment

 To meet the specific hardness requirement of your parts.

Ultrasonic Cleaning

 Clean the tight adhesion or embedded particles from the solid surface.

Passivation

 Ensure a part’s metallurgical stability by making its surface more passive and corrosion resistant.

 

Packaging & Shipping

 We will provide OEM packaging for your products, track the logistics of the products and give feedback timely, to ensure your products arrive in shortest time soundly.   

Packing method optimization

Transportation cost optimization

Damage reduction

* Delivery: 30-40 days

to web 13 pack ship

 

Our Services

 

* Provide flexible order process

* Shipping method would be chosen on your demand.

* We not only a MIM product manufacturer but also prefer to be your partner.

   Our MIM technology will realize your products ideas.

 * We provide one-stop customized services from concept to market.    

    Including design; Material; Molding; Assembly; Packing and Shipping

to web certificate.jpg

 

Company Information

 

Established in 2009, HZMIM specializes in the production of components through Metal Injection Molding technology. We are engaged in range of industries, like automotive, tool, electronics, medical treatment and consumer goods. 

 

Specializes in the mass production of precision metal parts through Metal Injection Molding.

* Over 35,000 square meters of production workshop, imported equipment(Cremer) and raw material(BASF)

ISO9001:2008 and TS16949 certified, with an annual capacity of 50 tons of materials.

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FAQ

1. What is MIM technology?

MIM (Metal Injection Molding) is a manufacturing technology that combines the shape making complexity of Plastic Injection Molding with the material flexibility of Powder Metallurgy.

2. Is the metal melted during the molding process?
No, only the binders are melted allowing the powders to flow like a plastic material. Upon cooling the binders solidify giving the part strength for handling. The part must be subsequently sintered to high density to achieve the required mechanical properties.

3. How does MIM differ from the Traditional PM process?
Traditional PM uses high, uniaxially applied pressure to coarse metal powders in a die set to produce moderately complex components. Typically, no further densification is gained during the sintering process. Densities achieved by this method are typically in the range of 80-90% of theoretical which limit the physical properties that can be achieved for the given alloy. MIM products are not limited in shape complexity due to the flexibility of the injection molding process. The fine metal powders used - combine with higher sintering temperatures to allow MIM to achieve near full density in the final article. This allows MIM products to have similar properties as wrought materials. 

4. Does the part shrink during removal of binders?
No, 
the part will not change size in the debinding phase of the process
. However, since sintering achieves near full density of the powders, the part will undergo a size change of up to 20%.